netcdf wrfout_d01_2016-08-30_12\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = 0 ; :ISICE = 0 ; :ISURBAN = 0 ; :ISOILWATER = 0 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_13\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_14\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_15\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_16\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_17\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_18\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_19\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_20\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_21\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_22\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-30_23\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-31_00\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-31_01\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-31_02\:00\:00 { dimensions: Time = UNLIMITED ; // (6 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfout_d01_2016-08-31_03\:00\:00 { dimensions: Time = UNLIMITED ; // (1 currently) DateStrLen = 19 ; west_east = 144 ; south_north = 144 ; bottom_top = 226 ; bottom_top_stag = 227 ; soil_layers_stag = 5 ; west_east_stag = 145 ; south_north_stag = 145 ; force_layers = 751 ; aer_layers = 321 ; variables: char Times(Time, DateStrLen) ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float HFX_FORCE(Time) ; HFX_FORCE:FieldType = 104 ; HFX_FORCE:MemoryOrder = "0 " ; HFX_FORCE:description = "SCM ideal surface sensible heat flux" ; HFX_FORCE:units = "W m-2" ; HFX_FORCE:stagger = "" ; float LH_FORCE(Time) ; LH_FORCE:FieldType = 104 ; LH_FORCE:MemoryOrder = "0 " ; LH_FORCE:description = "SCM ideal surface latent heat flux" ; LH_FORCE:units = "W m-2" ; LH_FORCE:stagger = "" ; float TSK_FORCE(Time) ; TSK_FORCE:FieldType = 104 ; TSK_FORCE:MemoryOrder = "0 " ; TSK_FORCE:description = "SCM ideal surface skin temperature" ; TSK_FORCE:units = "W m-2" ; TSK_FORCE:stagger = "" ; float HFX_FORCE_TEND(Time) ; HFX_FORCE_TEND:FieldType = 104 ; HFX_FORCE_TEND:MemoryOrder = "0 " ; HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ; HFX_FORCE_TEND:units = "W m-2 s-1" ; HFX_FORCE_TEND:stagger = "" ; float LH_FORCE_TEND(Time) ; LH_FORCE_TEND:FieldType = 104 ; LH_FORCE_TEND:MemoryOrder = "0 " ; LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ; LH_FORCE_TEND:units = "W m-2 s-1" ; LH_FORCE_TEND:stagger = "" ; float TSK_FORCE_TEND(Time) ; TSK_FORCE_TEND:FieldType = 104 ; TSK_FORCE_TEND:MemoryOrder = "0 " ; TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ; TSK_FORCE_TEND:units = "W m-2 s-1" ; TSK_FORCE_TEND:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; NEST_POS:coordinates = "XLONG XLAT XTIME" ; float TKE(Time, bottom_top, south_north, west_east) ; TKE:FieldType = 104 ; TKE:MemoryOrder = "XYZ" ; TKE:description = "TURBULENCE KINETIC ENERGY" ; TKE:units = "m2 s-2" ; TKE:stagger = "" ; TKE:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; ALT:coordinates = "XLONG XLAT XTIME" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float XICEM(Time, south_north, west_east) ; XICEM:FieldType = 104 ; XICEM:MemoryOrder = "XY " ; XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ; XICEM:units = "" ; XICEM:stagger = "" ; XICEM:coordinates = "XLONG XLAT XTIME" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; SFROFF:coordinates = "XLONG XLAT XTIME" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; UDROFF:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; GRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACGRDFLX(Time, south_north, west_east) ; ACGRDFLX:FieldType = 104 ; ACGRDFLX:MemoryOrder = "XY " ; ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ; ACGRDFLX:units = "J m-2" ; ACGRDFLX:stagger = "" ; ACGRDFLX:coordinates = "XLONG XLAT XTIME" ; float ACSNOM(Time, south_north, west_east) ; ACSNOM:FieldType = 104 ; ACSNOM:MemoryOrder = "XY " ; ACSNOM:description = "ACCUMULATED MELTED SNOW" ; ACSNOM:units = "kg m-2" ; ACSNOM:stagger = "" ; ACSNOM:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float SSTSK(Time, south_north, west_east) ; SSTSK:FieldType = 104 ; SSTSK:MemoryOrder = "XY " ; SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ; SSTSK:units = "K" ; SSTSK:stagger = "" ; SSTSK:coordinates = "XLONG XLAT XTIME" ; float COSZEN(Time, south_north, west_east) ; COSZEN:FieldType = 104 ; COSZEN:MemoryOrder = "XY " ; COSZEN:description = "COS of SOLAR ZENITH ANGLE" ; COSZEN:units = "dimensionless" ; COSZEN:stagger = "" ; COSZEN:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float MAX_MSTFX(Time) ; MAX_MSTFX:FieldType = 104 ; MAX_MSTFX:MemoryOrder = "0 " ; MAX_MSTFX:description = "Max map factor in domain" ; MAX_MSTFX:units = "" ; MAX_MSTFX:stagger = "" ; float MAX_MSTFY(Time) ; MAX_MSTFY:FieldType = 104 ; MAX_MSTFY:MemoryOrder = "0 " ; MAX_MSTFY:description = "Max map factor in domain" ; MAX_MSTFY:units = "" ; MAX_MSTFY:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; RAINC:coordinates = "XLONG XLAT XTIME" ; float RAINSH(Time, south_north, west_east) ; RAINSH:FieldType = 104 ; RAINSH:MemoryOrder = "XY " ; RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ; RAINSH:units = "mm" ; RAINSH:stagger = "" ; RAINSH:coordinates = "XLONG XLAT XTIME" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; RAINNC:coordinates = "XLONG XLAT XTIME" ; float SNOWNC(Time, south_north, west_east) ; SNOWNC:FieldType = 104 ; SNOWNC:MemoryOrder = "XY " ; SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ; SNOWNC:units = "mm" ; SNOWNC:stagger = "" ; SNOWNC:coordinates = "XLONG XLAT XTIME" ; float GRAUPELNC(Time, south_north, west_east) ; GRAUPELNC:FieldType = 104 ; GRAUPELNC:MemoryOrder = "XY " ; GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ; GRAUPELNC:units = "mm" ; GRAUPELNC:stagger = "" ; GRAUPELNC:coordinates = "XLONG XLAT XTIME" ; float HAILNC(Time, south_north, west_east) ; HAILNC:FieldType = 104 ; HAILNC:MemoryOrder = "XY " ; HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ; HAILNC:units = "mm" ; HAILNC:stagger = "" ; HAILNC:coordinates = "XLONG XLAT XTIME" ; float CLDFRA(Time, bottom_top, south_north, west_east) ; CLDFRA:FieldType = 104 ; CLDFRA:MemoryOrder = "XYZ" ; CLDFRA:description = "CLOUD FRACTION" ; CLDFRA:units = "" ; CLDFRA:stagger = "" ; CLDFRA:coordinates = "XLONG XLAT XTIME" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; SWDOWN:coordinates = "XLONG XLAT XTIME" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; GLW:coordinates = "XLONG XLAT XTIME" ; float SWNORM(Time, south_north, west_east) ; SWNORM:FieldType = 104 ; SWNORM:MemoryOrder = "XY " ; SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ; SWNORM:units = "W m-2" ; SWNORM:stagger = "" ; SWNORM:coordinates = "XLONG XLAT XTIME" ; float ACSWUPT(Time, south_north, west_east) ; ACSWUPT:FieldType = 104 ; ACSWUPT:MemoryOrder = "XY " ; ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ; ACSWUPT:units = "J m-2" ; ACSWUPT:stagger = "" ; ACSWUPT:coordinates = "XLONG XLAT XTIME" ; float ACSWUPTC(Time, south_north, west_east) ; ACSWUPTC:FieldType = 104 ; ACSWUPTC:MemoryOrder = "XY " ; ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWUPTC:units = "J m-2" ; ACSWUPTC:stagger = "" ; ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNT(Time, south_north, west_east) ; ACSWDNT:FieldType = 104 ; ACSWDNT:MemoryOrder = "XY " ; ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ; ACSWDNT:units = "J m-2" ; ACSWDNT:stagger = "" ; ACSWDNT:coordinates = "XLONG XLAT XTIME" ; float ACSWDNTC(Time, south_north, west_east) ; ACSWDNTC:FieldType = 104 ; ACSWDNTC:MemoryOrder = "XY " ; ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; ACSWDNTC:units = "J m-2" ; ACSWDNTC:stagger = "" ; ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACSWUPB(Time, south_north, west_east) ; ACSWUPB:FieldType = 104 ; ACSWUPB:MemoryOrder = "XY " ; ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWUPB:units = "J m-2" ; ACSWUPB:stagger = "" ; ACSWUPB:coordinates = "XLONG XLAT XTIME" ; float ACSWUPBC(Time, south_north, west_east) ; ACSWUPBC:FieldType = 104 ; ACSWUPBC:MemoryOrder = "XY " ; ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWUPBC:units = "J m-2" ; ACSWUPBC:stagger = "" ; ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACSWDNB(Time, south_north, west_east) ; ACSWDNB:FieldType = 104 ; ACSWDNB:MemoryOrder = "XY " ; ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; ACSWDNB:units = "J m-2" ; ACSWDNB:stagger = "" ; ACSWDNB:coordinates = "XLONG XLAT XTIME" ; float ACSWDNBC(Time, south_north, west_east) ; ACSWDNBC:FieldType = 104 ; ACSWDNBC:MemoryOrder = "XY " ; ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; ACSWDNBC:units = "J m-2" ; ACSWDNBC:stagger = "" ; ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPT(Time, south_north, west_east) ; ACLWUPT:FieldType = 104 ; ACLWUPT:MemoryOrder = "XY " ; ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ; ACLWUPT:units = "J m-2" ; ACLWUPT:stagger = "" ; ACLWUPT:coordinates = "XLONG XLAT XTIME" ; float ACLWUPTC(Time, south_north, west_east) ; ACLWUPTC:FieldType = 104 ; ACLWUPTC:MemoryOrder = "XY " ; ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWUPTC:units = "J m-2" ; ACLWUPTC:stagger = "" ; ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNT(Time, south_north, west_east) ; ACLWDNT:FieldType = 104 ; ACLWDNT:MemoryOrder = "XY " ; ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ; ACLWDNT:units = "J m-2" ; ACLWDNT:stagger = "" ; ACLWDNT:coordinates = "XLONG XLAT XTIME" ; float ACLWDNTC(Time, south_north, west_east) ; ACLWDNTC:FieldType = 104 ; ACLWDNTC:MemoryOrder = "XY " ; ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; ACLWDNTC:units = "J m-2" ; ACLWDNTC:stagger = "" ; ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; float ACLWUPB(Time, south_north, west_east) ; ACLWUPB:FieldType = 104 ; ACLWUPB:MemoryOrder = "XY " ; ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWUPB:units = "J m-2" ; ACLWUPB:stagger = "" ; ACLWUPB:coordinates = "XLONG XLAT XTIME" ; float ACLWUPBC(Time, south_north, west_east) ; ACLWUPBC:FieldType = 104 ; ACLWUPBC:MemoryOrder = "XY " ; ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWUPBC:units = "J m-2" ; ACLWUPBC:stagger = "" ; ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; float ACLWDNB(Time, south_north, west_east) ; ACLWDNB:FieldType = 104 ; ACLWDNB:MemoryOrder = "XY " ; ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; ACLWDNB:units = "J m-2" ; ACLWDNB:stagger = "" ; ACLWDNB:coordinates = "XLONG XLAT XTIME" ; float ACLWDNBC(Time, south_north, west_east) ; ACLWDNBC:FieldType = 104 ; ACLWDNBC:MemoryOrder = "XY " ; ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; ACLWDNBC:units = "J m-2" ; ACLWDNBC:stagger = "" ; ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPT(Time, south_north, west_east) ; I_ACSWUPT:FieldType = 106 ; I_ACSWUPT:MemoryOrder = "XY " ; I_ACSWUPT:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWUPT:units = "J m-2" ; I_ACSWUPT:stagger = "" ; I_ACSWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPTC(Time, south_north, west_east) ; I_ACSWUPTC:FieldType = 106 ; I_ACSWUPTC:MemoryOrder = "XY " ; I_ACSWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWUPTC:units = "J m-2" ; I_ACSWUPTC:stagger = "" ; I_ACSWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNT(Time, south_north, west_east) ; I_ACSWDNT:FieldType = 106 ; I_ACSWDNT:MemoryOrder = "XY " ; I_ACSWDNT:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT TOP" ; I_ACSWDNT:units = "J m-2" ; I_ACSWDNT:stagger = "" ; I_ACSWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNTC(Time, south_north, west_east) ; I_ACSWDNTC:FieldType = 106 ; I_ACSWDNTC:MemoryOrder = "XY " ; I_ACSWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; I_ACSWDNTC:units = "J m-2" ; I_ACSWDNTC:stagger = "" ; I_ACSWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPB(Time, south_north, west_east) ; I_ACSWUPB:FieldType = 106 ; I_ACSWUPB:MemoryOrder = "XY " ; I_ACSWUPB:description = "BUCKET FOR UPWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPB:units = "J m-2" ; I_ACSWUPB:stagger = "" ; I_ACSWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWUPBC(Time, south_north, west_east) ; I_ACSWUPBC:FieldType = 106 ; I_ACSWUPBC:MemoryOrder = "XY " ; I_ACSWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWUPBC:units = "J m-2" ; I_ACSWUPBC:stagger = "" ; I_ACSWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNB(Time, south_north, west_east) ; I_ACSWDNB:FieldType = 106 ; I_ACSWDNB:MemoryOrder = "XY " ; I_ACSWDNB:description = "BUCKET FOR DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNB:units = "J m-2" ; I_ACSWDNB:stagger = "" ; I_ACSWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACSWDNBC(Time, south_north, west_east) ; I_ACSWDNBC:FieldType = 106 ; I_ACSWDNBC:MemoryOrder = "XY " ; I_ACSWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; I_ACSWDNBC:units = "J m-2" ; I_ACSWDNBC:stagger = "" ; I_ACSWDNBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPT(Time, south_north, west_east) ; I_ACLWUPT:FieldType = 106 ; I_ACLWUPT:MemoryOrder = "XY " ; I_ACLWUPT:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT TOP" ; I_ACLWUPT:units = "J m-2" ; I_ACLWUPT:stagger = "" ; I_ACLWUPT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPTC(Time, south_north, west_east) ; I_ACLWUPTC:FieldType = 106 ; I_ACLWUPTC:MemoryOrder = "XY " ; I_ACLWUPTC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWUPTC:units = "J m-2" ; I_ACLWUPTC:stagger = "" ; I_ACLWUPTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNT(Time, south_north, west_east) ; I_ACLWDNT:FieldType = 106 ; I_ACLWDNT:MemoryOrder = "XY " ; I_ACLWDNT:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT TOP" ; I_ACLWDNT:units = "J m-2" ; I_ACLWDNT:stagger = "" ; I_ACLWDNT:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNTC(Time, south_north, west_east) ; I_ACLWDNTC:FieldType = 106 ; I_ACLWDNTC:MemoryOrder = "XY " ; I_ACLWDNTC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; I_ACLWDNTC:units = "J m-2" ; I_ACLWDNTC:stagger = "" ; I_ACLWDNTC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPB(Time, south_north, west_east) ; I_ACLWUPB:FieldType = 106 ; I_ACLWUPB:MemoryOrder = "XY " ; I_ACLWUPB:description = "BUCKET FOR UPWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPB:units = "J m-2" ; I_ACLWUPB:stagger = "" ; I_ACLWUPB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWUPBC(Time, south_north, west_east) ; I_ACLWUPBC:FieldType = 106 ; I_ACLWUPBC:MemoryOrder = "XY " ; I_ACLWUPBC:description = "BUCKET FOR UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWUPBC:units = "J m-2" ; I_ACLWUPBC:stagger = "" ; I_ACLWUPBC:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNB(Time, south_north, west_east) ; I_ACLWDNB:FieldType = 106 ; I_ACLWDNB:MemoryOrder = "XY " ; I_ACLWDNB:description = "BUCKET FOR DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNB:units = "J m-2" ; I_ACLWDNB:stagger = "" ; I_ACLWDNB:coordinates = "XLONG XLAT XTIME" ; int I_ACLWDNBC(Time, south_north, west_east) ; I_ACLWDNBC:FieldType = 106 ; I_ACLWDNBC:MemoryOrder = "XY " ; I_ACLWDNBC:description = "BUCKET FOR DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; I_ACLWDNBC:units = "J m-2" ; I_ACLWDNBC:stagger = "" ; I_ACLWDNBC:coordinates = "XLONG XLAT XTIME" ; float SWUPT(Time, south_north, west_east) ; SWUPT:FieldType = 104 ; SWUPT:MemoryOrder = "XY " ; SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ; SWUPT:units = "W m-2" ; SWUPT:stagger = "" ; SWUPT:coordinates = "XLONG XLAT XTIME" ; float SWUPTC(Time, south_north, west_east) ; SWUPTC:FieldType = 104 ; SWUPTC:MemoryOrder = "XY " ; SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWUPTC:units = "W m-2" ; SWUPTC:stagger = "" ; SWUPTC:coordinates = "XLONG XLAT XTIME" ; float SWDNT(Time, south_north, west_east) ; SWDNT:FieldType = 104 ; SWDNT:MemoryOrder = "XY " ; SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ; SWDNT:units = "W m-2" ; SWDNT:stagger = "" ; SWDNT:coordinates = "XLONG XLAT XTIME" ; float SWDNTC(Time, south_north, west_east) ; SWDNTC:FieldType = 104 ; SWDNTC:MemoryOrder = "XY " ; SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ; SWDNTC:units = "W m-2" ; SWDNTC:stagger = "" ; SWDNTC:coordinates = "XLONG XLAT XTIME" ; float SWUPB(Time, south_north, west_east) ; SWUPB:FieldType = 104 ; SWUPB:MemoryOrder = "XY " ; SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ; SWUPB:units = "W m-2" ; SWUPB:stagger = "" ; SWUPB:coordinates = "XLONG XLAT XTIME" ; float SWUPBC(Time, south_north, west_east) ; SWUPBC:FieldType = 104 ; SWUPBC:MemoryOrder = "XY " ; SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWUPBC:units = "W m-2" ; SWUPBC:stagger = "" ; SWUPBC:coordinates = "XLONG XLAT XTIME" ; float SWDNB(Time, south_north, west_east) ; SWDNB:FieldType = 104 ; SWDNB:MemoryOrder = "XY " ; SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ; SWDNB:units = "W m-2" ; SWDNB:stagger = "" ; SWDNB:coordinates = "XLONG XLAT XTIME" ; float SWDNBC(Time, south_north, west_east) ; SWDNBC:FieldType = 104 ; SWDNBC:MemoryOrder = "XY " ; SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ; SWDNBC:units = "W m-2" ; SWDNBC:stagger = "" ; SWDNBC:coordinates = "XLONG XLAT XTIME" ; float LWUPT(Time, south_north, west_east) ; LWUPT:FieldType = 104 ; LWUPT:MemoryOrder = "XY " ; LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ; LWUPT:units = "W m-2" ; LWUPT:stagger = "" ; LWUPT:coordinates = "XLONG XLAT XTIME" ; float LWUPTC(Time, south_north, west_east) ; LWUPTC:FieldType = 104 ; LWUPTC:MemoryOrder = "XY " ; LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWUPTC:units = "W m-2" ; LWUPTC:stagger = "" ; LWUPTC:coordinates = "XLONG XLAT XTIME" ; float LWDNT(Time, south_north, west_east) ; LWDNT:FieldType = 104 ; LWDNT:MemoryOrder = "XY " ; LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ; LWDNT:units = "W m-2" ; LWDNT:stagger = "" ; LWDNT:coordinates = "XLONG XLAT XTIME" ; float LWDNTC(Time, south_north, west_east) ; LWDNTC:FieldType = 104 ; LWDNTC:MemoryOrder = "XY " ; LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ; LWDNTC:units = "W m-2" ; LWDNTC:stagger = "" ; LWDNTC:coordinates = "XLONG XLAT XTIME" ; float LWUPB(Time, south_north, west_east) ; LWUPB:FieldType = 104 ; LWUPB:MemoryOrder = "XY " ; LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ; LWUPB:units = "W m-2" ; LWUPB:stagger = "" ; LWUPB:coordinates = "XLONG XLAT XTIME" ; float LWUPBC(Time, south_north, west_east) ; LWUPBC:FieldType = 104 ; LWUPBC:MemoryOrder = "XY " ; LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWUPBC:units = "W m-2" ; LWUPBC:stagger = "" ; LWUPBC:coordinates = "XLONG XLAT XTIME" ; float LWDNB(Time, south_north, west_east) ; LWDNB:FieldType = 104 ; LWDNB:MemoryOrder = "XY " ; LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ; LWDNB:units = "W m-2" ; LWDNB:stagger = "" ; LWDNB:coordinates = "XLONG XLAT XTIME" ; float LWDNBC(Time, south_north, west_east) ; LWDNBC:FieldType = 104 ; LWDNBC:MemoryOrder = "XY " ; LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ; LWDNBC:units = "W m-2" ; LWDNBC:stagger = "" ; LWDNBC:coordinates = "XLONG XLAT XTIME" ; float OLR(Time, south_north, west_east) ; OLR:FieldType = 104 ; OLR:MemoryOrder = "XY " ; OLR:description = "TOA OUTGOING LONG WAVE" ; OLR:units = "W m-2" ; OLR:stagger = "" ; OLR:coordinates = "XLONG XLAT XTIME" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ALBEDO(Time, south_north, west_east) ; ALBEDO:FieldType = 104 ; ALBEDO:MemoryOrder = "XY " ; ALBEDO:description = "ALBEDO" ; ALBEDO:units = "-" ; ALBEDO:stagger = "" ; ALBEDO:coordinates = "XLONG XLAT XTIME" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float EMISS(Time, south_north, west_east) ; EMISS:FieldType = 104 ; EMISS:MemoryOrder = "XY " ; EMISS:description = "SURFACE EMISSIVITY" ; EMISS:units = "" ; EMISS:stagger = "" ; EMISS:coordinates = "XLONG XLAT XTIME" ; float NOAHRES(Time, south_north, west_east) ; NOAHRES:FieldType = 104 ; NOAHRES:MemoryOrder = "XY " ; NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ; NOAHRES:units = "W m{-2}" ; NOAHRES:stagger = "" ; NOAHRES:coordinates = "XLONG XLAT XTIME" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float UST(Time, south_north, west_east) ; UST:FieldType = 104 ; UST:MemoryOrder = "XY " ; UST:description = "U* IN SIMILARITY THEORY" ; UST:units = "m s-1" ; UST:stagger = "" ; UST:coordinates = "XLONG XLAT XTIME" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; PBLH:coordinates = "XLONG XLAT XTIME" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; HFX:coordinates = "XLONG XLAT XTIME" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; QFX:coordinates = "XLONG XLAT XTIME" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; LH:coordinates = "XLONG XLAT XTIME" ; float ACHFX(Time, south_north, west_east) ; ACHFX:FieldType = 104 ; ACHFX:MemoryOrder = "XY " ; ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ; ACHFX:units = "J m-2" ; ACHFX:stagger = "" ; ACHFX:coordinates = "XLONG XLAT XTIME" ; float ACLHF(Time, south_north, west_east) ; ACLHF:FieldType = 104 ; ACLHF:MemoryOrder = "XY " ; ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ; ACLHF:units = "J m-2" ; ACLHF:stagger = "" ; ACLHF:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; int ISEEDARR_RAND_PERTURB(Time, bottom_top) ; ISEEDARR_RAND_PERTURB:FieldType = 106 ; ISEEDARR_RAND_PERTURB:MemoryOrder = "Z " ; ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ; ISEEDARR_RAND_PERTURB:units = "" ; ISEEDARR_RAND_PERTURB:stagger = "" ; int ISEEDARR_SPPT(Time, bottom_top) ; ISEEDARR_SPPT:FieldType = 106 ; ISEEDARR_SPPT:MemoryOrder = "Z " ; ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ; ISEEDARR_SPPT:units = "" ; ISEEDARR_SPPT:stagger = "" ; int ISEEDARR_SKEBS(Time, bottom_top) ; ISEEDARR_SKEBS:FieldType = 106 ; ISEEDARR_SKEBS:MemoryOrder = "Z " ; ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ; ISEEDARR_SKEBS:units = "" ; ISEEDARR_SKEBS:stagger = "" ; float m11(Time, bottom_top, south_north, west_east) ; m11:FieldType = 104 ; m11:MemoryOrder = "XYZ" ; m11:description = "11 component of NBA subgrid stress tensor" ; m11:units = "m2 s-2" ; m11:stagger = "" ; m11:coordinates = "XLONG XLAT XTIME" ; float m22(Time, bottom_top, south_north, west_east) ; m22:FieldType = 104 ; m22:MemoryOrder = "XYZ" ; m22:description = "22 component of NBA subgrid stress tensor" ; m22:units = "m2 s-2" ; m22:stagger = "" ; m22:coordinates = "XLONG XLAT XTIME" ; float m33(Time, bottom_top, south_north, west_east) ; m33:FieldType = 104 ; m33:MemoryOrder = "XYZ" ; m33:description = "33 component of NBA subgrid stress tensor" ; m33:units = "m2 s-2" ; m33:stagger = "" ; m33:coordinates = "XLONG XLAT XTIME" ; float m12(Time, bottom_top, south_north, west_east) ; m12:FieldType = 104 ; m12:MemoryOrder = "XYZ" ; m12:description = "12 component of NBA subgrid stress tensor" ; m12:units = "m2 s-2" ; m12:stagger = "" ; m12:coordinates = "XLONG XLAT XTIME" ; float m13(Time, bottom_top, south_north, west_east) ; m13:FieldType = 104 ; m13:MemoryOrder = "XYZ" ; m13:description = "13 component of NBA subgrid stress tensor" ; m13:units = "m2 s-2" ; m13:stagger = "" ; m13:coordinates = "XLONG XLAT XTIME" ; float m23(Time, bottom_top, south_north, west_east) ; m23:FieldType = 104 ; m23:MemoryOrder = "XYZ" ; m23:description = "23 component of NBA subgrid stress tensor" ; m23:units = "m2 s-2" ; m23:stagger = "" ; m23:coordinates = "XLONG XLAT XTIME" ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large-scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "tendency large-scale zonal wind velocity" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large-scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "tendency large-scale meridional wind velocity" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large-scale vertical velocity" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "tendency large-scale vertical velocity" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalars" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for scalars" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency theta advection" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "tendency of tendency theta advection" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "tendency theta relaxation" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency qv advection" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "tendency of tendency qv advection" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "tendency qv relaxation" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "z of large-scale forcings" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "tendency of z of large-scale forcings" ; Z_LS_TEND:units = "m s-1" ; Z_LS_TEND:stagger = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "prescribed sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "tendency prescribed sensible heat flux" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "prescribed latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "tendency prescribed latent heat flux" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "prescribed albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "tendency prescribed albedo" ; PRE_ALBEDO_TEND:units = "s-1" ; PRE_ALBEDO_TEND:stagger = "" ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "prescribed skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "tendency prescribed skin temperature" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; int NUM_MODES_AER(Time) ; NUM_MODES_AER:FieldType = 106 ; NUM_MODES_AER:MemoryOrder = "0 " ; NUM_MODES_AER:description = "Number of aerosol distribution modes" ; NUM_MODES_AER:units = "" ; NUM_MODES_AER:stagger = "" ; float RM_AER1(Time) ; RM_AER1:FieldType = 104 ; RM_AER1:MemoryOrder = "0 " ; RM_AER1:description = "mode 1 aerosol geometric mean" ; RM_AER1:units = "um" ; RM_AER1:stagger = "" ; float RM_AER1_TEND(Time) ; RM_AER1_TEND:FieldType = 104 ; RM_AER1_TEND:MemoryOrder = "0 " ; RM_AER1_TEND:description = "mode 1 tendency aerosol geometric mean" ; RM_AER1_TEND:units = "um s-1" ; RM_AER1_TEND:stagger = "" ; float RM_AER2(Time) ; RM_AER2:FieldType = 104 ; RM_AER2:MemoryOrder = "0 " ; RM_AER2:description = "mode 2 aerosol geometric mean" ; RM_AER2:units = "um" ; RM_AER2:stagger = "" ; float RM_AER2_TEND(Time) ; RM_AER2_TEND:FieldType = 104 ; RM_AER2_TEND:MemoryOrder = "0 " ; RM_AER2_TEND:description = "mode 2 tendency aerosol geometric mean" ; RM_AER2_TEND:units = "um s-1" ; RM_AER2_TEND:stagger = "" ; float RM_AER3(Time) ; RM_AER3:FieldType = 104 ; RM_AER3:MemoryOrder = "0 " ; RM_AER3:description = "mode 3 aerosol geometric mean" ; RM_AER3:units = "um" ; RM_AER3:stagger = "" ; float RM_AER3_TEND(Time) ; RM_AER3_TEND:FieldType = 104 ; RM_AER3_TEND:MemoryOrder = "0 " ; RM_AER3_TEND:description = "mode 3 tendency aerosol geometric mean" ; RM_AER3_TEND:units = "um s-1" ; RM_AER3_TEND:stagger = "" ; float RM_AER4(Time) ; RM_AER4:FieldType = 104 ; RM_AER4:MemoryOrder = "0 " ; RM_AER4:description = "mode 4 aerosol geometric mean" ; RM_AER4:units = "um" ; RM_AER4:stagger = "" ; float RM_AER4_TEND(Time) ; RM_AER4_TEND:FieldType = 104 ; RM_AER4_TEND:MemoryOrder = "0 " ; RM_AER4_TEND:description = "mode 4 tendency aerosol geometric mean" ; RM_AER4_TEND:units = "um s-1" ; RM_AER4_TEND:stagger = "" ; float SIG_AER1(Time) ; SIG_AER1:FieldType = 104 ; SIG_AER1:MemoryOrder = "0 " ; SIG_AER1:description = "mode 1 aerosol standard deviation" ; SIG_AER1:units = "" ; SIG_AER1:stagger = "" ; float SIG_AER1_TEND(Time) ; SIG_AER1_TEND:FieldType = 104 ; SIG_AER1_TEND:MemoryOrder = "0 " ; SIG_AER1_TEND:description = "mode 1 tendency aerosol standard deviation" ; SIG_AER1_TEND:units = "s-1" ; SIG_AER1_TEND:stagger = "" ; float SIG_AER2(Time) ; SIG_AER2:FieldType = 104 ; SIG_AER2:MemoryOrder = "0 " ; SIG_AER2:description = "mode 2 aerosol standard deviation" ; SIG_AER2:units = "" ; SIG_AER2:stagger = "" ; float SIG_AER2_TEND(Time) ; SIG_AER2_TEND:FieldType = 104 ; SIG_AER2_TEND:MemoryOrder = "0 " ; SIG_AER2_TEND:description = "mode 2 tendency aerosol standard deviation" ; SIG_AER2_TEND:units = "s-1" ; SIG_AER2_TEND:stagger = "" ; float SIG_AER3(Time) ; SIG_AER3:FieldType = 104 ; SIG_AER3:MemoryOrder = "0 " ; SIG_AER3:description = "mode 3 aerosol standard deviation" ; SIG_AER3:units = "" ; SIG_AER3:stagger = "" ; float SIG_AER3_TEND(Time) ; SIG_AER3_TEND:FieldType = 104 ; SIG_AER3_TEND:MemoryOrder = "0 " ; SIG_AER3_TEND:description = "mode 3 tendency aerosol standard deviation" ; SIG_AER3_TEND:units = "s-1" ; SIG_AER3_TEND:stagger = "" ; float SIG_AER4(Time) ; SIG_AER4:FieldType = 104 ; SIG_AER4:MemoryOrder = "0 " ; SIG_AER4:description = "mode 4 aerosol standard deviation" ; SIG_AER4:units = "" ; SIG_AER4:stagger = "" ; float SIG_AER4_TEND(Time) ; SIG_AER4_TEND:FieldType = 104 ; SIG_AER4_TEND:MemoryOrder = "0 " ; SIG_AER4_TEND:description = "mode 4 tendency aerosol standard deviation" ; SIG_AER4_TEND:units = "s-1" ; SIG_AER4_TEND:stagger = "" ; float NA_AER1(Time, aer_layers) ; NA_AER1:FieldType = 104 ; NA_AER1:MemoryOrder = "Z " ; NA_AER1:description = "mode 1 aerosol number concentration" ; NA_AER1:units = "cm-3" ; NA_AER1:stagger = "" ; float NA_AER1_TEND(Time, aer_layers) ; NA_AER1_TEND:FieldType = 104 ; NA_AER1_TEND:MemoryOrder = "Z " ; NA_AER1_TEND:description = "mode 1 tendency aerosol number concentration" ; NA_AER1_TEND:units = "cm-3 s-1" ; NA_AER1_TEND:stagger = "" ; float NA_AER2(Time, aer_layers) ; NA_AER2:FieldType = 104 ; NA_AER2:MemoryOrder = "Z " ; NA_AER2:description = "mode 2 aerosol number concentration" ; NA_AER2:units = "cm-3" ; NA_AER2:stagger = "" ; float NA_AER2_TEND(Time, aer_layers) ; NA_AER2_TEND:FieldType = 104 ; NA_AER2_TEND:MemoryOrder = "Z " ; NA_AER2_TEND:description = "mode 2 tendency aerosol number concentration" ; NA_AER2_TEND:units = "cm-3 s-1" ; NA_AER2_TEND:stagger = "" ; float NA_AER3(Time, aer_layers) ; NA_AER3:FieldType = 104 ; NA_AER3:MemoryOrder = "Z " ; NA_AER3:description = "mode 3 aerosol number concentration" ; NA_AER3:units = "cm-3" ; NA_AER3:stagger = "" ; float NA_AER3_TEND(Time, aer_layers) ; NA_AER3_TEND:FieldType = 104 ; NA_AER3_TEND:MemoryOrder = "Z " ; NA_AER3_TEND:description = "mode 3 tendency aerosol number concentration" ; NA_AER3_TEND:units = "cm-3 s-1" ; NA_AER3_TEND:stagger = "" ; float NA_AER4(Time, aer_layers) ; NA_AER4:FieldType = 104 ; NA_AER4:MemoryOrder = "Z " ; NA_AER4:description = "mode 4 aerosol number concentration" ; NA_AER4:units = "cm-3" ; NA_AER4:stagger = "" ; float NA_AER4_TEND(Time, aer_layers) ; NA_AER4_TEND:FieldType = 104 ; NA_AER4_TEND:MemoryOrder = "Z " ; NA_AER4_TEND:description = "mode 4 tendency aerosol number concentration" ; NA_AER4_TEND:units = "cm-3 s-1" ; NA_AER4_TEND:stagger = "" ; float Z_AER(Time, aer_layers) ; Z_AER:FieldType = 104 ; Z_AER:MemoryOrder = "Z " ; Z_AER:description = "z of aerosol data" ; Z_AER:units = "m" ; Z_AER:stagger = "" ; float Z_AER_TEND(Time, aer_layers) ; Z_AER_TEND:FieldType = 104 ; Z_AER_TEND:MemoryOrder = "Z " ; Z_AER_TEND:description = "tendency z of aerosol data" ; Z_AER_TEND:units = "m s-1" ; Z_AER_TEND:stagger = "" ; float HYGRO_AER1(Time) ; HYGRO_AER1:FieldType = 104 ; HYGRO_AER1:MemoryOrder = "0 " ; HYGRO_AER1:description = "mode 1 hygroscopicity for aerosol" ; HYGRO_AER1:units = "" ; HYGRO_AER1:stagger = "" ; float HYGRO_AER1_TEND(Time) ; HYGRO_AER1_TEND:FieldType = 104 ; HYGRO_AER1_TEND:MemoryOrder = "0 " ; HYGRO_AER1_TEND:description = "mode 1 tendency hygroscopicity for aerosol" ; HYGRO_AER1_TEND:units = "" ; HYGRO_AER1_TEND:stagger = "" ; float HYGRO_AER2(Time) ; HYGRO_AER2:FieldType = 104 ; HYGRO_AER2:MemoryOrder = "0 " ; HYGRO_AER2:description = "mode 2 hygroscopicity for aerosol" ; HYGRO_AER2:units = "" ; HYGRO_AER2:stagger = "" ; float HYGRO_AER2_TEND(Time) ; HYGRO_AER2_TEND:FieldType = 104 ; HYGRO_AER2_TEND:MemoryOrder = "0 " ; HYGRO_AER2_TEND:description = "mode 2 tendency hygroscopicity for aerosol" ; HYGRO_AER2_TEND:units = "" ; HYGRO_AER2_TEND:stagger = "" ; float HYGRO_AER3(Time) ; HYGRO_AER3:FieldType = 104 ; HYGRO_AER3:MemoryOrder = "0 " ; HYGRO_AER3:description = "mode 3 hygroscopicity for aerosol" ; HYGRO_AER3:units = "" ; HYGRO_AER3:stagger = "" ; float HYGRO_AER3_TEND(Time) ; HYGRO_AER3_TEND:FieldType = 104 ; HYGRO_AER3_TEND:MemoryOrder = "0 " ; HYGRO_AER3_TEND:description = "mode 3 tendency hygroscopicity for aerosol" ; HYGRO_AER3_TEND:units = "" ; HYGRO_AER3_TEND:stagger = "" ; float HYGRO_AER4(Time) ; HYGRO_AER4:FieldType = 104 ; HYGRO_AER4:MemoryOrder = "0 " ; HYGRO_AER4:description = "mode 4 hygroscopicity for aerosol" ; HYGRO_AER4:units = "" ; HYGRO_AER4:stagger = "" ; float HYGRO_AER4_TEND(Time) ; HYGRO_AER4_TEND:FieldType = 104 ; HYGRO_AER4_TEND:MemoryOrder = "0 " ; HYGRO_AER4_TEND:description = "mode 4 tendency hygroscopicity for aerosol" ; HYGRO_AER4_TEND:units = "" ; HYGRO_AER4_TEND:stagger = "" ; float NA_AER1_GRD(Time, bottom_top) ; NA_AER1_GRD:FieldType = 104 ; NA_AER1_GRD:MemoryOrder = "Z " ; NA_AER1_GRD:description = "mode 1 aerosol number concentration at half level" ; NA_AER1_GRD:units = "cm-3" ; NA_AER1_GRD:stagger = "" ; float NA_AER2_GRD(Time, bottom_top) ; NA_AER2_GRD:FieldType = 104 ; NA_AER2_GRD:MemoryOrder = "Z " ; NA_AER2_GRD:description = "mode 2 aerosol number concentration at half level" ; NA_AER2_GRD:units = "cm-3" ; NA_AER2_GRD:stagger = "" ; float NA_AER3_GRD(Time, bottom_top) ; NA_AER3_GRD:FieldType = 104 ; NA_AER3_GRD:MemoryOrder = "Z " ; NA_AER3_GRD:description = "mode 3 aerosol number concentration at half level" ; NA_AER3_GRD:units = "cm-3" ; NA_AER3_GRD:stagger = "" ; float NA_AER4_GRD(Time, bottom_top) ; NA_AER4_GRD:FieldType = 104 ; NA_AER4_GRD:MemoryOrder = "Z " ; NA_AER4_GRD:description = "mode 4 aerosol number concentration at half level" ; NA_AER4_GRD:units = "cm-3" ; NA_AER4_GRD:stagger = "" ; float RULSTEN(Time, bottom_top, south_north, west_east) ; RULSTEN:FieldType = 104 ; RULSTEN:MemoryOrder = "XYZ" ; RULSTEN:description = "coupled u tendency due to LS forcing" ; RULSTEN:units = "Pa m s-2" ; RULSTEN:stagger = "" ; RULSTEN:coordinates = "XLONG XLAT XTIME" ; float RVLSTEN(Time, bottom_top, south_north, west_east) ; RVLSTEN:FieldType = 104 ; RVLSTEN:MemoryOrder = "XYZ" ; RVLSTEN:description = "coupled v tendency due to LS forcing" ; RVLSTEN:units = "Pa m s-2" ; RVLSTEN:stagger = "" ; RVLSTEN:coordinates = "XLONG XLAT XTIME" ; float RTHLSTEN(Time, bottom_top, south_north, west_east) ; RTHLSTEN:FieldType = 104 ; RTHLSTEN:MemoryOrder = "XYZ" ; RTHLSTEN:description = "coupled theta tendency due to LS forcing" ; RTHLSTEN:units = "Pa K s-1" ; RTHLSTEN:stagger = "" ; RTHLSTEN:coordinates = "XLONG XLAT XTIME" ; float RQVLSTEN(Time, bottom_top, south_north, west_east) ; RQVLSTEN:FieldType = 104 ; RQVLSTEN:MemoryOrder = "XYZ" ; RQVLSTEN:description = "coupled Q_V tendency due to LS forcing" ; RQVLSTEN:units = "Pa kg kg-1 s-1" ; RQVLSTEN:stagger = "" ; RQVLSTEN:coordinates = "XLONG XLAT XTIME" ; float W_DTHDZ(Time, bottom_top, south_north, west_east) ; W_DTHDZ:FieldType = 104 ; W_DTHDZ:MemoryOrder = "XYZ" ; W_DTHDZ:description = "th tendency due to LS vertical adv" ; W_DTHDZ:units = "K s-1" ; W_DTHDZ:stagger = "" ; W_DTHDZ:coordinates = "XLONG XLAT XTIME" ; float W_DQVDZ(Time, bottom_top, south_north, west_east) ; W_DQVDZ:FieldType = 104 ; W_DQVDZ:MemoryOrder = "XYZ" ; W_DQVDZ:description = "qv tendency due to LS vertical adv" ; W_DQVDZ:units = "kg kg-1 s-1" ; W_DQVDZ:stagger = "" ; W_DQVDZ:coordinates = "XLONG XLAT XTIME" ; float W_DUDZ(Time, bottom_top, south_north, west_east) ; W_DUDZ:FieldType = 104 ; W_DUDZ:MemoryOrder = "XYZ" ; W_DUDZ:description = "u tendency due to LS vertical adv" ; W_DUDZ:units = "m s-2" ; W_DUDZ:stagger = "" ; W_DUDZ:coordinates = "XLONG XLAT XTIME" ; float W_DVDZ(Time, bottom_top, south_north, west_east) ; W_DVDZ:FieldType = 104 ; W_DVDZ:MemoryOrder = "XYZ" ; W_DVDZ:description = "v tendency due to LS vertical adv" ; W_DVDZ:units = "m s-2" ; W_DVDZ:stagger = "" ; W_DVDZ:coordinates = "XLONG XLAT XTIME" ; float THDT_LSHOR(Time, bottom_top) ; THDT_LSHOR:FieldType = 104 ; THDT_LSHOR:MemoryOrder = "Z " ; THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; THDT_LSHOR:units = "K s-1" ; THDT_LSHOR:stagger = "" ; float QVDT_LSHOR(Time, bottom_top) ; QVDT_LSHOR:FieldType = 104 ; QVDT_LSHOR:MemoryOrder = "Z " ; QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; QVDT_LSHOR:units = "kg kg-1 s-1" ; QVDT_LSHOR:stagger = "" ; float THDT_LSRLX(Time, bottom_top) ; THDT_LSRLX:FieldType = 104 ; THDT_LSRLX:MemoryOrder = "Z " ; THDT_LSRLX:description = "th tendency due to relaxation to LS" ; THDT_LSRLX:units = "K s-1" ; THDT_LSRLX:stagger = "" ; float QVDT_LSRLX(Time, bottom_top) ; QVDT_LSRLX:FieldType = 104 ; QVDT_LSRLX:MemoryOrder = "Z " ; QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; QVDT_LSRLX:units = "kg kg-1 s-1" ; QVDT_LSRLX:stagger = "" ; float UDT_LSRLX(Time, bottom_top) ; UDT_LSRLX:FieldType = 104 ; UDT_LSRLX:MemoryOrder = "Z " ; UDT_LSRLX:description = "u tendency due to relaxation to LS" ; UDT_LSRLX:units = "m s-2" ; UDT_LSRLX:stagger = "" ; float VDT_LSRLX(Time, bottom_top) ; VDT_LSRLX:FieldType = 104 ; VDT_LSRLX:MemoryOrder = "Z " ; VDT_LSRLX:description = "v tendency due to relaxation to LS" ; VDT_LSRLX:units = "m s-2" ; VDT_LSRLX:stagger = "" ; float EFFCS(Time, bottom_top, south_north, west_east) ; EFFCS:FieldType = 104 ; EFFCS:MemoryOrder = "XYZ" ; EFFCS:description = "CLOUD DROPLET EFFECTIVE RADIUS" ; EFFCS:units = "micron" ; EFFCS:stagger = "" ; EFFCS:coordinates = "XLONG XLAT XTIME" ; float LWF0(Time, bottom_top, south_north, west_east) ; LWF0:FieldType = 104 ; LWF0:MemoryOrder = "XYZ" ; LWF0:description = "Net LW radiative flux" ; LWF0:units = "W m-2" ; LWF0:stagger = "" ; LWF0:coordinates = "XLONG XLAT XTIME" ; float LWF1(Time, bottom_top, south_north, west_east) ; LWF1:FieldType = 104 ; LWF1:MemoryOrder = "XYZ" ; LWF1:description = "Net LW radiative flux, term1" ; LWF1:units = "W m-2" ; LWF1:stagger = "" ; LWF1:coordinates = "XLONG XLAT XTIME" ; float LWF2(Time, bottom_top, south_north, west_east) ; LWF2:FieldType = 104 ; LWF2:MemoryOrder = "XYZ" ; LWF2:description = "Net LW radiative flux, term2" ; LWF2:units = "W m-2" ; LWF2:stagger = "" ; LWF2:coordinates = "XLONG XLAT XTIME" ; float LWF3(Time, bottom_top, south_north, west_east) ; LWF3:FieldType = 104 ; LWF3:MemoryOrder = "XYZ" ; LWF3:description = "Net LW radiative flux, term3" ; LWF3:units = "W m-2" ; LWF3:stagger = "" ; LWF3:coordinates = "XLONG XLAT XTIME" ; float ZI_QT8(Time, south_north, west_east) ; ZI_QT8:FieldType = 104 ; ZI_QT8:MemoryOrder = "XY " ; ZI_QT8:description = "zi defined by qt" ; ZI_QT8:units = "m" ; ZI_QT8:stagger = "" ; ZI_QT8:coordinates = "XLONG XLAT XTIME" ; float SEDFQC(Time, bottom_top, south_north, west_east) ; SEDFQC:FieldType = 104 ; SEDFQC:MemoryOrder = "XYZ" ; SEDFQC:description = "sedimentation flux of cloud water" ; SEDFQC:units = "kg m-2 s-1" ; SEDFQC:stagger = "" ; SEDFQC:coordinates = "XLONG XLAT XTIME" ; float SEDFQR(Time, bottom_top, south_north, west_east) ; SEDFQR:FieldType = 104 ; SEDFQR:MemoryOrder = "XYZ" ; SEDFQR:description = "sedimentation flux of rain water" ; SEDFQR:units = "kg m-2 s-1" ; SEDFQR:stagger = "" ; SEDFQR:coordinates = "XLONG XLAT XTIME" ; float QVDT_PR(Time, bottom_top, south_north, west_east) ; QVDT_PR:FieldType = 104 ; QVDT_PR:MemoryOrder = "XYZ" ; QVDT_PR:description = "Production rate of vapor by conversion to rain" ; QVDT_PR:units = "" ; QVDT_PR:stagger = "" ; QVDT_PR:coordinates = "XLONG XLAT XTIME" ; float QVDT_COND(Time, bottom_top, south_north, west_east) ; QVDT_COND:FieldType = 104 ; QVDT_COND:MemoryOrder = "XYZ" ; QVDT_COND:description = "Production rate of vapor by conversion to rain" ; QVDT_COND:units = "" ; QVDT_COND:stagger = "" ; QVDT_COND:coordinates = "XLONG XLAT XTIME" ; float QCDT_PR(Time, bottom_top, south_north, west_east) ; QCDT_PR:FieldType = 104 ; QCDT_PR:MemoryOrder = "XYZ" ; QCDT_PR:description = "Production rate of vapor by conversion to rain" ; QCDT_PR:units = "" ; QCDT_PR:stagger = "" ; QCDT_PR:coordinates = "XLONG XLAT XTIME" ; float QCDT_SED(Time, bottom_top, south_north, west_east) ; QCDT_SED:FieldType = 104 ; QCDT_SED:MemoryOrder = "XYZ" ; QCDT_SED:description = "Tendency of cloud water due to sedimentation" ; QCDT_SED:units = "" ; QCDT_SED:stagger = "" ; QCDT_SED:coordinates = "XLONG XLAT XTIME" ; float QRDT_SED(Time, bottom_top, south_north, west_east) ; QRDT_SED:FieldType = 104 ; QRDT_SED:MemoryOrder = "XYZ" ; QRDT_SED:description = "Tendency of rain water due to sedimentation" ; QRDT_SED:units = "" ; QRDT_SED:stagger = "" ; QRDT_SED:coordinates = "XLONG XLAT XTIME" ; float SMAXACT(Time, bottom_top, south_north, west_east) ; SMAXACT:FieldType = 104 ; SMAXACT:MemoryOrder = "XYZ" ; SMAXACT:description = "Maximum supersaturation in Morrison microphysics" ; SMAXACT:units = "" ; SMAXACT:stagger = "" ; SMAXACT:coordinates = "XLONG XLAT XTIME" ; float RMINACT(Time, bottom_top, south_north, west_east) ; RMINACT:FieldType = 104 ; RMINACT:MemoryOrder = "XYZ" ; RMINACT:description = "Minimum activated radius in Morrison microphysics" ; RMINACT:units = "" ; RMINACT:stagger = "" ; RMINACT:coordinates = "XLONG XLAT XTIME" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; float SST_INPUT(Time, south_north, west_east) ; SST_INPUT:FieldType = 104 ; SST_INPUT:MemoryOrder = "XY " ; SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ; SST_INPUT:units = "K" ; SST_INPUT:stagger = "" ; SST_INPUT:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :SKEBS_ON = 0 ; :SPEC_BDY_FINAL_MU = 1 ; :USE_Q_DIABATIC = 0 ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :SF_URBAN_PHYSICS = 0 ; :SHCU_PHYSICS = 0 ; :MFSHCONV = 0 ; :FEEDBACK = 0 ; :SMOOTH_OPTION = 0 ; :SWRAD_SCAT = 1.f ; :W_DAMPING = 0 ; :RADT = 1.f ; :BLDT = 0.f ; :CUDT = 0.f ; :AER_OPT = 0 ; :SWINT_OPT = 0 ; :AER_TYPE = 1 ; :AER_AOD550_OPT = 1 ; :AER_ANGEXP_OPT = 1 ; :AER_SSA_OPT = 1 ; :AER_ASY_OPT = 1 ; :AER_AOD550_VAL = 0.12f ; :AER_ANGEXP_VAL = 1.3f ; :AER_SSA_VAL = 1.401298e-45f ; :AER_ASY_VAL = 1.401298e-45f ; :MOIST_ADV_OPT = 2 ; :SCALAR_ADV_OPT = 2 ; :TKE_ADV_OPT = 2 ; :DIFF_6TH_OPT = 0 ; :DIFF_6TH_FACTOR = 0.12f ; :OBS_NUDGE_OPT = 0 ; :BUCKET_MM = -1.f ; :BUCKET_J = -1.f ; :PREC_ACC_DT = 0.f ; :SF_OCEAN_PHYSICS = 0 ; :ISFTCFLX = 0 ; :ISHALLOW = 0 ; :ISFFLX = 11 ; :ICLOUD = 1 ; :ICLOUD_CU = 0 ; :TRACER_PBLMIX = 1 ; :SCALAR_PBLMIX = 0 ; :YSU_TOPDOWN_PBLMIX = 0 ; :GRAV_SETTLING = 0 ; :DFI_OPT = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = -1 ; :ISICE = 24 ; :ISURBAN = 1 ; :ISOILWATER = 14 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ================================================== netcdf wrfstat_d01_2016-08-30_12\:00\:00 { dimensions: Time = UNLIMITED ; // (91 currently) DateStrLen = 19 ; bottom_top = 226 ; bottom_top_stag = 227 ; west_east = 144 ; south_north = 144 ; west_east_stag = 145 ; south_north_stag = 145 ; variables: char Times(Time, DateStrLen) ; float XTIME(Time) ; XTIME:FieldType = 104 ; XTIME:MemoryOrder = "0 " ; XTIME:description = "minutes since 2016-08-30 12:00:00" ; XTIME:stagger = "" ; XTIME:units = "minutes since 2016-08-30 12:00:00" ; float CST_PRECT(Time) ; CST_PRECT:FieldType = 104 ; CST_PRECT:MemoryOrder = "0 " ; CST_PRECT:description = "Total precipitation at surface" ; CST_PRECT:stagger = "" ; CST_PRECT:units = "mm/sec" ; float CST_CLDLOW(Time) ; CST_CLDLOW:FieldType = 104 ; CST_CLDLOW:MemoryOrder = "0 " ; CST_CLDLOW:description = "Fractional low-cloud cover (<5 km)" ; CST_CLDLOW:units = "(0-1)" ; CST_CLDLOW:stagger = "" ; float CST_CLDTOT(Time) ; CST_CLDTOT:FieldType = 104 ; CST_CLDTOT:MemoryOrder = "0 " ; CST_CLDTOT:description = "Fractional cloud cover" ; CST_CLDTOT:units = "(0-1)" ; CST_CLDTOT:stagger = "" ; float CST_LWP(Time) ; CST_LWP:FieldType = 104 ; CST_LWP:MemoryOrder = "0 " ; CST_LWP:description = "Vertical integrated liquid water path (based on ql)" ; CST_LWP:units = "kg/m^2" ; CST_LWP:stagger = "" ; float CST_IWP(Time) ; CST_IWP:FieldType = 104 ; CST_IWP:MemoryOrder = "0 " ; CST_IWP:description = "Vertical integrated ice water path (based on qf)" ; CST_IWP:units = "kg/m^2" ; CST_IWP:stagger = "" ; float CST_PRECW(Time) ; CST_PRECW:FieldType = 104 ; CST_PRECW:MemoryOrder = "0 " ; CST_PRECW:description = "Vertical integrated water vapor" ; CST_PRECW:units = "kg/m^2" ; CST_PRECW:stagger = "" ; float CST_TKE(Time) ; CST_TKE:FieldType = 104 ; CST_TKE:MemoryOrder = "0 " ; CST_TKE:description = "Vertical integrated TKE" ; CST_TKE:units = "kg/s^2" ; CST_TKE:stagger = "" ; float CST_TSAIR(Time) ; CST_TSAIR:FieldType = 104 ; CST_TSAIR:MemoryOrder = "0 " ; CST_TSAIR:description = "Surface air temperature" ; CST_TSAIR:units = "K" ; CST_TSAIR:stagger = "" ; float CST_PS(Time) ; CST_PS:FieldType = 104 ; CST_PS:MemoryOrder = "0 " ; CST_PS:description = "Surface pressure" ; CST_PS:units = "Pa" ; CST_PS:stagger = "" ; float CST_SH(Time) ; CST_SH:FieldType = 104 ; CST_SH:MemoryOrder = "0 " ; CST_SH:units = "W/m^2" ; CST_SH:stagger = "" ; CST_SH:description = "Surface sensible heat flux" ; float CST_LH(Time) ; CST_LH:FieldType = 104 ; CST_LH:MemoryOrder = "0 " ; CST_LH:units = "W/m^2" ; CST_LH:stagger = "" ; CST_LH:description = "Surface latent heat flux" ; float CST_FSNTC(Time) ; CST_FSNTC:FieldType = 104 ; CST_FSNTC:MemoryOrder = "0 " ; CST_FSNTC:description = "TOA SW net upward clear-sky radiation" ; CST_FSNTC:units = "W/m^2" ; CST_FSNTC:stagger = "" ; float CST_FSNT(Time) ; CST_FSNT:FieldType = 104 ; CST_FSNT:MemoryOrder = "0 " ; CST_FSNT:description = "TOA SW net upward total-sky radiation" ; CST_FSNT:units = "W/m^2" ; CST_FSNT:stagger = "" ; float CST_FLNTC(Time) ; CST_FLNTC:FieldType = 104 ; CST_FLNTC:MemoryOrder = "0 " ; CST_FLNTC:description = "TOA LW (net) upward clear-sky radiation" ; CST_FLNTC:units = "W/m^2" ; CST_FLNTC:stagger = "" ; float CST_FLNT(Time) ; CST_FLNT:FieldType = 104 ; CST_FLNT:MemoryOrder = "0 " ; CST_FLNT:description = "TOA LW (net) upward total-sky radiation" ; CST_FLNT:units = "W/m^2" ; CST_FLNT:stagger = "" ; float CST_FSNSC(Time) ; CST_FSNSC:FieldType = 104 ; CST_FSNSC:MemoryOrder = "0 " ; CST_FSNSC:description = "Surface SW net upward clear-sky radiation" ; CST_FSNSC:units = "W/m^2" ; CST_FSNSC:stagger = "" ; float CST_FSNS(Time) ; CST_FSNS:FieldType = 104 ; CST_FSNS:MemoryOrder = "0 " ; CST_FSNS:description = "Surface SW net upward total-sky radiation" ; CST_FSNS:units = "W/m^2" ; CST_FSNS:stagger = "" ; float CST_FLNSC(Time) ; CST_FLNSC:FieldType = 104 ; CST_FLNSC:MemoryOrder = "0 " ; CST_FLNSC:description = "Surface LW net upward clear-sky radiation" ; CST_FLNSC:units = "W/m^2" ; CST_FLNSC:stagger = "" ; float CST_FLNS(Time) ; CST_FLNS:FieldType = 104 ; CST_FLNS:MemoryOrder = "0 " ; CST_FLNS:description = "Surface LW net upward total-sky radiation" ; CST_FLNS:units = "W/m^2" ; CST_FLNS:stagger = "" ; float CST_SWINC(Time) ; CST_SWINC:FieldType = 104 ; CST_SWINC:MemoryOrder = "0 " ; CST_SWINC:description = "TOA solar insolation" ; CST_SWINC:units = "W/m^2" ; CST_SWINC:stagger = "" ; float CST_TSK(Time) ; CST_TSK:FieldType = 104 ; CST_TSK:MemoryOrder = "0 " ; CST_TSK:description = "Surface skin temperature" ; CST_TSK:units = "K" ; CST_TSK:stagger = "" ; float CST_UST(Time) ; CST_UST:FieldType = 104 ; CST_UST:MemoryOrder = "0 " ; CST_UST:description = "Surface friction velocity" ; CST_UST:units = "m/s" ; CST_UST:stagger = "" ; float CSP_Z(Time, bottom_top) ; CSP_Z:FieldType = 104 ; CSP_Z:MemoryOrder = "Z " ; CSP_Z:description = "Half level height" ; CSP_Z:units = "m" ; CSP_Z:stagger = "" ; float CSP_Z8W(Time, bottom_top_stag) ; CSP_Z8W:FieldType = 104 ; CSP_Z8W:MemoryOrder = "Z " ; CSP_Z8W:description = "Full level height" ; CSP_Z8W:units = "m" ; CSP_Z8W:stagger = "Z" ; float CSP_DZ8W(Time, bottom_top) ; CSP_DZ8W:FieldType = 104 ; CSP_DZ8W:MemoryOrder = "Z " ; CSP_DZ8W:description = "dz at full level" ; CSP_DZ8W:units = "m" ; CSP_DZ8W:stagger = "" ; float CSP_U(Time, bottom_top) ; CSP_U:FieldType = 104 ; CSP_U:MemoryOrder = "Z " ; CSP_U:description = "Zonal wind" ; CSP_U:units = "m/s" ; CSP_U:stagger = "" ; float CSP_V(Time, bottom_top) ; CSP_V:FieldType = 104 ; CSP_V:MemoryOrder = "Z " ; CSP_V:description = "Meridional wind" ; CSP_V:units = "m/s" ; CSP_V:stagger = "" ; float CSP_W(Time, bottom_top_stag) ; CSP_W:FieldType = 104 ; CSP_W:MemoryOrder = "Z " ; CSP_W:description = "Vertical motion" ; CSP_W:units = "m/s" ; CSP_W:stagger = "Z" ; float CSP_P(Time, bottom_top) ; CSP_P:FieldType = 104 ; CSP_P:MemoryOrder = "Z " ; CSP_P:description = "Pressure" ; CSP_P:units = "Pa" ; CSP_P:stagger = "" ; float CSP_TH(Time, bottom_top) ; CSP_TH:FieldType = 104 ; CSP_TH:MemoryOrder = "Z " ; CSP_TH:description = "Potential temperature" ; CSP_TH:units = "K" ; CSP_TH:stagger = "" ; float CSP_THV(Time, bottom_top) ; CSP_THV:FieldType = 104 ; CSP_THV:MemoryOrder = "Z " ; CSP_THV:description = "Virtual potential temperature" ; CSP_THV:units = "K" ; CSP_THV:stagger = "" ; float CSP_THL(Time, bottom_top) ; CSP_THL:FieldType = 104 ; CSP_THL:MemoryOrder = "Z " ; CSP_THL:description = "Liquid water potential temperature" ; CSP_THL:units = "K" ; CSP_THL:stagger = "" ; float CSP_QV(Time, bottom_top) ; CSP_QV:FieldType = 104 ; CSP_QV:MemoryOrder = "Z " ; CSP_QV:description = "Water vapor mixing ratio" ; CSP_QV:units = "kg/kg" ; CSP_QV:stagger = "" ; float CSP_QC(Time, bottom_top) ; CSP_QC:FieldType = 104 ; CSP_QC:MemoryOrder = "Z " ; CSP_QC:description = "Cloud water mixing ratio" ; CSP_QC:units = "kg/kg" ; CSP_QC:stagger = "" ; float CSP_QI(Time, bottom_top) ; CSP_QI:FieldType = 104 ; CSP_QI:MemoryOrder = "Z " ; CSP_QI:description = "Ice crystal (cloud ice) mixing ratio" ; CSP_QI:units = "kg/kg" ; CSP_QI:stagger = "" ; float CSP_QL(Time, bottom_top) ; CSP_QL:FieldType = 104 ; CSP_QL:MemoryOrder = "Z " ; CSP_QL:description = "Liquid water mixing ratio" ; CSP_QL:units = "kg/kg" ; CSP_QL:stagger = "" ; float CSP_QF(Time, bottom_top) ; CSP_QF:FieldType = 104 ; CSP_QF:MemoryOrder = "Z " ; CSP_QF:description = "Frozen water mixing ratio" ; CSP_QF:units = "kg/kg" ; CSP_QF:stagger = "" ; float CSP_QT(Time, bottom_top) ; CSP_QT:FieldType = 104 ; CSP_QT:MemoryOrder = "Z " ; CSP_QT:description = "Total (vapor+liquid+frozen) water mixing ratio" ; CSP_QT:units = "kg/kg" ; CSP_QT:stagger = "" ; float CSP_LWC(Time, bottom_top) ; CSP_LWC:FieldType = 104 ; CSP_LWC:MemoryOrder = "Z " ; CSP_LWC:description = "Liquid water content (based on ql)" ; CSP_LWC:units = "kg/m^3" ; CSP_LWC:stagger = "" ; float CSP_IWC(Time, bottom_top) ; CSP_IWC:FieldType = 104 ; CSP_IWC:MemoryOrder = "Z " ; CSP_IWC:description = "Ice water content (based on qf)" ; CSP_IWC:units = "kg/m^3" ; CSP_IWC:stagger = "" ; float CSP_SPEQV(Time, bottom_top) ; CSP_SPEQV:FieldType = 104 ; CSP_SPEQV:MemoryOrder = "Z " ; CSP_SPEQV:description = "Specific humidity" ; CSP_SPEQV:units = "kg/kg" ; CSP_SPEQV:stagger = "" ; float CSP_A_CL(Time, bottom_top) ; CSP_A_CL:FieldType = 104 ; CSP_A_CL:MemoryOrder = "Z " ; CSP_A_CL:description = "Fraction of cloudy grid points" ; CSP_A_CL:units = "(0-1)" ; CSP_A_CL:stagger = "" ; float CSP_RHO(Time, bottom_top) ; CSP_RHO:FieldType = 104 ; CSP_RHO:MemoryOrder = "Z " ; CSP_RHO:description = "Density" ; CSP_RHO:units = "kg/m^3" ; CSP_RHO:stagger = "" ; float CSP_U2(Time, bottom_top) ; CSP_U2:FieldType = 104 ; CSP_U2:MemoryOrder = "Z " ; CSP_U2:description = "u_p^2" ; CSP_U2:units = "m^2/s^2" ; CSP_U2:stagger = "" ; float CSP_V2(Time, bottom_top) ; CSP_V2:FieldType = 104 ; CSP_V2:MemoryOrder = "Z " ; CSP_V2:description = "v_p^2" ; CSP_V2:units = "m^2/s^2" ; CSP_V2:stagger = "" ; float CSP_U2V2(Time, bottom_top) ; CSP_U2V2:FieldType = 104 ; CSP_U2V2:MemoryOrder = "Z " ; CSP_U2V2:description = "u_p^2+v_p^2" ; CSP_U2V2:units = "m^2/s^2" ; CSP_U2V2:stagger = "" ; float CSP_W2(Time, bottom_top_stag) ; CSP_W2:FieldType = 104 ; CSP_W2:MemoryOrder = "Z " ; CSP_W2:description = "w_p^2" ; CSP_W2:units = "m^2/s^2" ; CSP_W2:stagger = "Z" ; float CSP_W3(Time, bottom_top_stag) ; CSP_W3:FieldType = 104 ; CSP_W3:MemoryOrder = "Z " ; CSP_W3:description = "w_p^3" ; CSP_W3:units = "m^3/s^3" ; CSP_W3:stagger = "Z" ; float CSP_WSKEW(Time, bottom_top_stag) ; CSP_WSKEW:FieldType = 104 ; CSP_WSKEW:MemoryOrder = "Z " ; CSP_WSKEW:description = "Skewness /^(3/2)" ; CSP_WSKEW:units = "" ; CSP_WSKEW:stagger = "Z" ; float CSP_UW(Time, bottom_top) ; CSP_UW:FieldType = 104 ; CSP_UW:MemoryOrder = "Z " ; CSP_UW:description = "x-momentum flux uw (rs+sgs)" ; CSP_UW:units = "m^2/s^2" ; CSP_UW:stagger = "" ; float CSP_VW(Time, bottom_top) ; CSP_VW:FieldType = 104 ; CSP_VW:MemoryOrder = "Z " ; CSP_VW:description = "y-momentum flux vw (rs+sgs)" ; CSP_VW:units = "m^2/s^2" ; CSP_VW:stagger = "" ; float CSP_WTH(Time, bottom_top) ; CSP_WTH:FieldType = 104 ; CSP_WTH:MemoryOrder = "Z " ; CSP_WTH:description = "Potential temperature flux (rs+sgs)" ; CSP_WTH:units = "K m/s" ; CSP_WTH:stagger = "" ; float CSP_WTHV(Time, bottom_top) ; CSP_WTHV:FieldType = 104 ; CSP_WTHV:MemoryOrder = "Z " ; CSP_WTHV:description = "Virtual potential temperature flux (rs+sgs)" ; CSP_WTHV:units = "K m/s" ; CSP_WTHV:stagger = "" ; float CSP_WTHL(Time, bottom_top) ; CSP_WTHL:FieldType = 104 ; CSP_WTHL:MemoryOrder = "Z " ; CSP_WTHL:description = "Liquid water potential temperature flux (rs+sgs)" ; CSP_WTHL:units = "K m/s" ; CSP_WTHL:stagger = "" ; float CSP_WQV(Time, bottom_top) ; CSP_WQV:FieldType = 104 ; CSP_WQV:MemoryOrder = "Z " ; CSP_WQV:description = "Water vapor flux (rs+sgs)" ; CSP_WQV:units = "kg/kg m/s" ; CSP_WQV:stagger = "" ; float CSP_WQC(Time, bottom_top) ; CSP_WQC:FieldType = 104 ; CSP_WQC:MemoryOrder = "Z " ; CSP_WQC:description = "Cloud water flux (rs+sgs)" ; CSP_WQC:units = "kg/kg m/s" ; CSP_WQC:stagger = "" ; float CSP_WQI(Time, bottom_top) ; CSP_WQI:FieldType = 104 ; CSP_WQI:MemoryOrder = "Z " ; CSP_WQI:description = "Ice crystal (cloud ice) flux (rs+sgs)" ; CSP_WQI:units = "kg/kg m/s" ; CSP_WQI:stagger = "" ; float CSP_WQL(Time, bottom_top) ; CSP_WQL:FieldType = 104 ; CSP_WQL:MemoryOrder = "Z " ; CSP_WQL:description = "Liquid water flux (rs+sgs)" ; CSP_WQL:units = "kg/kg m/s" ; CSP_WQL:stagger = "" ; float CSP_WQF(Time, bottom_top) ; CSP_WQF:FieldType = 104 ; CSP_WQF:MemoryOrder = "Z " ; CSP_WQF:description = "Frozen water flux (rs+sgs)" ; CSP_WQF:units = "kg/kg m/s" ; CSP_WQF:stagger = "" ; float CSP_WQT(Time, bottom_top) ; CSP_WQT:FieldType = 104 ; CSP_WQT:MemoryOrder = "Z " ; CSP_WQT:description = "Total water flux (rs+sgs)" ; CSP_WQT:units = "kg/kg m/s" ; CSP_WQT:stagger = "" ; float CSP_UW_SGS(Time, bottom_top) ; CSP_UW_SGS:FieldType = 104 ; CSP_UW_SGS:MemoryOrder = "Z " ; CSP_UW_SGS:description = "x-momentum flux uw (sgs)" ; CSP_UW_SGS:units = "m^2/s^2" ; CSP_UW_SGS:stagger = "" ; float CSP_VW_SGS(Time, bottom_top) ; CSP_VW_SGS:FieldType = 104 ; CSP_VW_SGS:MemoryOrder = "Z " ; CSP_VW_SGS:description = "y-momentum flux vw (sgs)" ; CSP_VW_SGS:units = "m^2/s^2" ; CSP_VW_SGS:stagger = "" ; float CSP_WTH_SGS(Time, bottom_top) ; CSP_WTH_SGS:FieldType = 104 ; CSP_WTH_SGS:MemoryOrder = "Z " ; CSP_WTH_SGS:description = "Potential temperature flux (sgs)" ; CSP_WTH_SGS:units = "K m/s" ; CSP_WTH_SGS:stagger = "" ; float CSP_WTHV_SGS(Time, bottom_top) ; CSP_WTHV_SGS:FieldType = 104 ; CSP_WTHV_SGS:MemoryOrder = "Z " ; CSP_WTHV_SGS:description = "Virtual potential temperature flux (sgs)" ; CSP_WTHV_SGS:units = "K m/s" ; CSP_WTHV_SGS:stagger = "" ; float CSP_WTHL_SGS(Time, bottom_top) ; CSP_WTHL_SGS:FieldType = 104 ; CSP_WTHL_SGS:MemoryOrder = "Z " ; CSP_WTHL_SGS:description = "Liquid water potential temperature flux (sgs)" ; CSP_WTHL_SGS:units = "K m/s" ; CSP_WTHL_SGS:stagger = "" ; float CSP_WQV_SGS(Time, bottom_top) ; CSP_WQV_SGS:FieldType = 104 ; CSP_WQV_SGS:MemoryOrder = "Z " ; CSP_WQV_SGS:description = "Water vapor flux (sgs)" ; CSP_WQV_SGS:units = "kg/kg m/s" ; CSP_WQV_SGS:stagger = "" ; float CSP_WQC_SGS(Time, bottom_top) ; CSP_WQC_SGS:FieldType = 104 ; CSP_WQC_SGS:MemoryOrder = "Z " ; CSP_WQC_SGS:description = "Cloud water flux (sgs)" ; CSP_WQC_SGS:units = "kg/kg m/s" ; CSP_WQC_SGS:stagger = "" ; float CSP_WQI_SGS(Time, bottom_top) ; CSP_WQI_SGS:FieldType = 104 ; CSP_WQI_SGS:MemoryOrder = "Z " ; CSP_WQI_SGS:description = "Ice crystal (cloud ice) flux (sgs)" ; CSP_WQI_SGS:units = "kg/kg m/s" ; CSP_WQI_SGS:stagger = "" ; float CSP_WQL_SGS(Time, bottom_top) ; CSP_WQL_SGS:FieldType = 104 ; CSP_WQL_SGS:MemoryOrder = "Z " ; CSP_WQL_SGS:description = "Liquid water flux (sgs)" ; CSP_WQL_SGS:units = "kg/kg m/s" ; CSP_WQL_SGS:stagger = "" ; float CSP_WQF_SGS(Time, bottom_top) ; CSP_WQF_SGS:FieldType = 104 ; CSP_WQF_SGS:MemoryOrder = "Z " ; CSP_WQF_SGS:description = "Frozen water flux (sgs)" ; CSP_WQF_SGS:units = "kg/kg m/s" ; CSP_WQF_SGS:stagger = "" ; float CSP_WQT_SGS(Time, bottom_top) ; CSP_WQT_SGS:FieldType = 104 ; CSP_WQT_SGS:MemoryOrder = "Z " ; CSP_WQT_SGS:description = "Total water flux (sgs)" ; CSP_WQT_SGS:units = "kg/kg m/s" ; CSP_WQT_SGS:stagger = "" ; float CSP_SEDFQC(Time, bottom_top) ; CSP_SEDFQC:FieldType = 104 ; CSP_SEDFQC:MemoryOrder = "Z " ; CSP_SEDFQC:description = "Sedimentation flux of qc" ; CSP_SEDFQC:units = "kg /m^2/s" ; CSP_SEDFQC:stagger = "" ; float CSP_SEDFQR(Time, bottom_top) ; CSP_SEDFQR:FieldType = 104 ; CSP_SEDFQR:MemoryOrder = "Z " ; CSP_SEDFQR:description = "Sedimentation (Precipitation) flux of qr" ; CSP_SEDFQR:units = "kg /m^2/s" ; CSP_SEDFQR:stagger = "" ; float CSP_THDT_COND(Time, bottom_top) ; CSP_THDT_COND:FieldType = 104 ; CSP_THDT_COND:MemoryOrder = "Z " ; CSP_THDT_COND:description = "dth/dt due to net condensation" ; CSP_THDT_COND:units = "K/s" ; CSP_THDT_COND:stagger = "" ; float CSP_THDT_LW(Time, bottom_top) ; CSP_THDT_LW:FieldType = 104 ; CSP_THDT_LW:MemoryOrder = "Z " ; CSP_THDT_LW:description = "dth/dt due to LW radiation" ; CSP_THDT_LW:units = "K/s" ; CSP_THDT_LW:stagger = "" ; float CSP_THDT_SW(Time, bottom_top) ; CSP_THDT_SW:FieldType = 104 ; CSP_THDT_SW:MemoryOrder = "Z " ; CSP_THDT_SW:description = "dth/dt due to SW radiation" ; CSP_THDT_SW:units = "K/s" ; CSP_THDT_SW:stagger = "" ; float CSP_THDT_LS(Time, bottom_top) ; CSP_THDT_LS:FieldType = 104 ; CSP_THDT_LS:MemoryOrder = "Z " ; CSP_THDT_LS:description = "dth/dt due to large-scale forcing" ; CSP_THDT_LS:units = "K/s" ; CSP_THDT_LS:stagger = "" ; float CSP_QVDT_PR(Time, bottom_top) ; CSP_QVDT_PR:FieldType = 104 ; CSP_QVDT_PR:MemoryOrder = "Z " ; CSP_QVDT_PR:description = "dqv/dt due to conversion to precipitation" ; CSP_QVDT_PR:units = "kg/kg/s" ; CSP_QVDT_PR:stagger = "" ; float CSP_QVDT_COND(Time, bottom_top) ; CSP_QVDT_COND:FieldType = 104 ; CSP_QVDT_COND:MemoryOrder = "Z " ; CSP_QVDT_COND:description = "dqv/dt due to net condensation" ; CSP_QVDT_COND:units = "kg/kg/s" ; CSP_QVDT_COND:stagger = "" ; float CSP_QVDT_LS(Time, bottom_top) ; CSP_QVDT_LS:FieldType = 104 ; CSP_QVDT_LS:MemoryOrder = "Z " ; CSP_QVDT_LS:description = "dqv/dt due to large-scale forcing" ; CSP_QVDT_LS:units = "kg/kg/s" ; CSP_QVDT_LS:stagger = "" ; float CSP_QCDT_PR(Time, bottom_top) ; CSP_QCDT_PR:FieldType = 104 ; CSP_QCDT_PR:MemoryOrder = "Z " ; CSP_QCDT_PR:description = "dqc/dt due to conversion to precipitation" ; CSP_QCDT_PR:units = "kg/kg/s" ; CSP_QCDT_PR:stagger = "" ; float CSP_QCDT_SED(Time, bottom_top) ; CSP_QCDT_SED:FieldType = 104 ; CSP_QCDT_SED:MemoryOrder = "Z " ; CSP_QCDT_SED:description = "dqc/dt due to sedimentation" ; CSP_QCDT_SED:units = "kg/kg/s" ; CSP_QCDT_SED:stagger = "" ; float CSP_QRDT_SED(Time, bottom_top) ; CSP_QRDT_SED:FieldType = 104 ; CSP_QRDT_SED:MemoryOrder = "Z " ; CSP_QRDT_SED:description = "dqr/dt due to sedimentation" ; CSP_QRDT_SED:units = "kg/kg/s" ; CSP_QRDT_SED:stagger = "" ; float CSP_THDT_LSHOR(Time, bottom_top) ; CSP_THDT_LSHOR:FieldType = 104 ; CSP_THDT_LSHOR:MemoryOrder = "Z " ; CSP_THDT_LSHOR:description = "th tendency due to LS horizontal adv" ; CSP_THDT_LSHOR:units = "K s-1" ; CSP_THDT_LSHOR:stagger = "" ; float CSP_QVDT_LSHOR(Time, bottom_top) ; CSP_QVDT_LSHOR:FieldType = 104 ; CSP_QVDT_LSHOR:MemoryOrder = "Z " ; CSP_QVDT_LSHOR:description = "qv tendency due to LS horizontal adv" ; CSP_QVDT_LSHOR:units = "kg kg-1 s-1" ; CSP_QVDT_LSHOR:stagger = "" ; float CSP_THDT_LSVER(Time, bottom_top) ; CSP_THDT_LSVER:FieldType = 104 ; CSP_THDT_LSVER:MemoryOrder = "Z " ; CSP_THDT_LSVER:description = "th tendency due to LS horizontal adv" ; CSP_THDT_LSVER:units = "K s-1" ; CSP_THDT_LSVER:stagger = "" ; float CSP_QVDT_LSVER(Time, bottom_top) ; CSP_QVDT_LSVER:FieldType = 104 ; CSP_QVDT_LSVER:MemoryOrder = "Z " ; CSP_QVDT_LSVER:description = "qv tendency due to LS horizontal adv" ; CSP_QVDT_LSVER:units = "kg kg-1 s-1" ; CSP_QVDT_LSVER:stagger = "" ; float CSP_THDT_LSRLX(Time, bottom_top) ; CSP_THDT_LSRLX:FieldType = 104 ; CSP_THDT_LSRLX:MemoryOrder = "Z " ; CSP_THDT_LSRLX:description = "th tendency due to relaxation to LS" ; CSP_THDT_LSRLX:units = "K s-1" ; CSP_THDT_LSRLX:stagger = "" ; float CSP_QVDT_LSRLX(Time, bottom_top) ; CSP_QVDT_LSRLX:FieldType = 104 ; CSP_QVDT_LSRLX:MemoryOrder = "Z " ; CSP_QVDT_LSRLX:description = "qv tendency due to relaxation to LS" ; CSP_QVDT_LSRLX:units = "kg kg-1 s-1" ; CSP_QVDT_LSRLX:stagger = "" ; float CSP_UDT_LS(Time, bottom_top) ; CSP_UDT_LS:FieldType = 104 ; CSP_UDT_LS:MemoryOrder = "Z " ; CSP_UDT_LS:description = "u tendency due to LS forcing" ; CSP_UDT_LS:units = "m s-2" ; CSP_UDT_LS:stagger = "" ; float CSP_VDT_LS(Time, bottom_top) ; CSP_VDT_LS:FieldType = 104 ; CSP_VDT_LS:MemoryOrder = "Z " ; CSP_VDT_LS:description = "v tendency due to LS forcing" ; CSP_VDT_LS:units = "m s-2" ; CSP_VDT_LS:stagger = "" ; float CSP_UDT_LSVER(Time, bottom_top) ; CSP_UDT_LSVER:FieldType = 104 ; CSP_UDT_LSVER:MemoryOrder = "Z " ; CSP_UDT_LSVER:description = "u tendency due to LS vertical adv" ; CSP_UDT_LSVER:units = "m s-2" ; CSP_UDT_LSVER:stagger = "" ; float CSP_VDT_LSVER(Time, bottom_top) ; CSP_VDT_LSVER:FieldType = 104 ; CSP_VDT_LSVER:MemoryOrder = "Z " ; CSP_VDT_LSVER:description = "v tendency due to LS vertical adv" ; CSP_VDT_LSVER:units = "m s-2" ; CSP_VDT_LSVER:stagger = "" ; float CSP_UDT_LSRLX(Time, bottom_top) ; CSP_UDT_LSRLX:FieldType = 104 ; CSP_UDT_LSRLX:MemoryOrder = "Z " ; CSP_UDT_LSRLX:description = "u tendency due to relaxation to LS" ; CSP_UDT_LSRLX:units = "m s-2" ; CSP_UDT_LSRLX:stagger = "" ; float CSP_VDT_LSRLX(Time, bottom_top) ; CSP_VDT_LSRLX:FieldType = 104 ; CSP_VDT_LSRLX:MemoryOrder = "Z " ; CSP_VDT_LSRLX:description = "v tendency due to relaxation to LS" ; CSP_VDT_LSRLX:units = "m s-2" ; CSP_VDT_LSRLX:stagger = "" ; float CSP_SWUPF(Time, bottom_top) ; CSP_SWUPF:FieldType = 104 ; CSP_SWUPF:MemoryOrder = "Z " ; CSP_SWUPF:description = "SW flux upward" ; CSP_SWUPF:units = "W/m^2" ; CSP_SWUPF:stagger = "" ; float CSP_SWDNF(Time, bottom_top) ; CSP_SWDNF:FieldType = 104 ; CSP_SWDNF:MemoryOrder = "Z " ; CSP_SWDNF:description = "SW flux downward" ; CSP_SWDNF:units = "W/m^2" ; CSP_SWDNF:stagger = "" ; float CSP_LWUPF(Time, bottom_top) ; CSP_LWUPF:FieldType = 104 ; CSP_LWUPF:MemoryOrder = "Z " ; CSP_LWUPF:description = "LW flux upward" ; CSP_LWUPF:units = "W/m^2" ; CSP_LWUPF:stagger = "" ; float CSP_LWDNF(Time, bottom_top) ; CSP_LWDNF:FieldType = 104 ; CSP_LWDNF:MemoryOrder = "Z " ; CSP_LWDNF:description = "LW flux downward" ; CSP_LWDNF:units = "W/m^2" ; CSP_LWDNF:stagger = "" ; float CSP_TKE_RS(Time, bottom_top) ; CSP_TKE_RS:FieldType = 104 ; CSP_TKE_RS:MemoryOrder = "Z " ; CSP_TKE_RS:description = "RS TKE" ; CSP_TKE_RS:units = "m^2/s^2" ; CSP_TKE_RS:stagger = "" ; float CSP_TKE_SH(Time, bottom_top) ; CSP_TKE_SH:FieldType = 104 ; CSP_TKE_SH:MemoryOrder = "Z " ; CSP_TKE_SH:description = "RS TKE shear production" ; CSP_TKE_SH:units = "m^2/s^3" ; CSP_TKE_SH:stagger = "" ; float CSP_TKE_BU(Time, bottom_top) ; CSP_TKE_BU:FieldType = 104 ; CSP_TKE_BU:MemoryOrder = "Z " ; CSP_TKE_BU:description = "RS TKE buoyancy production" ; CSP_TKE_BU:units = "m^2/s^3" ; CSP_TKE_BU:stagger = "" ; float CSP_TKE_TR(Time, bottom_top) ; CSP_TKE_TR:FieldType = 104 ; CSP_TKE_TR:MemoryOrder = "Z " ; CSP_TKE_TR:description = "RS TKE turbulent + pressure transport" ; CSP_TKE_TR:units = "m^2/s^3" ; CSP_TKE_TR:stagger = "" ; float CSP_TKE_DI(Time, bottom_top) ; CSP_TKE_DI:FieldType = 104 ; CSP_TKE_DI:MemoryOrder = "Z " ; CSP_TKE_DI:description = "TKE dissipation" ; CSP_TKE_DI:units = "m^2/s^3" ; CSP_TKE_DI:stagger = "" ; float CSP_TKE_SGS(Time, bottom_top) ; CSP_TKE_SGS:FieldType = 104 ; CSP_TKE_SGS:MemoryOrder = "Z " ; CSP_TKE_SGS:description = "SGS TKE" ; CSP_TKE_SGS:units = "m^2/s^2" ; CSP_TKE_SGS:stagger = "" ; float CSP_W_C(Time, bottom_top) ; CSP_W_C:FieldType = 104 ; CSP_W_C:MemoryOrder = "Z " ; CSP_W_C:description = "Average over all cloudy grid points of w" ; CSP_W_C:units = "m/s" ; CSP_W_C:stagger = "" ; float CSP_THL_C(Time, bottom_top) ; CSP_THL_C:FieldType = 104 ; CSP_THL_C:MemoryOrder = "Z " ; CSP_THL_C:description = "Average over all cloudy grid points of thl" ; CSP_THL_C:units = "K" ; CSP_THL_C:stagger = "" ; float CSP_QT_C(Time, bottom_top) ; CSP_QT_C:FieldType = 104 ; CSP_QT_C:MemoryOrder = "Z " ; CSP_QT_C:description = "Average over all cloudy grid points of qt" ; CSP_QT_C:units = "kg/kg" ; CSP_QT_C:stagger = "" ; float CSP_QV_C(Time, bottom_top) ; CSP_QV_C:FieldType = 104 ; CSP_QV_C:MemoryOrder = "Z " ; CSP_QV_C:description = "Average over all cloudy grid points of qv" ; CSP_QV_C:units = "kg/kg" ; CSP_QV_C:stagger = "" ; float CSP_QL_C(Time, bottom_top) ; CSP_QL_C:FieldType = 104 ; CSP_QL_C:MemoryOrder = "Z " ; CSP_QL_C:description = "Average over all cloudy grid points of ql" ; CSP_QL_C:units = "kg/kg" ; CSP_QL_C:stagger = "" ; float CSP_QF_C(Time, bottom_top) ; CSP_QF_C:FieldType = 104 ; CSP_QF_C:MemoryOrder = "Z " ; CSP_QF_C:description = "Average over all cloudy grid points of qf" ; CSP_QF_C:units = "kg/kg" ; CSP_QF_C:stagger = "" ; float CSP_QC_C(Time, bottom_top) ; CSP_QC_C:FieldType = 104 ; CSP_QC_C:MemoryOrder = "Z " ; CSP_QC_C:description = "Average over all cloudy grid points of qc" ; CSP_QC_C:units = "kg/kg" ; CSP_QC_C:stagger = "" ; float CSP_QI_C(Time, bottom_top) ; CSP_QI_C:FieldType = 104 ; CSP_QI_C:MemoryOrder = "Z " ; CSP_QI_C:description = "Average over all cloudy grid points of qi" ; CSP_QI_C:units = "kg/kg" ; CSP_QI_C:stagger = "" ; float CSP_QNC_C(Time, bottom_top) ; CSP_QNC_C:FieldType = 104 ; CSP_QNC_C:MemoryOrder = "Z " ; CSP_QNC_C:description = "Average over all cloudy grid points of qnc" ; CSP_QNC_C:units = "cm-3" ; CSP_QNC_C:stagger = "" ; float CSP_THV_C(Time, bottom_top) ; CSP_THV_C:FieldType = 104 ; CSP_THV_C:MemoryOrder = "Z " ; CSP_THV_C:description = "Average over all cloudy grid points of thv" ; CSP_THV_C:units = "K" ; CSP_THV_C:stagger = "" ; float CSP_W2_C(Time, bottom_top) ; CSP_W2_C:FieldType = 104 ; CSP_W2_C:MemoryOrder = "Z " ; CSP_W2_C:description = "Average over all cloudy grid points of w variance" ; CSP_W2_C:units = "(m/s)^2" ; CSP_W2_C:stagger = "" ; float CSP_AW_C(Time, bottom_top) ; CSP_AW_C:FieldType = 104 ; CSP_AW_C:MemoryOrder = "Z " ; CSP_AW_C:description = "Cloud fraction * average over all cloudy grid points of w" ; CSP_AW_C:units = "m/s" ; CSP_AW_C:stagger = "" ; float CSP_AWTHL_C(Time, bottom_top) ; CSP_AWTHL_C:FieldType = 104 ; CSP_AWTHL_C:MemoryOrder = "Z " ; CSP_AWTHL_C:description = "Cloud fraction * average over all cloudy grid points of wthl" ; CSP_AWTHL_C:units = "K m/s" ; CSP_AWTHL_C:stagger = "" ; float CSP_AWQT_C(Time, bottom_top) ; CSP_AWQT_C:FieldType = 104 ; CSP_AWQT_C:MemoryOrder = "Z " ; CSP_AWQT_C:description = "Cloud fraction * average over all cloudy grid points of wqt" ; CSP_AWQT_C:units = "kg/kg m/s" ; CSP_AWQT_C:stagger = "" ; float CSP_AWQV_C(Time, bottom_top) ; CSP_AWQV_C:FieldType = 104 ; CSP_AWQV_C:MemoryOrder = "Z " ; CSP_AWQV_C:description = "Cloud fraction * average over all cloudy grid points of wqv" ; CSP_AWQV_C:units = "kg/kg m/s" ; CSP_AWQV_C:stagger = "" ; float CSP_AWQL_C(Time, bottom_top) ; CSP_AWQL_C:FieldType = 104 ; CSP_AWQL_C:MemoryOrder = "Z " ; CSP_AWQL_C:description = "Cloud fraction * average over all cloudy grid points of wql" ; CSP_AWQL_C:units = "kg/kg m/s" ; CSP_AWQL_C:stagger = "" ; float CSP_AWQF_C(Time, bottom_top) ; CSP_AWQF_C:FieldType = 104 ; CSP_AWQF_C:MemoryOrder = "Z " ; CSP_AWQF_C:description = "Cloud fraction * average over all cloudy grid points of wqf" ; CSP_AWQF_C:units = "kg/kg m/s" ; CSP_AWQF_C:stagger = "" ; float CSP_AWQC_C(Time, bottom_top) ; CSP_AWQC_C:FieldType = 104 ; CSP_AWQC_C:MemoryOrder = "Z " ; CSP_AWQC_C:description = "Cloud fraction * average over all cloudy grid points of wqc" ; CSP_AWQC_C:units = "kg/kg m/s" ; CSP_AWQC_C:stagger = "" ; float CSP_AWQI_C(Time, bottom_top) ; CSP_AWQI_C:FieldType = 104 ; CSP_AWQI_C:MemoryOrder = "Z " ; CSP_AWQI_C:description = "Cloud fraction * average over all cloudy grid points of wqi" ; CSP_AWQI_C:units = "kg/kg m/s" ; CSP_AWQI_C:stagger = "" ; float CSP_AWTHV_C(Time, bottom_top) ; CSP_AWTHV_C:FieldType = 104 ; CSP_AWTHV_C:MemoryOrder = "Z " ; CSP_AWTHV_C:description = "Cloud fraction * average over all cloudy grid points of wthv" ; CSP_AWTHV_C:units = "K m/s" ; CSP_AWTHV_C:stagger = "" ; float CSP_A_CC(Time, bottom_top) ; CSP_A_CC:FieldType = 104 ; CSP_A_CC:MemoryOrder = "Z " ; CSP_A_CC:description = "Fraction of cloudcore grid points" ; CSP_A_CC:units = "(0-1)" ; CSP_A_CC:stagger = "" ; float CSP_W_CC(Time, bottom_top) ; CSP_W_CC:FieldType = 104 ; CSP_W_CC:MemoryOrder = "Z " ; CSP_W_CC:description = "Average over all cloudcore grid points of w" ; CSP_W_CC:units = "m/s" ; CSP_W_CC:stagger = "" ; float CSP_THL_CC(Time, bottom_top) ; CSP_THL_CC:FieldType = 104 ; CSP_THL_CC:MemoryOrder = "Z " ; CSP_THL_CC:description = "Average over all cloudcore grid points of thl" ; CSP_THL_CC:units = "K" ; CSP_THL_CC:stagger = "" ; float CSP_QT_CC(Time, bottom_top) ; CSP_QT_CC:FieldType = 104 ; CSP_QT_CC:MemoryOrder = "Z " ; CSP_QT_CC:description = "Average over all cloudcore grid points of qt" ; CSP_QT_CC:units = "kg/kg" ; CSP_QT_CC:stagger = "" ; float CSP_QV_CC(Time, bottom_top) ; CSP_QV_CC:FieldType = 104 ; CSP_QV_CC:MemoryOrder = "Z " ; CSP_QV_CC:description = "Average over all cloudcore grid points of qv" ; CSP_QV_CC:units = "kg/kg" ; CSP_QV_CC:stagger = "" ; float CSP_QL_CC(Time, bottom_top) ; CSP_QL_CC:FieldType = 104 ; CSP_QL_CC:MemoryOrder = "Z " ; CSP_QL_CC:description = "Average over all cloudcore grid points of ql" ; CSP_QL_CC:units = "kg/kg" ; CSP_QL_CC:stagger = "" ; float CSP_QF_CC(Time, bottom_top) ; CSP_QF_CC:FieldType = 104 ; CSP_QF_CC:MemoryOrder = "Z " ; CSP_QF_CC:description = "Average over all cloudcore grid points of qf" ; CSP_QF_CC:units = "kg/kg" ; CSP_QF_CC:stagger = "" ; float CSP_QC_CC(Time, bottom_top) ; CSP_QC_CC:FieldType = 104 ; CSP_QC_CC:MemoryOrder = "Z " ; CSP_QC_CC:description = "Average over all cloudcore grid points of qc" ; CSP_QC_CC:units = "kg/kg" ; CSP_QC_CC:stagger = "" ; float CSP_QI_CC(Time, bottom_top) ; CSP_QI_CC:FieldType = 104 ; CSP_QI_CC:MemoryOrder = "Z " ; CSP_QI_CC:description = "Average over all cloudcore grid points of qi" ; CSP_QI_CC:units = "kg/kg" ; CSP_QI_CC:stagger = "" ; float CSP_THV_CC(Time, bottom_top) ; CSP_THV_CC:FieldType = 104 ; CSP_THV_CC:MemoryOrder = "Z " ; CSP_THV_CC:description = "Average over all cloudcore grid points of thv" ; CSP_THV_CC:units = "K" ; CSP_THV_CC:stagger = "" ; float CSP_W2_CC(Time, bottom_top) ; CSP_W2_CC:FieldType = 104 ; CSP_W2_CC:MemoryOrder = "Z " ; CSP_W2_CC:description = "Average over all cloudcore grid points of w variance" ; CSP_W2_CC:units = "(m/s)^2" ; CSP_W2_CC:stagger = "" ; float CSP_AW_CC(Time, bottom_top) ; CSP_AW_CC:FieldType = 104 ; CSP_AW_CC:MemoryOrder = "Z " ; CSP_AW_CC:description = "Cloudcore fraction * average over all cloudcore grid points of w" ; CSP_AW_CC:units = "m/s" ; CSP_AW_CC:stagger = "" ; float CSP_AWTHL_CC(Time, bottom_top) ; CSP_AWTHL_CC:FieldType = 104 ; CSP_AWTHL_CC:MemoryOrder = "Z " ; CSP_AWTHL_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wthl" ; CSP_AWTHL_CC:units = "K m/s" ; CSP_AWTHL_CC:stagger = "" ; float CSP_AWQT_CC(Time, bottom_top) ; CSP_AWQT_CC:FieldType = 104 ; CSP_AWQT_CC:MemoryOrder = "Z " ; CSP_AWQT_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wqt" ; CSP_AWQT_CC:units = "kg/kg m/s" ; CSP_AWQT_CC:stagger = "" ; float CSP_AWQV_CC(Time, bottom_top) ; CSP_AWQV_CC:FieldType = 104 ; CSP_AWQV_CC:MemoryOrder = "Z " ; CSP_AWQV_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wqv" ; CSP_AWQV_CC:units = "kg/kg m/s" ; CSP_AWQV_CC:stagger = "" ; float CSP_AWQL_CC(Time, bottom_top) ; CSP_AWQL_CC:FieldType = 104 ; CSP_AWQL_CC:MemoryOrder = "Z " ; CSP_AWQL_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wql" ; CSP_AWQL_CC:units = "kg/kg m/s" ; CSP_AWQL_CC:stagger = "" ; float CSP_AWQF_CC(Time, bottom_top) ; CSP_AWQF_CC:FieldType = 104 ; CSP_AWQF_CC:MemoryOrder = "Z " ; CSP_AWQF_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wqf" ; CSP_AWQF_CC:units = "kg/kg m/s" ; CSP_AWQF_CC:stagger = "" ; float CSP_AWQC_CC(Time, bottom_top) ; CSP_AWQC_CC:FieldType = 104 ; CSP_AWQC_CC:MemoryOrder = "Z " ; CSP_AWQC_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wqc" ; CSP_AWQC_CC:units = "kg/kg m/s" ; CSP_AWQC_CC:stagger = "" ; float CSP_AWQI_CC(Time, bottom_top) ; CSP_AWQI_CC:FieldType = 104 ; CSP_AWQI_CC:MemoryOrder = "Z " ; CSP_AWQI_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wqi" ; CSP_AWQI_CC:units = "kg/kg m/s" ; CSP_AWQI_CC:stagger = "" ; float CSP_AWTHV_CC(Time, bottom_top) ; CSP_AWTHV_CC:FieldType = 104 ; CSP_AWTHV_CC:MemoryOrder = "Z " ; CSP_AWTHV_CC:description = "Cloudcore fraction * average over all cloudcore grid points of wthv" ; CSP_AWTHV_CC:units = "K m/s" ; CSP_AWTHV_CC:stagger = "" ; float CSP_SIGC_THL(Time, bottom_top) ; CSP_SIGC_THL:FieldType = 104 ; CSP_SIGC_THL:MemoryOrder = "Z " ; CSP_SIGC_THL:description = "Incloud variance of thl" ; CSP_SIGC_THL:units = "K^2" ; CSP_SIGC_THL:stagger = "" ; float CSP_SIGC_QT(Time, bottom_top) ; CSP_SIGC_QT:FieldType = 104 ; CSP_SIGC_QT:MemoryOrder = "Z " ; CSP_SIGC_QT:description = "Incloud variance of qt" ; CSP_SIGC_QT:units = "(kg/kg)^2" ; CSP_SIGC_QT:stagger = "" ; float CSP_SIGC_QL(Time, bottom_top) ; CSP_SIGC_QL:FieldType = 104 ; CSP_SIGC_QL:MemoryOrder = "Z " ; CSP_SIGC_QL:description = "Incloud variance of ql" ; CSP_SIGC_QL:units = "(kg/kg)^2" ; CSP_SIGC_QL:stagger = "" ; float CSP_SIGC_QF(Time, bottom_top) ; CSP_SIGC_QF:FieldType = 104 ; CSP_SIGC_QF:MemoryOrder = "Z " ; CSP_SIGC_QF:description = "Incloud variance of qf" ; CSP_SIGC_QF:units = "(kg/kg)^2" ; CSP_SIGC_QF:stagger = "" ; float CSP_SIGC_QC(Time, bottom_top) ; CSP_SIGC_QC:FieldType = 104 ; CSP_SIGC_QC:MemoryOrder = "Z " ; CSP_SIGC_QC:description = "Incloud variance of qc" ; CSP_SIGC_QC:units = "(kg/kg)^2" ; CSP_SIGC_QC:stagger = "" ; float CSP_SIGC_QI(Time, bottom_top) ; CSP_SIGC_QI:FieldType = 104 ; CSP_SIGC_QI:MemoryOrder = "Z " ; CSP_SIGC_QI:description = "Incloud variance of qi" ; CSP_SIGC_QI:units = "(kg/kg)^2" ; CSP_SIGC_QI:stagger = "" ; float CSP_SIGC_THV(Time, bottom_top) ; CSP_SIGC_THV:FieldType = 104 ; CSP_SIGC_THV:MemoryOrder = "Z " ; CSP_SIGC_THV:description = "Incloud variance of thv" ; CSP_SIGC_THV:units = "K^2" ; CSP_SIGC_THV:stagger = "" ; float CSP_TH2(Time, bottom_top) ; CSP_TH2:FieldType = 104 ; CSP_TH2:MemoryOrder = "Z " ; CSP_TH2:description = "Variance of th" ; CSP_TH2:units = "K^2" ; CSP_TH2:stagger = "" ; float CSP_THV2(Time, bottom_top) ; CSP_THV2:FieldType = 104 ; CSP_THV2:MemoryOrder = "Z " ; CSP_THV2:description = "Variance of thv" ; CSP_THV2:units = "K^2" ; CSP_THV2:stagger = "" ; float CSP_THL2(Time, bottom_top) ; CSP_THL2:FieldType = 104 ; CSP_THL2:MemoryOrder = "Z " ; CSP_THL2:description = "Variance of thl" ; CSP_THL2:units = "K^2" ; CSP_THL2:stagger = "" ; float CSP_QV2(Time, bottom_top) ; CSP_QV2:FieldType = 104 ; CSP_QV2:MemoryOrder = "Z " ; CSP_QV2:description = "Variance of qv" ; CSP_QV2:units = "kg^2/kg^2" ; CSP_QV2:stagger = "" ; float CSP_SMAXACTMAX(Time, bottom_top) ; CSP_SMAXACTMAX:FieldType = 104 ; CSP_SMAXACTMAX:MemoryOrder = "Z " ; CSP_SMAXACTMAX:description = "Max of max supersat in Morrison microphysics" ; CSP_SMAXACTMAX:units = "" ; CSP_SMAXACTMAX:stagger = "" ; float CSP_RMINACTMIN(Time, bottom_top) ; CSP_RMINACTMIN:FieldType = 104 ; CSP_RMINACTMIN:MemoryOrder = "Z " ; CSP_RMINACTMIN:description = "Min of min activated radius in Morrison microphysics" ; CSP_RMINACTMIN:units = "" ; CSP_RMINACTMIN:stagger = "" ; float CSP_WMAX(Time, bottom_top) ; CSP_WMAX:FieldType = 104 ; CSP_WMAX:MemoryOrder = "Z " ; CSP_WMAX:description = "Max value of vertical motion" ; CSP_WMAX:units = "m s^-1" ; CSP_WMAX:stagger = "" ; float CSP_WMIN(Time, bottom_top) ; CSP_WMIN:FieldType = 104 ; CSP_WMIN:MemoryOrder = "Z " ; CSP_WMIN:description = "Min value of vertical motion" ; CSP_WMIN:units = "m s^-1" ; CSP_WMIN:stagger = "" ; float CSV_TH(Time, bottom_top, south_north, west_east) ; CSV_TH:FieldType = 104 ; CSV_TH:MemoryOrder = "XYZ" ; CSV_TH:description = "Time-averaged potential temperature" ; CSV_TH:units = "m s^-1" ; CSV_TH:stagger = "" ; CSV_TH:coordinates = "XLONG XLAT XTIME" ; float CSV_U(Time, bottom_top, south_north, west_east_stag) ; CSV_U:FieldType = 104 ; CSV_U:MemoryOrder = "XYZ" ; CSV_U:description = "Time-averaged meridional wind speed" ; CSV_U:units = "m s^-1" ; CSV_U:stagger = "X" ; CSV_U:coordinates = "XLONG_U XLAT_U XTIME" ; float CSV_V(Time, bottom_top, south_north_stag, west_east) ; CSV_V:FieldType = 104 ; CSV_V:MemoryOrder = "XYZ" ; CSV_V:description = "Time-averaged zonal wind speed" ; CSV_V:units = "m s^-1" ; CSV_V:stagger = "Y" ; CSV_V:coordinates = "XLONG_V XLAT_V XTIME" ; float CSV_W(Time, bottom_top_stag, south_north, west_east) ; CSV_W:FieldType = 104 ; CSV_W:MemoryOrder = "XYZ" ; CSV_W:description = "Time-averaged vertical wind speed" ; CSV_W:units = "m s^-1" ; CSV_W:stagger = "Z" ; CSV_W:coordinates = "XLONG XLAT XTIME" ; float CSV_W2(Time, bottom_top_stag, south_north, west_east) ; CSV_W2:FieldType = 104 ; CSV_W2:MemoryOrder = "XYZ" ; CSV_W2:description = "Time-averaged vertical wind speed variance" ; CSV_W2:units = "m^2 s^-2" ; CSV_W2:stagger = "Z" ; CSV_W2:coordinates = "XLONG XLAT XTIME" ; float CSV_QV(Time, bottom_top, south_north, west_east) ; CSV_QV:FieldType = 104 ; CSV_QV:MemoryOrder = "XYZ" ; CSV_QV:description = "Time-averaged water vapor mixing ratio" ; CSV_QV:units = "kg/kg" ; CSV_QV:stagger = "" ; CSV_QV:coordinates = "XLONG XLAT XTIME" ; float CSV_QC(Time, bottom_top, south_north, west_east) ; CSV_QC:FieldType = 104 ; CSV_QC:MemoryOrder = "XYZ" ; CSV_QC:description = "Time-averaged cloud droplet mixing ratio" ; CSV_QC:units = "kg/kg" ; CSV_QC:stagger = "" ; CSV_QC:coordinates = "XLONG XLAT XTIME" ; float CSV_QR(Time, bottom_top, south_north, west_east) ; CSV_QR:FieldType = 104 ; CSV_QR:MemoryOrder = "XYZ" ; CSV_QR:description = "Time-averaged rain droplet mixing ratio" ; CSV_QR:units = "kg/kg" ; CSV_QR:stagger = "" ; CSV_QR:coordinates = "XLONG XLAT XTIME" ; float CSV_QI(Time, bottom_top, south_north, west_east) ; CSV_QI:FieldType = 104 ; CSV_QI:MemoryOrder = "XYZ" ; CSV_QI:description = "Time-averaged cloud ice mixing ratio" ; CSV_QI:units = "kg/kg" ; CSV_QI:stagger = "" ; CSV_QI:coordinates = "XLONG XLAT XTIME" ; float CSV_QS(Time, bottom_top, south_north, west_east) ; CSV_QS:FieldType = 104 ; CSV_QS:MemoryOrder = "XYZ" ; CSV_QS:description = "Time-averaged snow mixing ratio" ; CSV_QS:units = "kg/kg" ; CSV_QS:stagger = "" ; CSV_QS:coordinates = "XLONG XLAT XTIME" ; float CSV_QG(Time, bottom_top, south_north, west_east) ; CSV_QG:FieldType = 104 ; CSV_QG:MemoryOrder = "XYZ" ; CSV_QG:description = "Time-averaged graupel mixing ratio" ; CSV_QG:units = "kg/kg" ; CSV_QG:stagger = "" ; CSV_QG:coordinates = "XLONG XLAT XTIME" ; float CSV_LWC(Time, bottom_top, south_north, west_east) ; CSV_LWC:FieldType = 104 ; CSV_LWC:MemoryOrder = "XYZ" ; CSV_LWC:description = "Time-averaged liquid water content (based on ql)" ; CSV_LWC:units = "kg/m^3" ; CSV_LWC:stagger = "" ; CSV_LWC:coordinates = "XLONG XLAT XTIME" ; float CSV_IWC(Time, bottom_top, south_north, west_east) ; CSV_IWC:FieldType = 104 ; CSV_IWC:MemoryOrder = "XYZ" ; CSV_IWC:description = "Time-averaged ice water content (based on qf)" ; CSV_IWC:units = "kg/m^3" ; CSV_IWC:stagger = "" ; CSV_IWC:coordinates = "XLONG XLAT XTIME" ; float CSV_CLDFRAC(Time, bottom_top, south_north, west_east) ; CSV_CLDFRAC:FieldType = 104 ; CSV_CLDFRAC:MemoryOrder = "XYZ" ; CSV_CLDFRAC:description = "Time-averaged cloud fraction" ; CSV_CLDFRAC:units = "(0-1)" ; CSV_CLDFRAC:stagger = "" ; CSV_CLDFRAC:coordinates = "XLONG XLAT XTIME" ; float CSS_LWP(Time, south_north, west_east) ; CSS_LWP:FieldType = 104 ; CSS_LWP:MemoryOrder = "XY " ; CSS_LWP:description = "Time-averaged liquid water path (based on ql)" ; CSS_LWP:units = "kg/m^3" ; CSS_LWP:stagger = "" ; CSS_LWP:coordinates = "XLONG XLAT XTIME" ; float CSS_IWP(Time, south_north, west_east) ; CSS_IWP:FieldType = 104 ; CSS_IWP:MemoryOrder = "XY " ; CSS_IWP:description = "Time-averaged ice water path (based on qf)" ; CSS_IWP:units = "kg/m^3" ; CSS_IWP:stagger = "" ; CSS_IWP:coordinates = "XLONG XLAT XTIME" ; float CSS_CLDTOT(Time, south_north, west_east) ; CSS_CLDTOT:FieldType = 104 ; CSS_CLDTOT:MemoryOrder = "XY " ; CSS_CLDTOT:description = "Time-averaged fractional cloud cover" ; CSS_CLDTOT:units = "(0-1)" ; CSS_CLDTOT:stagger = "" ; CSS_CLDTOT:coordinates = "XLONG XLAT XTIME" ; float CSS_CLDLOW(Time, south_north, west_east) ; CSS_CLDLOW:FieldType = 104 ; CSS_CLDLOW:MemoryOrder = "XY " ; CSS_CLDLOW:description = "Time-averaged fractional low-cloud cover (<5 km)" ; CSS_CLDLOW:units = "(0-1)" ; CSS_CLDLOW:stagger = "" ; CSS_CLDLOW:coordinates = "XLONG XLAT XTIME" ; // global attributes: :TITLE = " OUTPUT FROM WRF V3.8.1 MODEL" ; :START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 8 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 1 ; :USE_THETA_M = 1 ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 0.5f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = 0 ; :ISICE = 0 ; :ISURBAN = 0 ; :ISOILWATER = 0 ; :doi = "10.5439/1342961" ; :contacts = "lasso@arm.gov, LASSO PI: William Gustafson (William.Gustafson@pnnl.gov), LASSO Co-PI: Andrew Vogelmann (vogelmann@bnl.gov)" ; :process_version = "Alpha 2 Release" ; :site_id = "sgp" ; :facility_id = "C1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :date = "20160830" ; :site = "sgp" ; :fac = "C1" ; :simulation_id_number = 12L ; :model_type = "WRF" ; :model_version = "3.8.1" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = 226L ; :output_horizontal_grid_spacing = "100 m" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "300 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8 (v20161129)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "NA" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "Thompson" ; :config_nickname = "runlas20160830a2msda1d300kmmp8" ; :config_comments = "Alpha 2" ; :simulation_origin_host = "cumulus-login1" ; } ==================================================