netcdf nsamoltsedassfcclass1X1.a1.20130731.000000 { dimensions: time = 6 ; station = 79 ; variables: int base_time ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:long_name = "Base time in Epoch" ; base_time:string = "31-Jul-2013,00:00:00 GMT" ; double time_offset(time) ; time_offset:units = "seconds since 31-Jul-2013,00:00:00 GMT" ; time_offset:long_name = "Time offset from base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2013-07-31 00:00:00 0:00" ; float lat_stn(station) ; lat_stn:units = "Degrees" ; lat_stn:valid_min = 31.914f ; lat_stn:valid_max = 41.f ; lat_stn:long_name = "Station Latitude" ; float lon_stn(station) ; lon_stn:units = "Degrees" ; lon_stn:valid_min = -91.585f ; lon_stn:valid_max = -103.561f ; lon_stn:long_name = "Station Longitude" ; float alt_stn(station) ; alt_stn:units = "meters" ; alt_stn:long_name = "Station altitude" ; int num_stn(station) ; num_stn:units = "numeric" ; num_stn:long_name = "Station number" ; float pres_sea(time, station) ; pres_sea:units = "Pa" ; pres_sea:long_name = "Pressure at mean sea level" ; float pres_surf(time, station) ; pres_surf:units = "Pa" ; pres_surf:long_name = "Surface pressure" ; float temp(time, station) ; temp:units = "K" ; temp:long_name = "Skin temperature" ; float temp_min(time, station) ; temp_min:units = "K" ; temp_min:long_name = "Min Temperature at lowest Model Level- 1 hr" ; float temp_max(time, station) ; temp_max:units = "K" ; temp_max:long_name = "Max Temperature at lowest Model Level- 1 hr" ; float soilmoist(time, station) ; soilmoist:units = "%" ; soilmoist:long_name = "Soil moisture availability" ; float precip_acc(time, station) ; precip_acc:units = "kg/m**2" ; precip_acc:long_name = "Accumulated Total Precip- 1 hr " ; float precip_conv_acc(time, station) ; precip_conv_acc:units = "kg/m**2" ; precip_conv_acc:long_name = "Accumulated Convective Precip- 1 hr " ; float lat_heat(time, station) ; lat_heat:units = "w/m**2" ; lat_heat:long_name = "Average Flux of Latent Heat- 1 hr " ; float lat_heat_pot(time, station) ; lat_heat_pot:units = "w/m**2" ; lat_heat_pot:long_name = "Average Potential Flux of Latent Heat- 1 hr " ; float sens_heat(time, station) ; sens_heat:units = "w/m**2" ; sens_heat:long_name = "Average Flux of Sensible Heat- 1 hr " ; float sub_heat(time, station) ; sub_heat:units = "w/m**2" ; sub_heat:long_name = "Average Flux of Sub-surface Heat- 1 hr " ; float snowphase(time, station) ; snowphase:units = "w/m**2" ; snowphase:long_name = "Average Flux of Snow Phase Change Heat- 1 hr " ; float sw_down(time, station) ; sw_down:units = "w/m**2" ; sw_down:long_name = "Average Shortwave Downward Flux- 1 hr " ; float sw_up(time, station) ; sw_up:units = "w/m**2" ; sw_up:long_name = "Average Shortwave Upward Flux- 1 hr " ; float lw_down(time, station) ; lw_down:units = "w/m**2" ; lw_down:long_name = "Average Longwave Downward Flux- 1 hr " ; float lw_up(time, station) ; lw_up:units = "w/m**2" ; lw_up:long_name = "Average Longwave Upward Flux- 1 hr " ; float lw_net(time, station) ; lw_net:units = "w/m**2" ; lw_net:long_name = "Average Net Longwave Flux at Top- 1 hr " ; float sw_net(time, station) ; sw_net:units = "w/m**2" ; sw_net:long_name = "Average Net Shortwave Flux at Top- 1 hr " ; float snowfall(time, station) ; snowfall:units = "kg/m**2" ; snowfall:long_name = "Accumulated snowfall- 1 hr" ; float soil_total(time, station) ; soil_total:units = "kg/m**2" ; soil_total:long_name = "Total soil moisture" ; float snow_water(time, station) ; snow_water:units = "kg/m**2" ; snow_water:long_name = "Snow water equivalent" ; float snowmelt(time, station) ; snowmelt:units = "kg/m**2" ; snowmelt:long_name = "Accumulated snow melt- 1 hr" ; float runoff(time, station) ; runoff:units = "kg/m**2" ; runoff:long_name = "Accumulated surface runoff- 1 hr" ; float baseflow(time, station) ; baseflow:units = "kg/m**2" ; baseflow:long_name = "Accumulated Baseflow-groundwater runoff- 1hr" ; float soiltemp_bot(time, station) ; soiltemp_bot:units = "K" ; soiltemp_bot:long_name = "Bottom soil temperature" ; float rough_len(time, station) ; rough_len:units = "m" ; rough_len:long_name = "Roughness length" ; float U_wind(time, station) ; U_wind:units = "m/s" ; U_wind:long_name = "U-component at 10 m" ; float V_wind(time, station) ; V_wind:units = "m/s" ; V_wind:long_name = "V-component at 10 m" ; float pot_temp(time, station) ; pot_temp:units = "K" ; pot_temp:long_name = "Potential temperature at 10m" ; float humid_10m(time, station) ; humid_10m:units = "kg/kg" ; humid_10m:long_name = "Specific humidity at 10m" ; float temp_2m(time, station) ; temp_2m:units = "K" ; temp_2m:long_name = "Temperature at 2 meters" ; float humid_2m(time, station) ; humid_2m:units = "kg/kg" ; humid_2m:long_name = "Specific humidity at 2 meters" ; float surf_ex_coef(time, station) ; surf_ex_coef:units = "m/s" ; surf_ex_coef:long_name = "Surface exchange coefficient" ; float veg_green(time, station) ; veg_green:units = "%" ; veg_green:long_name = "Green vegetation cover" ; float canopy_water(time, station) ; canopy_water:units = "kg/m**2" ; canopy_water:long_name = "Canopy water" ; float soilmoist_lay1(time, station) ; soilmoist_lay1:units = "unitless" ; soilmoist_lay1:long_name = "Layer 1 volumetric soil moisture" ; float soiltemp_lay1(time, station) ; soiltemp_lay1:units = "K" ; soiltemp_lay1:long_name = "Layer 1 soil temperature" ; float soilmoist_lay2(time, station) ; soilmoist_lay2:units = "unitless" ; soilmoist_lay2:long_name = "Layer 2 volumetric soil moisture" ; float soiltemp_lay2(time, station) ; soiltemp_lay2:units = "K" ; soiltemp_lay2:long_name = "Layer 2 soil temperature" ; float soilmoist_lay3(time, station) ; soilmoist_lay3:units = "unitless" ; soilmoist_lay3:long_name = "Layer 3 volumetric soil moisture" ; float soiltemp_lay3(time, station) ; soiltemp_lay3:units = "K" ; soiltemp_lay3:long_name = "Layer 3 soil temperature" ; float soilmoist_lay4(time, station) ; soilmoist_lay4:units = "unitless" ; soilmoist_lay4:long_name = "Layer 4 volumetric soil moisture" ; float soiltemp_lay4(time, station) ; soiltemp_lay4:units = "K" ; soiltemp_lay4:long_name = "Layer 4 soil temperature" ; float land_sea(time, station) ; land_sea:units = "(0 - land, 1 - sea)" ; land_sea:long_name = "Station land/sea mask" ; float cloud_low(time, station) ; cloud_low:units = "%" ; cloud_low:long_name = "Amount of low cloud" ; float cloud_med(time, station) ; cloud_med:units = "%" ; cloud_med:long_name = "Amount of middle cloud" ; float cloud_hi(time, station) ; cloud_hi:units = "%" ; cloud_hi:long_name = "Amount of high cloud" ; float snow_ratio(time, station) ; snow_ratio:units = "%" ; snow_ratio:long_name = "Snow ratio from explicity cloud scheme" ; float snow(time, station) ; snow:units = "(0 - no, 1 - yes)" ; snow:long_name = "Existence of snow?" ; float ice(time, station) ; ice:units = "(0 - no, 1 - yes)" ; ice:long_name = "Existence of ice?" ; float rain_fz(time, station) ; rain_fz:units = "(0 - no, 1 - yes)" ; rain_fz:long_name = "Existence of freezing rain?" ; float rain(time, station) ; rain:units = "(0 - no, 1 - yes)" ; rain:long_name = "Existence of rain?" ; float storm_U_wind(time, station) ; storm_U_wind:units = "m/s" ; storm_U_wind:long_name = "U-component of storm motion" ; float storm_V_wind(time, station) ; storm_V_wind:units = "m/s" ; storm_V_wind:long_name = "V-component of storm motion" ; float heli_storm(time, station) ; heli_storm:units = "m**2/s**2" ; heli_storm:long_name = "Storm-relative helicity" ; float pres_base(time, station) ; pres_base:units = "Pa" ; pres_base:long_name = "Pressure at the base of the cloud" ; float horz_vis(time, station) ; horz_vis:units = "m" ; horz_vis:long_name = "Horizontal visibility" ; // global attributes: :Date = "Sat Aug 3 06:52:41 2013" ; :IDL_Version = "sparc sunos unix 6.2" ; :Version = "$State: process-xdc-molts_edas_sfc-7.2-1 $" ; :Command_Line = "moltsedassfc, , , " ; :site_id = "nsa" ; :zeb_platform = "nsamoltsedassfcclass1X1.a1" ; :data_organization = "irgrid" ; :data_level = "a1" ; :missing_value = -9999.f ; :station_not_reporting = -99999.f ; :source = "National Centers for Environmental Prediction (NCEP)" ; :source_format = "BUFR" ; }