netcdf sgpsurfspecalb1mlawerC1.s1.20171118.060000 {
dimensions:
	time = UNLIMITED ; // (1440 currently)
	filter = 6 ;
	wavenumber = 4918 ;
	bound = 2 ;
variables:
	int base_time ;
		base_time:string = "2017-11-18 00:00:00 0:00" ;
		base_time:long_name = "Base time in Epoch" ;
		base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ;
		base_time:ancillary_variables = "time_offset" ;
	double time_offset(time) ;
		time_offset:long_name = "Time offset from base_time" ;
		time_offset:units = "seconds since 2017-11-18 00:00:00 0:00" ;
		time_offset:ancillary_variables = "base_time" ;
	double time(time) ;
		time:long_name = "Time offset from midnight" ;
		time:units = "seconds since 2017-11-18 00:00:00 0:00" ;
		time:bounds = "time_bounds" ;
	double time_bounds(time, bound) ;
		time_bounds:long_name = "Time cell bounds" ;
		time_bounds:bound_offsets = -60., 0. ;
	int filter(filter) ;
		filter:long_name = "Wavelength of each of the 6 filters measured by the MFR radiometers" ;
		filter:units = "cm" ;
	int wavenumber(wavenumber) ;
		wavenumber:long_name = "Wavenumber for a given sample time" ;
		wavenumber:units = "cm^-1" ;
	float be_up_hemisp_broadband_mfr10mC1(time) ;
		be_up_hemisp_broadband_mfr10mC1:long_name = "Best estimate 10 meter broadband upwelling hemispheric irradiance" ;
		be_up_hemisp_broadband_mfr10mC1:units = "W/m^2" ;
		be_up_hemisp_broadband_mfr10mC1:missing_value = -9999.f ;
		be_up_hemisp_broadband_mfr10mC1:ancillary_variables = "qc_be_up_hemisp_broadband_mfr10mC1 be_up_hemisp_broadband_status_mfr10mC1" ;
	int qc_be_up_hemisp_broadband_mfr10mC1(time) ;
		qc_be_up_hemisp_broadband_mfr10mC1:long_name = "Quality check results on field: Best estimate 10 meter broadband upwelling hemispheric irradiance" ;
		qc_be_up_hemisp_broadband_mfr10mC1:units = "unitless" ;
		qc_be_up_hemisp_broadband_mfr10mC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_up_hemisp_broadband_mfr10mC1:flag_method = "bit" ;
	int be_up_hemisp_broadband_status_mfr10mC1(time) ;
		be_up_hemisp_broadband_status_mfr10mC1:long_name = "Estimation status flag for Best estimate 10 meter broadband upwelling hemispheric irradiance" ;
		be_up_hemisp_broadband_status_mfr10mC1:units = "unitless" ;
		be_up_hemisp_broadband_status_mfr10mC1:comment = "If value is zero then be_up_hemisp_broadband_mfr10mC1 is equal to up_hemisp_broadband_mfr10mC1.  If value greater then zero then be_up_hemisp_broadband_mfr10mC1 is estimated using up_short_hemisp_beflux1longC1 and average ratio of be_up_hemisp_broadband_mfr10mC1 to up_short_hemisp_beflux1longC1.  The value represents the number of samples used to calculate the estimation" ;
	float be_up_hemisp_narrowband_mfr10mC1(time, filter) ;
		be_up_hemisp_narrowband_mfr10mC1:long_name = "Best estimate 10 meter narrowband upwelling hemispheric irradiance" ;
		be_up_hemisp_narrowband_mfr10mC1:units = "W/(m2 nm)" ;
		be_up_hemisp_narrowband_mfr10mC1:missing_value = -9999.f ;
		be_up_hemisp_narrowband_mfr10mC1:ancillary_variables = "qc_be_up_hemisp_narrowband_mfr10mC1 be_up_hemisp_narrowband_status_mfr10mC1" ;
	int qc_be_up_hemisp_narrowband_mfr10mC1(time, filter) ;
		qc_be_up_hemisp_narrowband_mfr10mC1:long_name = "Quality check results on field: Best estimate 10 meter narrowband upwelling hemispheric irradiance" ;
		qc_be_up_hemisp_narrowband_mfr10mC1:units = "unitless" ;
		qc_be_up_hemisp_narrowband_mfr10mC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_up_hemisp_narrowband_mfr10mC1:flag_method = "bit" ;
	int be_up_hemisp_narrowband_status_mfr10mC1(time, filter) ;
		be_up_hemisp_narrowband_status_mfr10mC1:long_name = "Estimation status flag for Best estimate 10 meter narrowband upwelling hemispheric irradiance" ;
		be_up_hemisp_narrowband_status_mfr10mC1:units = "unitless" ;
		be_up_hemisp_narrowband_status_mfr10mC1:comment = "If value is zero then be_up_hemisp_narrowband_mfr10mC1 is equal to up_hemisp_narrowband_mfr10mC1.  If value greater then zero then be_up_hemisp_narrowband_mfr10mC1 is estimated using be_up_hemisp_broadband_mfr10mC1 and average ratio of be_up_hemisp_narrowband_mfr10mC1 to be_up_hemisph_broadband_mfr10mC1.  The value represents the number of samples used to calculate the estimation" ;
	float cosine_solar_zenith_angle_mfr10mC1(time) ;
		cosine_solar_zenith_angle_mfr10mC1:long_name = "10 meter Cosine Solar Zenith Angle" ;
		cosine_solar_zenith_angle_mfr10mC1:units = "unitless" ;
		cosine_solar_zenith_angle_mfr10mC1:valid_min = -1.f ;
		cosine_solar_zenith_angle_mfr10mC1:valid_max = 1.f ;
		cosine_solar_zenith_angle_mfr10mC1:missing_value = -9999.f ;
		cosine_solar_zenith_angle_mfr10mC1:source = "sgpmfr10mC1.b1:cosine_solar_zenith_angle" ;
		cosine_solar_zenith_angle_mfr10mC1:ancillary_variables = "qc_cosine_solar_zenith_angle_mfr10mC1" ;
	int qc_cosine_solar_zenith_angle_mfr10mC1(time) ;
		qc_cosine_solar_zenith_angle_mfr10mC1:long_name = "Quality check results on field: 10 meter Cosine Solar Zenith Angle" ;
		qc_cosine_solar_zenith_angle_mfr10mC1:units = "unitless" ;
		qc_cosine_solar_zenith_angle_mfr10mC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_cosine_solar_zenith_angle_mfr10mC1:flag_method = "bit" ;
	float be_up_hemisp_broadband_mfr25mC1(time) ;
		be_up_hemisp_broadband_mfr25mC1:long_name = "Best estimate 25 meter hemispheric broadband irradiance" ;
		be_up_hemisp_broadband_mfr25mC1:units = "W/m^2" ;
		be_up_hemisp_broadband_mfr25mC1:missing_value = -9999.f ;
		be_up_hemisp_broadband_mfr25mC1:ancillary_variables = "qc_be_up_hemisp_broadband_mfr25mC1 be_up_hemisp_broadband_status_mfr25mC1" ;
	int qc_be_up_hemisp_broadband_mfr25mC1(time) ;
		qc_be_up_hemisp_broadband_mfr25mC1:long_name = "Quality check results on field: Best estimate 25 meter hemispheric broadband irradiance" ;
		qc_be_up_hemisp_broadband_mfr25mC1:units = "unitless" ;
		qc_be_up_hemisp_broadband_mfr25mC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_up_hemisp_broadband_mfr25mC1:flag_method = "bit" ;
	int be_up_hemisp_broadband_status_mfr25mC1(time) ;
		be_up_hemisp_broadband_status_mfr25mC1:long_name = "Estimation status flag for Best estimate 25 meter hemispheric broadband irradiance" ;
		be_up_hemisp_broadband_status_mfr25mC1:units = "unitless" ;
		be_up_hemisp_broadband_status_mfr25mC1:comment = "If value is zero then be_up_hemisp_broadband_mfr25mC1 is equal to up_hemisp_broadband_mfr25mC1.  If value greater then zero then be_up_hemisp_broadband_mfr25mC1 is estimated using up_short_hemisp_beflux1longC1 and average ratio of be_up_hemisp_broadband_mfr25mC1 to up_short_hemisp_beflux1longC1.  The value represents the number of samples used to calculate the estimation" ;
	float be_up_hemisp_narrowband_mfr25mC1(time, filter) ;
		be_up_hemisp_narrowband_mfr25mC1:long_name = "Best estimate 25 meter narrowband hemispheric irradiance" ;
		be_up_hemisp_narrowband_mfr25mC1:units = "W/(m2 nm)" ;
		be_up_hemisp_narrowband_mfr25mC1:missing_value = -9999.f ;
		be_up_hemisp_narrowband_mfr25mC1:ancillary_variables = "qc_be_up_hemisp_narrowband_mfr25mC1 be_up_hemisp_narrowband_status_mfr25mC1" ;
	int qc_be_up_hemisp_narrowband_mfr25mC1(time, filter) ;
		qc_be_up_hemisp_narrowband_mfr25mC1:long_name = "Quality check results on field: Best estimate 25 meter narrowband hemispheric irradiance" ;
		qc_be_up_hemisp_narrowband_mfr25mC1:units = "unitless" ;
		qc_be_up_hemisp_narrowband_mfr25mC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_up_hemisp_narrowband_mfr25mC1:flag_method = "bit" ;
	int be_up_hemisp_narrowband_status_mfr25mC1(time, filter) ;
		be_up_hemisp_narrowband_status_mfr25mC1:long_name = "Estimation status flag for Best estimate 25 meter narrowband hemispheric irradiance" ;
		be_up_hemisp_narrowband_status_mfr25mC1:units = "unitless" ;
		be_up_hemisp_narrowband_status_mfr25mC1:comment = "If value is zero then be_up_hemisp_narrowband_mfr25mC1 is equal to up_hemisp_narrowband_mfr25mC1.  If value greater then zero then be_up_hemisp_narrowband_mfr25mC1 is estimated using be_up_hemisp_broadband_mfr25mC1 and average ratio of be_up_hemisp_narrowband_mfr25mC1 to be_up_hemisph_broadband_mfr25mC1.  The value represents the number of samples used to calculate the estimation" ;
	float cosine_solar_zenith_angle_mfr25mC1(time) ;
		cosine_solar_zenith_angle_mfr25mC1:long_name = "25 meter Cosine Solar Zenith Angle" ;
		cosine_solar_zenith_angle_mfr25mC1:units = "unitless" ;
		cosine_solar_zenith_angle_mfr25mC1:valid_min = -1.f ;
		cosine_solar_zenith_angle_mfr25mC1:valid_max = 1.f ;
		cosine_solar_zenith_angle_mfr25mC1:missing_value = -9999.f ;
		cosine_solar_zenith_angle_mfr25mC1:source = "sgpmfr25mC1.b1:cosine_solar_zenith_angle" ;
		cosine_solar_zenith_angle_mfr25mC1:ancillary_variables = "qc_cosine_solar_zenith_angle_mfr25mC1" ;
	int qc_cosine_solar_zenith_angle_mfr25mC1(time) ;
		qc_cosine_solar_zenith_angle_mfr25mC1:long_name = "Quality check results on field: 25 meter Cosine Solar Zenith Angle" ;
		qc_cosine_solar_zenith_angle_mfr25mC1:units = "unitless" ;
		qc_cosine_solar_zenith_angle_mfr25mC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_cosine_solar_zenith_angle_mfr25mC1:flag_method = "bit" ;
	float down_short_hemisp_beflux1longC1(time) ;
		down_short_hemisp_beflux1longC1:long_name = "Downwelling Shortwave Hemispheric Irradiance for beflux1longC1" ;
		down_short_hemisp_beflux1longC1:units = "W/m2" ;
		down_short_hemisp_beflux1longC1:comment = "best estimate of direct + best estimate of diffuse from SIRSE13, SIRSC1, & BRS." ;
		down_short_hemisp_beflux1longC1:missing_value = -9999.f ;
		down_short_hemisp_beflux1longC1:source = "sgpbeflux1longC1.c1:down_short_hemisp" ;
		down_short_hemisp_beflux1longC1:ancillary_variables = "qc_down_short_hemisp_beflux1longC1" ;
	int qc_down_short_hemisp_beflux1longC1(time) ;
		qc_down_short_hemisp_beflux1longC1:long_name = "Quality check results on field: Downwelling Shortwave Hemispheric Irradiance for beflux1longC1" ;
		qc_down_short_hemisp_beflux1longC1:units = "unitless" ;
		qc_down_short_hemisp_beflux1longC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_down_short_hemisp_beflux1longC1:flag_method = "bit" ;
	float up_short_hemisp_beflux1longC1(time) ;
		up_short_hemisp_beflux1longC1:long_name = "Upwelling (10 meter) Shortwave Hemispheric Irradiance for beflux1longC1" ;
		up_short_hemisp_beflux1longC1:units = "W/m2" ;
		up_short_hemisp_beflux1longC1:comment = "the average of SIRS E13 and C1, use mfr/avg ratio as the tracker, if the difference between the two values are greater than 5%, then use the one closest to the ratio" ;
		up_short_hemisp_beflux1longC1:missing_value = -9999.f ;
		up_short_hemisp_beflux1longC1:source = "sgpbeflux1longC1.c1:up_short_hemisp" ;
		up_short_hemisp_beflux1longC1:ancillary_variables = "qc_up_short_hemisp_beflux1longC1" ;
	int qc_up_short_hemisp_beflux1longC1(time) ;
		qc_up_short_hemisp_beflux1longC1:long_name = "Quality check results on field: Upwelling (10 meter) Shortwave Hemispheric Irradiance for beflux1longC1" ;
		qc_up_short_hemisp_beflux1longC1:units = "unitless" ;
		qc_up_short_hemisp_beflux1longC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_up_short_hemisp_beflux1longC1:flag_method = "bit" ;
	float short_direct_normal_beflux1longC1(time) ;
		short_direct_normal_beflux1longC1:long_name = "Shortwave Direct Normal Irradiance for beflux1longC1" ;
		short_direct_normal_beflux1longC1:units = "W/m2" ;
		short_direct_normal_beflux1longC1:comment = "the average of the two closest values of BRS direct normal (NIP), SIRSE13 direct normal, and SIRSC1 direct normal" ;
		short_direct_normal_beflux1longC1:missing_value = -9999.f ;
		short_direct_normal_beflux1longC1:source = "sgpbeflux1longC1.c1:short_direct_normal" ;
		short_direct_normal_beflux1longC1:ancillary_variables = "qc_short_direct_normal_beflux1longC1" ;
	int qc_short_direct_normal_beflux1longC1(time) ;
		qc_short_direct_normal_beflux1longC1:long_name = "Quality check results on field: Shortwave Direct Normal Irradiance for beflux1longC1" ;
		qc_short_direct_normal_beflux1longC1:units = "unitless" ;
		qc_short_direct_normal_beflux1longC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_short_direct_normal_beflux1longC1:flag_method = "bit" ;
	float up_short_hemisp_irt25mC1(time) ;
		up_short_hemisp_irt25mC1:long_name = "Upwelling Shortwave Hemispheric Irradiance, Pyranometer" ;
		up_short_hemisp_irt25mC1:units = "W/m^2" ;
		up_short_hemisp_irt25mC1:valid_min = 0.f ;
		up_short_hemisp_irt25mC1:valid_max = 1000.f ;
		up_short_hemisp_irt25mC1:resolution = 0.1f ;
		up_short_hemisp_irt25mC1:missing_value = -9999.f ;
		up_short_hemisp_irt25mC1:ventilation_status = "Ventilated" ;
		up_short_hemisp_irt25mC1:height = 25 ;
		up_short_hemisp_irt25mC1:height_units = "meters" ;
		up_short_hemisp_irt25mC1:source = "sgpirt25mC1.b1:up_short_hemisp" ;
		up_short_hemisp_irt25mC1:ancillary_variables = "qc_up_short_hemisp_irt25mC1" ;
	int qc_up_short_hemisp_irt25mC1(time) ;
		qc_up_short_hemisp_irt25mC1:long_name = "Quality check results on field: Upwelling Shortwave Hemispheric Irradiance, Pyranometer" ;
		qc_up_short_hemisp_irt25mC1:units = "unitless" ;
		qc_up_short_hemisp_irt25mC1:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_up_short_hemisp_irt25mC1:flag_method = "bit" ;
	int hemisp_broadband_facility_mfrsr(time) ;
		hemisp_broadband_facility_mfrsr:long_name = "Hemispheric broadband irradiance used in calculating be_hemisp_broadband_mfrsr,surface_albedo_mfr_broadband_10m, and surface_albedo_mfr_broadband_25m" ;
		hemisp_broadband_facility_mfrsr:units = "unitless" ;
		hemisp_broadband_facility_mfrsr:missing_value = -9999 ;
		hemisp_broadband_facility_mfrsr:flag_values = 13, 41, 100 ;
		hemisp_broadband_facility_mfrsr:flag_meanings = "E13 C1 Average_of_E13_and_C1" ;
		hemisp_broadband_facility_mfrsr:flag_13_description = "Value is from facility E13" ;
		hemisp_broadband_facility_mfrsr:flag_41_description = "Value is from facility C1" ;
		hemisp_broadband_facility_mfrsr:flag_100_description = "Value is the average of the values from E13 and C1" ;
	float be_hemisp_broadband_mfrsr(time) ;
		be_hemisp_broadband_mfrsr:long_name = "Best estimate Best measured hemispheric broadband irradiance from mfrsrC1 and/or mfrsrE13" ;
		be_hemisp_broadband_mfrsr:units = "W/m^2" ;
		be_hemisp_broadband_mfrsr:missing_value = -9999.f ;
		be_hemisp_broadband_mfrsr:comment = "Value is best of hemisp_broadband_mfrsrC1 and hemisp_broadband_mfrsrE13.  If both good then value is average of C1 and E13; if both bad or missing value is estimated using down_short_hemisp_beflux1longC1 and the average ratio of be_hemisp_broadband_mfrsr to down_short_hemisp_beflux1longC1 of known good points." ;
		be_hemisp_broadband_mfrsr:ancillary_variables = "qc_be_hemisp_broadband_mfrsr be_hemisp_broadband_status_mfrsr hemisp_broadband_facility_mfrsr" ;
	int qc_be_hemisp_broadband_mfrsr(time) ;
		qc_be_hemisp_broadband_mfrsr:long_name = "Quality check results on field: Best estimate Best measured hemispheric broadband irradiance from mfrsrC1 and/or mfrsrE13" ;
		qc_be_hemisp_broadband_mfrsr:units = "unitless" ;
		qc_be_hemisp_broadband_mfrsr:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_hemisp_broadband_mfrsr:flag_method = "bit" ;
	int be_hemisp_broadband_status_mfrsr(time) ;
		be_hemisp_broadband_status_mfrsr:long_name = "Estimation status flag for best estimate best measured hemispheric broadband irradiance from mfrsrC1 and/or mfrsrE13" ;
		be_hemisp_broadband_status_mfrsr:units = "unitless" ;
		be_hemisp_broadband_status_mfrsr:comment = "If value is zero then be_hemisp_broadband_mfrsr is equal to hemisp_broadband_mfrsr.  If value greater then zero then be_hemisp_broadband_mfrsr is estimated.  The value represents the number of samples used to calculate the estimation" ;
	int hemisp_narrowband_facility_mfrsr(time, filter) ;
		hemisp_narrowband_facility_mfrsr:long_name = "Hemispheric narrowband irradiance used in calculating be_hemisp_narrowband_mfrsr,surface_albedo_mfr_narrowband_10m, and surface_albedo_mfr_narrowband_25m" ;
		hemisp_narrowband_facility_mfrsr:units = "unitless" ;
		hemisp_narrowband_facility_mfrsr:missing_value = -9999 ;
		hemisp_narrowband_facility_mfrsr:flag_values = 13, 41, 100 ;
		hemisp_narrowband_facility_mfrsr:flag_meanings = "E13 C1 Average_of_E13_and_C1" ;
		hemisp_narrowband_facility_mfrsr:flag_13_description = "Value is from facility E13" ;
		hemisp_narrowband_facility_mfrsr:flag_41_description = "Value is from facility C1" ;
		hemisp_narrowband_facility_mfrsr:flag_100_description = "Value is the average of the values from E13 and C1" ;
	float be_hemisp_narrowband_mfrsr(time, filter) ;
		be_hemisp_narrowband_mfrsr:long_name = "Best estimate Best measured hemispheric narrowband irradiance from mfrsrC1 and/or mfrsrE13" ;
		be_hemisp_narrowband_mfrsr:units = "W/m^2" ;
		be_hemisp_narrowband_mfrsr:missing_value = -9999.f ;
		be_hemisp_narrowband_mfrsr:comment = "Value is best of hemisp_narrowband_mfrsrC1 and hemisp_narrowband_mfrsrE13.  If both good then value is average of C1 and E13; if both bad or missing value is estimated using be_hemisp_broadband_mfrsr and the average ratio of be_hemisp_narrowband_mfrsr to be_hemisp_broadband_mfrsr of known good points." ;
		be_hemisp_narrowband_mfrsr:ancillary_variables = "qc_be_hemisp_narrowband_mfrsr be_hemisp_narrowband_status_mfrsr hemisp_narrowband_facility_mfrsr" ;
	int qc_be_hemisp_narrowband_mfrsr(time, filter) ;
		qc_be_hemisp_narrowband_mfrsr:long_name = "Quality check results on field: Best estimate Best measured hemispheric narrowband irradiance from mfrsrC1 and/or mfrsrE13" ;
		qc_be_hemisp_narrowband_mfrsr:units = "unitless" ;
		qc_be_hemisp_narrowband_mfrsr:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_hemisp_narrowband_mfrsr:flag_method = "bit" ;
	int be_hemisp_narrowband_status_mfrsr(time, filter) ;
		be_hemisp_narrowband_status_mfrsr:long_name = "Estimation status flag for best estimate best measured hemispheric narrowband irradiance from mfrsrC1 and/or mfrsrE13" ;
		be_hemisp_narrowband_status_mfrsr:units = "unitless" ;
		be_hemisp_narrowband_status_mfrsr:comment = "If value is zero then be_hemisp_narrowband_mfrsr is equal to hemisp_narrowband_mfrsr.  If value greater then zero then be_hemisp_narrowband_mfrsr is estimated.  The value represents the number of samples used to calculate the estimation" ;
	float be_surface_albedo_mfr_broadband_10m(time) ;
		be_surface_albedo_mfr_broadband_10m:long_name = "Best estimate Broadband surface albedo at the 10m tower" ;
		be_surface_albedo_mfr_broadband_10m:units = "unitless" ;
		be_surface_albedo_mfr_broadband_10m:missing_value = -9999.f ;
		be_surface_albedo_mfr_broadband_10m:comment = "Calculated as ratio of be_up_hemisp_broadband_10m to be_hemisp_broadband_mfrsr with bad and missing values replaced with estimated values as described in be_surface_albedo_mfr_broadband_10m_status" ;
		be_surface_albedo_mfr_broadband_10m:ancillary_variables = "qc_be_surface_albedo_mfr_broadband_10m be_surface_albedo_mfr_broadband_10m_status" ;
		be_surface_albedo_mfr_broadband_10m:standard_name = "surface_albedo" ;
	int qc_be_surface_albedo_mfr_broadband_10m(time) ;
		qc_be_surface_albedo_mfr_broadband_10m:long_name = "Quality check results on field: Best estimate Broadband surface albedo at the 10m tower" ;
		qc_be_surface_albedo_mfr_broadband_10m:units = "unitless" ;
		qc_be_surface_albedo_mfr_broadband_10m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_surface_albedo_mfr_broadband_10m:flag_method = "bit" ;
	int be_surface_albedo_mfr_broadband_10m_status(time) ;
		be_surface_albedo_mfr_broadband_10m_status:long_name = "Estimation status flag for Best estimate Broadband surface albedo at the 10m tower" ;
		be_surface_albedo_mfr_broadband_10m_status:units = "unitless" ;
		be_surface_albedo_mfr_broadband_10m_status:flag_values = -3, -2, -1, 1, 2, 3, 4, 5, 6, 7, 8 ;
		be_surface_albedo_mfr_broadband_10m_status:flag_meanings = "cosine_zenith_<_0.15,_be_surface_albedo_mfr_broadband_10m_set_to_missing_value diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_10m_is_surface_albedo_mfr_broadband_10m direct_albedo_condition,_be_surface_albedo_mfr_broadband_10m_is_surface_albedo_mfr_broadband_10m diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_10m_estimated_as_albedo_noon_mean_10m direct_albedo_condition,_be_surface_albedo_mfr_broadband_10m_estimated_using_albedo_clear_offset_10m_and_albedo_clear_slope_10m diffuse_albedo_condition_where_albedo_noon_mean_10m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value direct_albedo_condition_where_albedo_clear_offset_10m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value direct_albedo_condition_where_albedo_noon_mean_10m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value diffuse_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_10m_>_0.05_or_albedo_diff_near_noon_10m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value direct_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_10m_>_0.05_or_albedo_diff_near_noon_10m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value could_not_determine_whether_diffuse_or_direct_condition,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value" ;
		be_surface_albedo_mfr_broadband_10m_status:comment1 = "Flags have values as follows:\n",
			"-3 = cosine zenith < 0.150000, be_surface_albedo_mfr_broadband_10m set to missing_value\n",
			"-2 = diffuse albedo condition, be_surface_albedo_mfr_broadband_10m is surface_albedo_mfr_broadband_10m\n",
			"-1 = direct albedo condition, be_surface_albedo_mfr_broadband_10m is surface_albedo_mfr_broadband_10m\n",
			"1 = diffuse albedo condition, be_surface_albedo_mfr_broadband_10m estimated as albedo_noon_mean_10m\n",
			"2 = direct albedo condition, be_surface_albedo_mfr_broadband_10m estimated using albedo_clear_offset_10m and albedo_clear_slope_10m\n",
			"3 = diffuse albedo condition where albedo_noon_mean_10m missing, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"4 = direct albedo condition where albedo_clear_offset_10m missing, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"5 = direct albedo condition where albedo_noon_mean_10m missing, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"6 = diffuse albedo condition with possible snow melt, albedo_diff_morning_evening_10m > 0.050000 or albedo_diff_near_noon_10m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"7 = direct albedo condition with possible snow melt, albedo_diff_morning_evening_10m > 0.050000 or albedo_diff_near_noon_10m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"8 = could not determine whether diffuse or direct condition, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value" ;
		be_surface_albedo_mfr_broadband_10m_status:comment2 = "Direct albedo refers to conditions when short_direct_normal_beflux1longC1/down_short_hemisp_beflux1longC1 * cosine_solar_zenith_angle_mfr10mC1 >= 15%.  Diffuse albedo refers to conditions when the ratio is < 15%" ;
	float be_surface_albedo_mfr_narrowband_10m(time, filter) ;
		be_surface_albedo_mfr_narrowband_10m:long_name = "Best estimate Narrowband surface albedo at the 10m tower" ;
		be_surface_albedo_mfr_narrowband_10m:units = "unitless" ;
		be_surface_albedo_mfr_narrowband_10m:missing_value = -9999.f ;
		be_surface_albedo_mfr_narrowband_10m:comment = "Calculated as ratio of be_up_hemisp_narrowband_10m to be_hemisp_narrowband_mfrsr with bad and missing values replaced with estimated values as described in be_surface_albedo_mfr_narrowband_10m_status" ;
		be_surface_albedo_mfr_narrowband_10m:ancillary_variables = "qc_be_surface_albedo_mfr_narrowband_10m be_surface_albedo_mfr_narrowband_10m_status" ;
		be_surface_albedo_mfr_narrowband_10m:standard_name = "surface_albedo" ;
	int qc_be_surface_albedo_mfr_narrowband_10m(time, filter) ;
		qc_be_surface_albedo_mfr_narrowband_10m:long_name = "Quality check results on field: Best estimate Narrowband surface albedo at the 10m tower" ;
		qc_be_surface_albedo_mfr_narrowband_10m:units = "unitless" ;
		qc_be_surface_albedo_mfr_narrowband_10m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_surface_albedo_mfr_narrowband_10m:flag_method = "bit" ;
	int be_surface_albedo_mfr_narrowband_10m_status(time, filter) ;
		be_surface_albedo_mfr_narrowband_10m_status:long_name = "Estimation status flag for Best estimate Narrowband surface albedo at the 10m tower" ;
		be_surface_albedo_mfr_narrowband_10m_status:units = "unitless" ;
		be_surface_albedo_mfr_narrowband_10m_status:flag_values = -3, -2, -1, 1, 2, 3, 4, 5, 6, 7, 8 ;
		be_surface_albedo_mfr_narrowband_10m_status:flag_meanings = "cosine_zenith_<_0.15,_be_surface_albedo_mfr_broadband_10m_set_to_missing_value diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_10m_is_surface_albedo_mfr_broadband_10m direct_albedo_condition,_be_surface_albedo_mfr_broadband_10m_is_surface_albedo_mfr_broadband_10m diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_10m_estimated_as_albedo_noon_mean_10m direct_albedo_condition,_be_surface_albedo_mfr_broadband_10m_estimated_using_albedo_clear_offset_10m_and_albedo_clear_slope_10m diffuse_albedo_condition_where_albedo_noon_mean_10m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value direct_albedo_condition_where_albedo_clear_offset_10m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value direct_albedo_condition_where_albedo_noon_mean_10m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value diffuse_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_10m_>_0.05_or_albedo_diff_near_noon_10m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value direct_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_10m_>_0.05_or_albedo_diff_near_noon_10m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value could_not_determine_whether_diffuse_or_direct_condition,_no_estimate_made,_be_surface_albedo_mfr_broadband_10m_equal_to_missing_value" ;
		be_surface_albedo_mfr_narrowband_10m_status:comment1 = "Flags have values as follows:\n",
			"-3 = cosine zenith < 0.150000, be_surface_albedo_mfr_broadband_10m set to missing_value\n",
			"-2 = diffuse albedo condition, be_surface_albedo_mfr_broadband_10m is surface_albedo_mfr_broadband_10m\n",
			"-1 = direct albedo condition, be_surface_albedo_mfr_broadband_10m is surface_albedo_mfr_broadband_10m\n",
			"1 = diffuse albedo condition, be_surface_albedo_mfr_broadband_10m estimated as albedo_noon_mean_10m\n",
			"2 = direct albedo condition, be_surface_albedo_mfr_broadband_10m estimated using albedo_clear_offset_10m and albedo_clear_slope_10m\n",
			"3 = diffuse albedo condition where albedo_noon_mean_10m missing, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"4 = direct albedo condition where albedo_clear_offset_10m missing, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"5 = direct albedo condition where albedo_noon_mean_10m missing, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"6 = diffuse albedo condition with possible snow melt, albedo_diff_morning_evening_10m > 0.050000 or albedo_diff_near_noon_10m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"7 = direct albedo condition with possible snow melt, albedo_diff_morning_evening_10m > 0.050000 or albedo_diff_near_noon_10m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value\n",
			"8 = could not determine whether diffuse or direct condition, no estimate made, be_surface_albedo_mfr_broadband_10m equal to missing_value" ;
		be_surface_albedo_mfr_narrowband_10m_status:comment2 = "Direct albedo refers to conditions when short_direct_normal_beflux1longC1/down_short_hemisp_beflux1longC1 * cosine_solar_zenith_angle_mfr10mC1 >= 15%.  Diffuse albedo refers to conditions when the ratio is < 15%" ;
	float be_surface_albedo_mfr_broadband_25m(time) ;
		be_surface_albedo_mfr_broadband_25m:long_name = "Best estimate Broadband surface albedo at 25m on the 60m tower" ;
		be_surface_albedo_mfr_broadband_25m:units = "unitless" ;
		be_surface_albedo_mfr_broadband_25m:missing_value = -9999.f ;
		be_surface_albedo_mfr_broadband_25m:comment = "Calculated as ratio of be_up_hemisp_broadband_25m to be_hemisp_broadband_mfrsr with bad and missing values replaced with estimated values as described in be_surface_albedo_mfr_broadband_25m_status" ;
		be_surface_albedo_mfr_broadband_25m:ancillary_variables = "qc_be_surface_albedo_mfr_broadband_25m be_surface_albedo_mfr_broadband_25m_status" ;
		be_surface_albedo_mfr_broadband_25m:standard_name = "surface_albedo" ;
	int qc_be_surface_albedo_mfr_broadband_25m(time) ;
		qc_be_surface_albedo_mfr_broadband_25m:long_name = "Quality check results on field: Best estimate Broadband surface albedo at 25m on the 60m tower" ;
		qc_be_surface_albedo_mfr_broadband_25m:units = "unitless" ;
		qc_be_surface_albedo_mfr_broadband_25m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_surface_albedo_mfr_broadband_25m:flag_method = "bit" ;
	int be_surface_albedo_mfr_broadband_25m_status(time) ;
		be_surface_albedo_mfr_broadband_25m_status:long_name = "Estimation status flag for Best estimate Broadband surface albedo at 25m on the 60m tower" ;
		be_surface_albedo_mfr_broadband_25m_status:units = "unitless" ;
		be_surface_albedo_mfr_broadband_25m_status:flag_values = -3, -2, -1, 1, 2, 3, 4, 5, 6, 7, 8 ;
		be_surface_albedo_mfr_broadband_25m_status:flag_meanings = "cosine_zenith_<_0.15,_be_surface_albedo_mfr_broadband_25m_set_to_missing_value diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_25m_is_surface_albedo_mfr_broadband_25m direct_albedo_condition,_be_surface_albedo_mfr_broadband_25m_is_surface_albedo_mfr_broadband_25m diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_25m_estimated_as_albedo_noon_mean_25m direct_albedo_condition,_be_surface_albedo_mfr_broadband_25m_estimated_using_albedo_clear_offset_25m_and_albedo_clear_slope_25m diffuse_albedo_condition_where_albedo_noon_mean_25m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value direct_albedo_condition_where_albedo_clear_offset_25m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value direct_albedo_condition_where_albedo_noon_mean_25m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value diffuse_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_25m_>_0.05_or_albedo_diff_near_noon_25m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value direct_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_25m_>_0.05_or_albedo_diff_near_noon_25m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value could_not_determine_whether_diffuse_or_direct_condition,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value" ;
		be_surface_albedo_mfr_broadband_25m_status:comment1 = "Flags have values as follows:\n",
			"-3 = cosine zenith < 0.150000, be_surface_albedo_mfr_broadband_25m set to missing_value\n",
			"-2 = diffuse albedo condition, be_surface_albedo_mfr_broadband_25m is surface_albedo_mfr_broadband_25m\n",
			"-1 = direct albedo condition, be_surface_albedo_mfr_broadband_25m is surface_albedo_mfr_broadband_25m\n",
			"1 = diffuse albedo condition, be_surface_albedo_mfr_broadband_25m estimated as albedo_noon_mean_25m\n",
			"2 = direct albedo condition, be_surface_albedo_mfr_broadband_25m estimated using albedo_clear_offset_25m and albedo_clear_slope_25m\n",
			"3 = diffuse albedo condition where albedo_noon_mean_25m missing, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"4 = direct albedo condition where albedo_clear_offset_25m missing, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"5 = direct albedo condition where albedo_noon_mean_25m missing, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"6 = diffuse albedo condition with possible snow melt, albedo_diff_morning_evening_25m > 0.050000 or albedo_diff_near_noon_25m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"7 = direct albedo condition with possible snow melt, albedo_diff_morning_evening_25m > 0.050000 or albedo_diff_near_noon_25m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"8 = could not determine whether diffuse or direct condition, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value" ;
		be_surface_albedo_mfr_broadband_25m_status:comment2 = "Direct albedo refers to conditions when short_direct_normal_beflux1longC1/down_short_hemisp_beflux1longC1 * cosine_solar_zenith_angle_mfr25mC1 >= 15%.  Diffuse albedo refers to conditions when the ratio is < 15%" ;
	float be_surface_albedo_mfr_narrowband_25m(time, filter) ;
		be_surface_albedo_mfr_narrowband_25m:long_name = "Best estimate Narrowband surface albedo at 25m on the 60m tower" ;
		be_surface_albedo_mfr_narrowband_25m:units = "unitless" ;
		be_surface_albedo_mfr_narrowband_25m:missing_value = -9999.f ;
		be_surface_albedo_mfr_narrowband_25m:comment = "Calculated as ratio of be_up_hemisp_narrowband_25m to be_hemisp_narrowband_mfrsr with bad and missing values replaced with estimated values as described in be_surface_albedo_mfr_narrowband_25m_status" ;
		be_surface_albedo_mfr_narrowband_25m:ancillary_variables = "qc_be_surface_albedo_mfr_narrowband_25m be_surface_albedo_mfr_narrowband_25m_status" ;
		be_surface_albedo_mfr_narrowband_25m:standard_name = "surface_albedo" ;
	int qc_be_surface_albedo_mfr_narrowband_25m(time, filter) ;
		qc_be_surface_albedo_mfr_narrowband_25m:long_name = "Quality check results on field: Best estimate Narrowband surface albedo at 25m on the 60m tower" ;
		qc_be_surface_albedo_mfr_narrowband_25m:units = "unitless" ;
		qc_be_surface_albedo_mfr_narrowband_25m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_surface_albedo_mfr_narrowband_25m:flag_method = "bit" ;
	int be_surface_albedo_mfr_narrowband_25m_status(time, filter) ;
		be_surface_albedo_mfr_narrowband_25m_status:long_name = "Estimation status flag for Best estimate Narrowband surface albedo at 25m on the 60m tower" ;
		be_surface_albedo_mfr_narrowband_25m_status:units = "unitless" ;
		be_surface_albedo_mfr_narrowband_25m_status:flag_values = -3, -2, -1, 1, 2, 3, 4, 5, 6, 7, 8 ;
		be_surface_albedo_mfr_narrowband_25m_status:flag_meanings = "cosine_zenith_<_0.15,_be_surface_albedo_mfr_broadband_25m_set_to_missing_value diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_25m_is_surface_albedo_mfr_broadband_25m direct_albedo_condition,_be_surface_albedo_mfr_broadband_25m_is_surface_albedo_mfr_broadband_25m diffuse_albedo_condition,_be_surface_albedo_mfr_broadband_25m_estimated_as_albedo_noon_mean_25m direct_albedo_condition,_be_surface_albedo_mfr_broadband_25m_estimated_using_albedo_clear_offset_25m_and_albedo_clear_slope_25m diffuse_albedo_condition_where_albedo_noon_mean_25m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value direct_albedo_condition_where_albedo_clear_offset_25m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value direct_albedo_condition_where_albedo_noon_mean_25m_missing,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value diffuse_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_25m_>_0.05_or_albedo_diff_near_noon_25m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value direct_albedo_condition_with_possible_snow_melt,_albedo_diff_morning_evening_25m_>_0.05_or_albedo_diff_near_noon_25m_>_0.03,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value could_not_determine_whether_diffuse_or_direct_condition,_no_estimate_made,_be_surface_albedo_mfr_broadband_25m_equal_to_missing_value" ;
		be_surface_albedo_mfr_narrowband_25m_status:comment1 = "Flags have values as follows:\n",
			"-3 = cosine zenith < 0.150000, be_surface_albedo_mfr_broadband_25m set to missing_value\n",
			"-2 = diffuse albedo condition, be_surface_albedo_mfr_broadband_25m is surface_albedo_mfr_broadband_25m\n",
			"-1 = direct albedo condition, be_surface_albedo_mfr_broadband_25m is surface_albedo_mfr_broadband_25m\n",
			"1 = diffuse albedo condition, be_surface_albedo_mfr_broadband_25m estimated as albedo_noon_mean_25m\n",
			"2 = direct albedo condition, be_surface_albedo_mfr_broadband_25m estimated using albedo_clear_offset_25m and albedo_clear_slope_25m\n",
			"3 = diffuse albedo condition where albedo_noon_mean_25m missing, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"4 = direct albedo condition where albedo_clear_offset_25m missing, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"5 = direct albedo condition where albedo_noon_mean_25m missing, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"6 = diffuse albedo condition with possible snow melt, albedo_diff_morning_evening_25m > 0.050000 or albedo_diff_near_noon_25m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"7 = direct albedo condition with possible snow melt, albedo_diff_morning_evening_25m > 0.050000 or albedo_diff_near_noon_25m > 0.030000, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value\n",
			"8 = could not determine whether diffuse or direct condition, no estimate made, be_surface_albedo_mfr_broadband_25m equal to missing_value" ;
		be_surface_albedo_mfr_narrowband_25m_status:comment2 = "Direct albedo refers to conditions when short_direct_normal_beflux1longC1/down_short_hemisp_beflux1longC1 * cosine_solar_zenith_angle_mfr25mC1 >= 15%.  Diffuse albedo refers to conditions when the ratio is < 15%" ;
	float be_surface_albedo_psp_broadband_10m(time) ;
		be_surface_albedo_psp_broadband_10m:long_name = "PSP broadband surface albedo at the 10m tower (up_short_hemisp_beflux1longC1/down_short_hemisp_beflux1longC1)" ;
		be_surface_albedo_psp_broadband_10m:units = "unitless" ;
		be_surface_albedo_psp_broadband_10m:missing_value = -9999.f ;
		be_surface_albedo_psp_broadband_10m:valid_min = 0.f ;
		be_surface_albedo_psp_broadband_10m:valid_max = 1.1f ;
		be_surface_albedo_psp_broadband_10m:ancillary_variables = "qc_be_surface_albedo_psp_broadband_10m" ;
		be_surface_albedo_psp_broadband_10m:standard_name = "surface_albedo" ;
	int qc_be_surface_albedo_psp_broadband_10m(time) ;
		qc_be_surface_albedo_psp_broadband_10m:long_name = "Quality check results on field: PSP broadband surface albedo at the 10m tower (up_short_hemisp_beflux1longC1/down_short_hemisp_beflux1longC1)" ;
		qc_be_surface_albedo_psp_broadband_10m:units = "unitless" ;
		qc_be_surface_albedo_psp_broadband_10m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_surface_albedo_psp_broadband_10m:flag_method = "bit" ;
	float be_surface_albedo_psp_broadband_25m(time) ;
		be_surface_albedo_psp_broadband_25m:long_name = "PSP broadband surface albedo at 25m on the 60m tower (up_short_hemisp_irt25mC1/down_short_hemisp_beflux1longC1)" ;
		be_surface_albedo_psp_broadband_25m:units = "unitless" ;
		be_surface_albedo_psp_broadband_25m:missing_value = -9999.f ;
		be_surface_albedo_psp_broadband_25m:valid_min = 0.f ;
		be_surface_albedo_psp_broadband_25m:valid_max = 1.1f ;
		be_surface_albedo_psp_broadband_25m:ancillary_variables = "qc_be_surface_albedo_psp_broadband_25m" ;
		be_surface_albedo_psp_broadband_25m:standard_name = "surface_albedo" ;
	int qc_be_surface_albedo_psp_broadband_25m(time) ;
		qc_be_surface_albedo_psp_broadband_25m:long_name = "Quality check results on field: PSP broadband surface albedo at 25m on the 60m tower (up_short_hemisp_irt25mC1/down_short_hemisp_beflux1longC1)" ;
		qc_be_surface_albedo_psp_broadband_25m:units = "unitless" ;
		qc_be_surface_albedo_psp_broadband_25m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_be_surface_albedo_psp_broadband_25m:flag_method = "bit" ;
	float estimated_spectral_albedo_10m(time, wavenumber) ;
		estimated_spectral_albedo_10m:long_name = "Spectral albedo estimated from mfr albedos using surface type and Mlawer algorithm at 10m tower" ;
		estimated_spectral_albedo_10m:units = "unitless" ;
		estimated_spectral_albedo_10m:missing_value = -9999.f ;
		estimated_spectral_albedo_10m:valid_min = 0.f ;
		estimated_spectral_albedo_10m:valid_max = 1.1f ;
		estimated_spectral_albedo_10m:ancillary_variables = "qc_estimated_spectral_albedo_10m" ;
		estimated_spectral_albedo_10m:standard_name = "surface_albedo" ;
	int qc_estimated_spectral_albedo_10m(time) ;
		qc_estimated_spectral_albedo_10m:long_name = "Quality check results on field: Spectral albedo estimated from mfr albedos using surface type and Mlawer algorithm at 10m tower" ;
		qc_estimated_spectral_albedo_10m:units = "unitless" ;
		qc_estimated_spectral_albedo_10m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_estimated_spectral_albedo_10m:flag_method = "bit" ;
	float estimated_spectral_albedo_25m(time, wavenumber) ;
		estimated_spectral_albedo_25m:long_name = "Spectral albedo estimated from mfr albedos using surface type and Mlawer algorithm at 25m tower" ;
		estimated_spectral_albedo_25m:units = "unitless" ;
		estimated_spectral_albedo_25m:missing_value = -9999.f ;
		estimated_spectral_albedo_25m:valid_min = 0.f ;
		estimated_spectral_albedo_25m:valid_max = 1.1f ;
		estimated_spectral_albedo_25m:ancillary_variables = "qc_estimated_spectral_albedo_25m" ;
		estimated_spectral_albedo_25m:standard_name = "surface_albedo" ;
	int qc_estimated_spectral_albedo_25m(time) ;
		qc_estimated_spectral_albedo_25m:long_name = "Quality check results on field: Spectral albedo estimated from mfr albedos using surface type and Mlawer algorithm at 25m tower" ;
		qc_estimated_spectral_albedo_25m:units = "unitless" ;
		qc_estimated_spectral_albedo_25m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_estimated_spectral_albedo_25m:flag_method = "bit" ;
	float broadband_from_spectral_albedo_10m(time) ;
		broadband_from_spectral_albedo_10m:long_name = "Broadband albedo at 10m tower estimated from integrating spectral albedos weighted by surface flux calculated from CHARTS" ;
		broadband_from_spectral_albedo_10m:units = "unitless" ;
		broadband_from_spectral_albedo_10m:missing_value = -9999.f ;
		broadband_from_spectral_albedo_10m:valid_min = 0.f ;
		broadband_from_spectral_albedo_10m:valid_max = 1.1f ;
		broadband_from_spectral_albedo_10m:comment = "Value is estimated by integrating estimated_spectral_albedo_10m across wavenumbers 3575 to 35085" ;
		broadband_from_spectral_albedo_10m:ancillary_variables = "qc_broadband_from_spectral_albedo_10m" ;
		broadband_from_spectral_albedo_10m:standard_name = "surface_albedo" ;
	int qc_broadband_from_spectral_albedo_10m(time) ;
		qc_broadband_from_spectral_albedo_10m:long_name = "Quality check results on field: Broadband albedo at 10m tower estimated from integrating spectral albedos weighted by surface flux calculated from CHARTS" ;
		qc_broadband_from_spectral_albedo_10m:units = "unitless" ;
		qc_broadband_from_spectral_albedo_10m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_broadband_from_spectral_albedo_10m:flag_method = "bit" ;
	float broadband_from_spectral_albedo_25m(time) ;
		broadband_from_spectral_albedo_25m:long_name = "Broadband albedo at 25m tower estimated from integrating spectral albedos weighted by surface flux calculated from CHARTS" ;
		broadband_from_spectral_albedo_25m:units = "unitless" ;
		broadband_from_spectral_albedo_25m:missing_value = -9999.f ;
		broadband_from_spectral_albedo_25m:valid_min = 0.f ;
		broadband_from_spectral_albedo_25m:valid_max = 1.1f ;
		broadband_from_spectral_albedo_25m:comment = "Value is estimated by integrating estimated_spectral_albedo_25m across wavenumbers 3575 to 35085" ;
		broadband_from_spectral_albedo_25m:ancillary_variables = "qc_broadband_from_spectral_albedo_25m" ;
		broadband_from_spectral_albedo_25m:standard_name = "surface_albedo" ;
	int qc_broadband_from_spectral_albedo_25m(time) ;
		qc_broadband_from_spectral_albedo_25m:long_name = "Quality check results on field: Broadband albedo at 25m tower estimated from integrating spectral albedos weighted by surface flux calculated from CHARTS" ;
		qc_broadband_from_spectral_albedo_25m:units = "unitless" ;
		qc_broadband_from_spectral_albedo_25m:description = "This field contains qc values which should be interpreted as listed:\n",
			"0 = Good: Data exists and passed all qc tests.\n",
			"1 = Indeterminate: Data may be bad, further analysis recommended.\n",
			"2 = Bad: Data has a bad value.\n",
			"3 = Missing: Data is missing." ;
		qc_broadband_from_spectral_albedo_25m:flag_method = "bit" ;
	float surface_type_10m_tower ;
		surface_type_10m_tower:long_name = "Derived surface type under the 10 tower" ;
		surface_type_10m_tower:units = "unitless" ;
		surface_type_10m_tower:missing_value = -9999.f ;
		surface_type_10m_tower:comment = "A value between 0 and 100 indicates % green vegetation,  0 = soil/brown vegetation, 100 = 100% green vegetation, -1 = snow, and -9999 = undefined" ;
	float surface_type_25m_tower ;
		surface_type_25m_tower:long_name = "Derived surface type under the 25 tower" ;
		surface_type_25m_tower:units = "unitless" ;
		surface_type_25m_tower:missing_value = -9999.f ;
		surface_type_25m_tower:comment = "A value between 0 and 100 indicates % green vegetation,  0 = soil/brown vegetation, 100 = 100% green vegetation, -1 = snow, and -9999 = undefined" ;
	float lat ;
		lat:long_name = "North latitude" ;
		lat:units = "degree_N" ;
		lat:valid_min = -90.f ;
		lat:valid_max = 90.f ;
		lat:standard_name = "latitude" ;
	float lon ;
		lon:long_name = "East longitude" ;
		lon:units = "degree_E" ;
		lon:valid_min = -180.f ;
		lon:valid_max = 180.f ;
		lon:standard_name = "longitude" ;
	float alt ;
		alt:long_name = "Altitude above mean sea level" ;
		alt:units = "m" ;
		alt:standard_name = "altitude" ;

// global attributes:
		:command_line = "surfspecalb1mlawer_vap -b 20171024 -e 20171120 -f C1 -s sgp -R -W" ;
		:process_version = "vap-surfspecalb1mlawer-1.2-0.el6" ;
		:dod_version = "surfspecalb1mlawer-c1-1.7" ;
		:data_level = "s1" ;
		:site_id = "sgp" ;
		:facility_id = "C1" ;
		:datastream = "sgpsurfspecalb1mlawerC1.c1" ;
		:averaging_interval = "1 minute" ;
		:platform_id = "surfspecalb1mlawer" ;
		:location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ;
		:authors = "Sally McFarlane" ;
		:input_datastreams = "sgpbeflux1longC1.c1 : 1.1 : 20171119.000000-20171120.000000\n",
			"sgpirt25mC1.b1 : 10.13 : 20171119.000000-20171120.000000\n",
			"sgpmfr10mC1.b1 : 11.11 : 20171119.000000-20171120.000000\n",
			"sgpmfr25mC1.b1 : 11.11 : 20171119.000000-20171120.000000\n",
			"sgpmfrsrC1.b1 : 11.11 : 20171119.000000-20171120.000000\n",
			"sgpmfrsrE13.b1 : 11.11 : 20171119.000000-20171120.000000" ;
		:albedo_noon_mean_10m = 0.2340185f ;
		:albedo_noon_mean_count_10m = 166 ;
		:albedo_noon_mean_415nm_10m = 0.04313917f ;
		:albedo_noon_mean_count_415nm_10m = 165 ;
		:albedo_noon_mean_500nm_10m = 0.07636122f ;
		:albedo_noon_mean_count_500nm_10m = 166 ;
		:albedo_noon_mean_615nm_10m = 0.126125f ;
		:albedo_noon_mean_count_615nm_10m = 166 ;
		:albedo_noon_mean_673nm_10m = 0.144376f ;
		:albedo_noon_mean_count_673nm_10m = 166 ;
		:albedo_noon_mean_870nm_10m = 0.3195402f ;
		:albedo_noon_mean_count_870nm_10m = 166 ;
		:albedo_noon_mean_940nm_10m = 0.3011527f ;
		:albedo_noon_mean_count_940nm_10m = 166 ;
		:min_solar_zenith_angle_10m = 0.1501634f ;
		:albedo_clear_slope_10m = -0.0989127f ;
		:albedo_clear_offset_10m = 0.05508623f ;
		:albedo_clear_count_10m = 273 ;
		:albedo_clear_slope_415nm_10m = -0.01873657f ;
		:albedo_clear_offset_415nm_10m = 0.01400862f ;
		:albedo_clear_count_415nm_10m = 268 ;
		:albedo_clear_slope_500nm_10m = -0.04148782f ;
		:albedo_clear_offset_500nm_10m = 0.02394921f ;
		:albedo_clear_count_500nm_10m = 262 ;
		:albedo_clear_slope_615nm_10m = -0.06600618f ;
		:albedo_clear_offset_615nm_10m = 0.0366893f ;
		:albedo_clear_count_615nm_10m = 259 ;
		:albedo_clear_slope_673nm_10m = -0.06703813f ;
		:albedo_clear_offset_673nm_10m = 0.03607564f ;
		:albedo_clear_count_673nm_10m = 260 ;
		:albedo_clear_slope_870nm_10m = -0.1497102f ;
		:albedo_clear_offset_870nm_10m = 0.07502658f ;
		:albedo_clear_count_870nm_10m = 252 ;
		:albedo_clear_slope_940nm_10m = -0.09161715f ;
		:albedo_clear_offset_940nm_10m = 0.04255307f ;
		:albedo_clear_count_940nm_10m = 198 ;
		:albedo_diff_morning_evening_10m = 0.01964316f ;
		:albedo_diff_near_noon_10m = 0.01014511f ;
		:albedo_noon_mean_25m = 0.2587544f ;
		:albedo_noon_mean_count_25m = 170 ;
		:albedo_noon_mean_415nm_25m = 0.0295907f ;
		:albedo_noon_mean_count_415nm_25m = 165 ;
		:albedo_noon_mean_500nm_25m = 0.04089066f ;
		:albedo_noon_mean_count_500nm_25m = 168 ;
		:albedo_noon_mean_615nm_25m = 0.06579583f ;
		:albedo_noon_mean_count_615nm_25m = 170 ;
		:albedo_noon_mean_673nm_25m = 0.06058042f ;
		:albedo_noon_mean_count_673nm_25m = 170 ;
		:albedo_noon_mean_870nm_25m = 0.4173308f ;
		:albedo_noon_mean_count_870nm_25m = 170 ;
		:albedo_noon_mean_940nm_25m = 0.3932399f ;
		:albedo_noon_mean_count_940nm_25m = 170 ;
		:min_solar_zenith_angle_25m = 0.1501634f ;
		:albedo_clear_slope_25m = -0.1920253f ;
		:albedo_clear_offset_25m = 0.126148f ;
		:albedo_clear_count_25m = 235 ;
		:albedo_clear_slope_415nm_25m = -0.01552079f ;
		:albedo_clear_offset_415nm_25m = 0.01867646f ;
		:albedo_clear_count_415nm_25m = 229 ;
		:albedo_clear_slope_500nm_25m = -0.04030322f ;
		:albedo_clear_offset_500nm_25m = 0.03117623f ;
		:albedo_clear_count_500nm_25m = 217 ;
		:albedo_clear_slope_615nm_25m = -0.06626673f ;
		:albedo_clear_offset_615nm_25m = 0.04617173f ;
		:albedo_clear_count_615nm_25m = 213 ;
		:albedo_clear_slope_673nm_25m = -0.05884409f ;
		:albedo_clear_offset_673nm_25m = 0.04167429f ;
		:albedo_clear_count_673nm_25m = 215 ;
		:albedo_clear_slope_870nm_25m = -0.2947875f ;
		:albedo_clear_offset_870nm_25m = 0.1848984f ;
		:albedo_clear_count_870nm_25m = 200 ;
		:albedo_clear_slope_940nm_25m = 1.186828f ;
		:albedo_clear_offset_940nm_25m = -0.5942683f ;
		:albedo_clear_count_940nm_25m = 154 ;
		:albedo_diff_morning_evening_25m = 0.07817861f ;
		:albedo_diff_near_noon_25m = 0.03391713f ;
		:albedo_noon_mean_comment = "The average albedo over a period from one hour before to one hour after solar noon." ;
		:albedo_noon_mean_count_comment = "The number of samples used to find the albedo_noon_mean values." ;
		:min_solar_zenith_angle = "The smallest solar zenith angle greater than 0.15 that occurs in the day." ;
		:albedo_clear_slope_comment = "The slope of the line formed by plotting surface_albedo_mfr_broadband for the appropriate tower and bandwidth against cosine_solar_zenith_angle of the appropriate tower." ;
		:albedo_clear_offset_comment = "The offset of the line formed by plotting surface_albedo_mfr_broadband for the appropriate tower and bandwidth against cosine_solar_zenith_angle of the appropriate tower." ;
		:albedo_diff_morning_evening_comment = "Difference between the albedo for a short period just after sunrise to a short period just before sunset. Length of period included in average is defined as 20 to 30% of noon solar zenith angle value." ;
		:albedo_diff_near_noon = "Difference between the albedo for a short period just before solar noon to a short period just after solar noon. Length of period included in average is defined as 65 to 80% of noon solar zenith angle value." ;
		:surface_type_10m = "36.241195_VEGETATION" ;
		:surface_type_25m = "1.00_VEGETATION" ;
		:Conventions = "ARM-1.1" ;
		:doi = "10.5439/1095394" ;
		:history = "created by user dsmgr on machine ruby at 22-Nov-2017,21:30:17" ;
}