Attributes { HDF_GLOBAL { String HDFEOSVersion "HDFEOS_V2.18"; String identifier_product_doi "10.5067/UBENJB9D3T2H"; String identifier_product_doi_authority "http://dx.doi.org/"; } CoreMetadata { INVENTORYMETADATA { String GROUPTYPE "MASTERGROUP"; ECSDATAGRANULE { LOCALGRANULEID { Int32 NUM_VAL 1; String VALUE "AIRS.2023.10.01.L3.RetStd_IR031.v7.0.7.0.G23307150525.hdf"; } PRODUCTIONDATETIME { Int32 NUM_VAL 1; String VALUE "2023-11-03T19:05:25.000Z"; } LOCALVERSIONID { Int32 NUM_VAL 1; String VALUE "Unspecified"; } } MEASUREDPARAMETER { MEASUREDPARAMETERCONTAINER { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17"; QAFLAGS { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17"; AUTOMATICQUALITYFLAGEXPLANATION { Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17"; String VALUE "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known.", "Based on percentage of product that is good. Suspect used where true quality is not known."; } AUTOMATICQUALITYFLAG { Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17"; String VALUE "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed", "Passed"; } } QASTATS { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17"; QAPERCENTMISSINGDATA { Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17"; Int32 VALUE 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0; } } PARAMETERNAME { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17"; Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String VALUE "Surface Skin Temperature", "Surface Air Temperature", "Atmospheric Temperature", "Water Vapor Mass Mixing Ratio", "Total Precipitable Water Vapor", "Ozone Volume Mixing Ratio", "Total Ozone Burden", "Spectral IR Surface Emissivities", "Spectral IR Surf Bidirect Reflectivity", "MW Surface Brightness", "MW Emissivity", "Total Cloud Water", "Cloud Top Temperature", "Cloud Top Pressure", "Effective Cloud Fraction", "Geopotential Heights", "Geopotential Height of Surface"; } } } COLLECTIONDESCRIPTIONCLASS { VERSIONID { Int32 NUM_VAL 1; String VALUE "7.0"; } SHORTNAME { Int32 NUM_VAL 1; String VALUE "AIRS3STM"; } } INPUTGRANULE { INPUTPOINTER { Int32 NUM_VAL 50; String VALUE "L3h.land_sea_mask_1x1.v2.0.0.anc", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.01.L3.RetStd_IR001.v7.0.7.0.G23275152326.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.02.L3.RetStd_IR001.v7.0.7.0.G23276152600.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.03.L3.RetStd_IR001.v7.0.7.0.G23279225056.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.04.L3.RetStd_IR001.v7.0.7.0.G23279225220.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.05.L3.RetStd_IR001.v7.0.7.0.G23279172401.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.06.L3.RetStd_IR001.v7.0.7.0.G23283233358.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.07.L3.RetStd_IR001.v7.0.7.0.G23283233339.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.08.L3.RetStd_IR001.v7.0.7.0.G23282151737.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.09.L3.RetStd_IR001.v7.0.7.0.G23285145006.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.10.L3.RetStd_IR001.v7.0.7.0.G23285113013.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.11.L3.RetStd_IR001.v7.0.7.0.G23285153927.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.12.L3.RetStd_IR001.v7.0.7.0.G23286151911.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.13.L3.RetStd_IR001.v7.0.7.0.G23287152743.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.14.L3.RetStd_IR001.v7.0.7.0.G23289114131.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.15.L3.RetStd_IR001.v7.0.7.0.G23291094058.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.16.L3.RetStd_IR001.v7.0.7.0.G23291202232.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.17.L3.RetStd_IR001.v7.0.7.0.G23291202303.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.18.L3.RetStd_IR001.v7.0.7.0.G23294195509.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.19.L3.RetStd_IR001.v7.0.7.0.G23294195531.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.20.L3.RetStd_IR001.v7.0.7.0.G23296162825.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.21.L3.RetStd_IR001.v7.0.7.0.G23296160548.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.22.L3.RetStd_IR001.v7.0.7.0.G23296161403.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.23.L3.RetStd_IR001.v7.0.7.0.G23297175311.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.24.L3.RetStd_IR001.v7.0.7.0.G23302111026.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.25.L3.RetStd_IR001.v7.0.7.0.G23303072706.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.26.L3.RetStd_IR001.v7.0.7.0.G23303072844.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.27.L3.RetStd_IR001.v7.0.7.0.G23301160636.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.28.L3.RetStd_IR001.v7.0.7.0.G23303113446.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.29.L3.RetStd_IR001.v7.0.7.0.G23303155704.hdf", " sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.30.L3.RetStd_IR001.v7.0.7.0.G23305220426.hdf", "sftp://acdisc-local/ftp/data/s4pa/Aqua_AIRS_Level3/AIRS3STD.7.0/2023//AIRS.2023.10.31.L3.RetStd_IR001.v7.0.7.0.G23305222546.hdf"; } } SPATIALDOMAINCONTAINER { HORIZONTALSPATIALDOMAINCONTAINER { BOUNDINGRECTANGLE { EASTBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE 180.0; } WESTBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE -180.0; } SOUTHBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE -90.0; } NORTHBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE 90.0; } } } GRANULELOCALITY { LOCALITYVALUE { Int32 NUM_VAL 1; String VALUE "Global"; } } } RANGEDATETIME { RANGEENDINGDATE { Int32 NUM_VAL 1; String VALUE "2023-11-01"; } RANGEENDINGTIME { Int32 NUM_VAL 1; String VALUE "00:00:00.000000Z"; } RANGEBEGINNINGDATE { Int32 NUM_VAL 1; String VALUE "2023-10-01"; } RANGEBEGINNINGTIME { Int32 NUM_VAL 1; String VALUE "00:00:00.000000Z"; } } PGEVERSIONCLASS { PGEVERSION { Int32 NUM_VAL 1; String VALUE "7.0.7.0"; } } ASSOCIATEDPLATFORMINSTRUMENTSENSOR { ASSOCIATEDPLATFORMINSTRUMENTSENSORCONTAINER { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "40", "41"; ASSOCIATEDSENSORSHORTNAME { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "40", "41"; Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String VALUE "HSB Channel 1", "HSB Channel 2", "HSB Channel 3", "HSB Channel 4", "HSB Channel 5", "AMSU-A Channel 3", "AMSU-A Channel 4", "AMSU-A Channel 5", "AMSU-A Channel 6", "AMSU-A Channel 7", "AMSU-A Channel 8", "AMSU-A Channel 9", "AMSU-A Channel 10", "AMSU-A Channel 11", "AMSU-A Channel 12", "AMSU-A Channel 13", "AMSU-A Channel 14", "AMSU-A Channel 15", "AMSU-A Channel 1", "AMSU-A Channel 2", "M1a Detector Array", "M1b Detector Array", "M2a Detector Array", "M2b Detector Array", "M3 Detector Array", "M4a Detector Array", "M4b Detector Array", "M4c Detector Array", "M4d Detector Array", "M5 Detector Array", "M6 Detector Array", "M7 Detector Array", "M8 Detector Array", "M9 Detector Array", "M10 Detector Array", "M11 Detector Array", "M12 Detector Array", "VNIR Channel 1", "VNIR Channel 2", "VNIR Channel 3", "VNIR Channel 4"; } ASSOCIATEDPLATFORMSHORTNAME { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "40", "41"; Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String VALUE "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua", "Aqua"; } OPERATIONMODE { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "40", "41"; Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String VALUE "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal", "Normal"; } ASSOCIATEDINSTRUMENTSHORTNAME { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16", "17", "18", "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36", "37", "38", "39", "40", "41"; Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String VALUE "HSB", "HSB", "HSB", "HSB", "HSB", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AMSU-A", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS", "AIRS"; } } } ADDITIONALATTRIBUTES { ADDITIONALATTRIBUTESCONTAINER { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15"; ADDITIONALATTRIBUTENAME { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15"; Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String VALUE "NumBadData", "NumSpecialData", "NumProcessData", "NumMissingData", "NumTotalData", "NumFpe", "ProductGenerationFacility", "InputGranuleCount", "NumDaysPlanned", "NumDaysInCycle", "StartDayInAquaRepeat", "AIRSRunTag", "ProductGenerationHostInformation", "identifier_product_doi", "identifier_product_doi_authority"; } INFORMATIONCONTENT { String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15"; PARAMETERVALUE { Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String CLASS "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15"; String VALUE "121224", "0", "86311176", "0", "86432400", "0", "G", "31", "31", "31", "12", "23307150525", "gs6102dsc-ac27 Linux 4.18.0-477.27.1.el8_8.x86_64 #1_SMP_Thu_Aug_31_10:29:22_EDT_2023 x86_64", "10.5067/UBENJB9D3T2H", "http://dx.doi.org/"; } } } } } } ascending { Float32 _FV_TotalCounts_A -9999.000000; Float32 _FV_SurfPres_Forecast_A -9999.000000; Float32 _FV_SurfPres_Forecast_A_ct -9999.000000; Float32 _FV_SurfPres_Forecast_A_sdev -9999.000000; Float32 _FV_SurfSkinTemp_A -9999.000000; Float32 _FV_SurfSkinTemp_A_ct -9999.000000; Float32 _FV_SurfSkinTemp_A_sdev -9999.000000; Float32 _FV_EmisIR_A -9999.000000; Float32 _FV_EmisIR_A_ct -9999.000000; Float32 _FV_EmisIR_A_sdev -9999.000000; Float32 _FV_Temperature_A -9999.000000; Float32 _FV_Temperature_A_ct -9999.000000; Float32 _FV_Temperature_A_sdev -9999.000000; Float32 _FV_SurfAirTemp_A -9999.000000; Float32 _FV_SurfAirTemp_A_ct -9999.000000; Float32 _FV_SurfAirTemp_A_sdev -9999.000000; Float32 _FV_TropPres_A -9999.000000; Float32 _FV_TropPres_A_ct -9999.000000; Float32 _FV_TropPres_A_sdev -9999.000000; Float32 _FV_TropTemp_A -9999.000000; Float32 _FV_TropTemp_A_ct -9999.000000; Float32 _FV_TropTemp_A_sdev -9999.000000; Float32 _FV_TotH2OVap_A -9999.000000; Float32 _FV_TotH2OVap_A_ct -9999.000000; Float32 _FV_TotH2OVap_A_sdev -9999.000000; Float32 _FV_H2O_MMR_Lyr_A -9999.000000; Float32 _FV_H2O_MMR_Lyr_A_ct -9999.000000; Float32 _FV_H2O_MMR_Lyr_A_sdev -9999.000000; Float32 _FV_H2O_MMR_A -9999.000000; Float32 _FV_H2O_MMR_A_ct -9999.000000; Float32 _FV_H2O_MMR_A_sdev -9999.000000; Float32 _FV_H2O_MMR_Surf_A -9999.000000; Float32 _FV_H2O_MMR_Surf_A_ct -9999.000000; Float32 _FV_H2O_MMR_Surf_A_sdev -9999.000000; Float32 _FV_RelHum_A -9999.000000; Float32 _FV_RelHum_A_ct -9999.000000; Float32 _FV_RelHum_A_sdev -9999.000000; Float32 _FV_RelHumSurf_A -9999.000000; Float32 _FV_RelHumSurf_A_ct -9999.000000; Float32 _FV_RelHumSurf_A_sdev -9999.000000; Float32 _FV_RelHum_liquid_A -9999.000000; Float32 _FV_RelHum_liquid_A_ct -9999.000000; Float32 _FV_RelHum_liquid_A_sdev -9999.000000; Float32 _FV_RelHumSurf_liquid_A -9999.000000; Float32 _FV_RelHumSurf_liquid_A_ct -9999.000000; Float32 _FV_RelHumSurf_liquid_A_sdev -9999.000000; Float32 _FV_TropHeight_A -9999.000000; Float32 _FV_TropHeight_A_ct -9999.000000; Float32 _FV_TropHeight_A_sdev -9999.000000; Float32 _FV_GPHeight_A -9999.000000; Float32 _FV_GPHeight_A_ct -9999.000000; Float32 _FV_GPHeight_A_sdev -9999.000000; Float32 _FV_CloudFrc_A -9999.000000; Float32 _FV_CloudFrc_A_ct -9999.000000; Float32 _FV_CloudFrc_A_sdev -9999.000000; Float32 _FV_CloudTopPres_A -9999.000000; Float32 _FV_CloudTopPres_A_ct -9999.000000; Float32 _FV_CloudTopPres_A_sdev -9999.000000; Float32 _FV_CloudTopTemp_A -9999.000000; Float32 _FV_CloudTopTemp_A_ct -9999.000000; Float32 _FV_CloudTopTemp_A_sdev -9999.000000; Float32 _FV_FineCloudFrc_A -9999.000000; Float32 _FV_FineCloudFrc_A_ct -9999.000000; Float32 _FV_FineCloudFrc_A_sdev -9999.000000; Float32 _FV_CoarseCloudFrc_A -9999.000000; Float32 _FV_CoarseCloudFrc_A_ct -9999.000000; Float32 _FV_CoarseCloudFrc_A_sdev -9999.000000; Float32 _FV_CoarseCloudPres_A -9999.000000; Float32 _FV_CoarseCloudPres_A_ct -9999.000000; Float32 _FV_CoarseCloudPres_A_sdev -9999.000000; Float32 _FV_CoarseCloudTemp_A -9999.000000; Float32 _FV_CoarseCloudTemp_A_ct -9999.000000; Float32 _FV_CoarseCloudTemp_A_sdev -9999.000000; Float32 _FV_TotO3_A -9999.000000; Float32 _FV_TotO3_A_ct -9999.000000; Float32 _FV_TotO3_A_sdev -9999.000000; Float32 _FV_O3_VMR_A -9999.000000; Float32 _FV_O3_VMR_A_ct -9999.000000; Float32 _FV_O3_VMR_A_sdev -9999.000000; Float32 _FV_CO_VMR_A -9999.000000; Float32 _FV_CO_VMR_A_ct -9999.000000; Float32 _FV_CO_VMR_A_sdev -9999.000000; Float32 _FV_CH4_VMR_A -9999.000000; Float32 _FV_CH4_VMR_A_ct -9999.000000; Float32 _FV_CH4_VMR_A_sdev -9999.000000; Float32 _FV_OLR_A -9999.000000; Float32 _FV_OLR_A_ct -9999.000000; Float32 _FV_OLR_A_sdev -9999.000000; Float32 _FV_ClrOLR_A -9999.000000; Float32 _FV_ClrOLR_A_ct -9999.000000; Float32 _FV_ClrOLR_A_sdev -9999.000000; } descending { Float32 _FV_TotalCounts_D -9999.000000; Float32 _FV_SurfPres_Forecast_D -9999.000000; Float32 _FV_SurfPres_Forecast_D_ct -9999.000000; Float32 _FV_SurfPres_Forecast_D_sdev -9999.000000; Float32 _FV_SurfSkinTemp_D -9999.000000; Float32 _FV_SurfSkinTemp_D_ct -9999.000000; Float32 _FV_SurfSkinTemp_D_sdev -9999.000000; Float32 _FV_EmisIR_D -9999.000000; Float32 _FV_EmisIR_D_ct -9999.000000; Float32 _FV_EmisIR_D_sdev -9999.000000; Float32 _FV_Temperature_D -9999.000000; Float32 _FV_Temperature_D_ct -9999.000000; Float32 _FV_Temperature_D_sdev -9999.000000; Float32 _FV_SurfAirTemp_D -9999.000000; Float32 _FV_SurfAirTemp_D_ct -9999.000000; Float32 _FV_SurfAirTemp_D_sdev -9999.000000; Float32 _FV_TropPres_D -9999.000000; Float32 _FV_TropPres_D_ct -9999.000000; Float32 _FV_TropPres_D_sdev -9999.000000; Float32 _FV_TropTemp_D -9999.000000; Float32 _FV_TropTemp_D_ct -9999.000000; Float32 _FV_TropTemp_D_sdev -9999.000000; Float32 _FV_TotH2OVap_D -9999.000000; Float32 _FV_TotH2OVap_D_ct -9999.000000; Float32 _FV_TotH2OVap_D_sdev -9999.000000; Float32 _FV_H2O_MMR_Lyr_D -9999.000000; Float32 _FV_H2O_MMR_Lyr_D_ct -9999.000000; Float32 _FV_H2O_MMR_Lyr_D_sdev -9999.000000; Float32 _FV_H2O_MMR_D -9999.000000; Float32 _FV_H2O_MMR_D_ct -9999.000000; Float32 _FV_H2O_MMR_D_sdev -9999.000000; Float32 _FV_H2O_MMR_Surf_D -9999.000000; Float32 _FV_H2O_MMR_Surf_D_ct -9999.000000; Float32 _FV_H2O_MMR_Surf_D_sdev -9999.000000; Float32 _FV_RelHum_D -9999.000000; Float32 _FV_RelHum_D_ct -9999.000000; Float32 _FV_RelHum_D_sdev -9999.000000; Float32 _FV_RelHumSurf_D -9999.000000; Float32 _FV_RelHumSurf_D_ct -9999.000000; Float32 _FV_RelHumSurf_D_sdev -9999.000000; Float32 _FV_RelHum_liquid_D -9999.000000; Float32 _FV_RelHum_liquid_D_ct -9999.000000; Float32 _FV_RelHum_liquid_D_sdev -9999.000000; Float32 _FV_RelHumSurf_liquid_D -9999.000000; Float32 _FV_RelHumSurf_liquid_D_ct -9999.000000; Float32 _FV_RelHumSurf_liquid_D_sdev -9999.000000; Float32 _FV_TropHeight_D -9999.000000; Float32 _FV_TropHeight_D_ct -9999.000000; Float32 _FV_TropHeight_D_sdev -9999.000000; Float32 _FV_GPHeight_D -9999.000000; Float32 _FV_GPHeight_D_ct -9999.000000; Float32 _FV_GPHeight_D_sdev -9999.000000; Float32 _FV_CloudFrc_D -9999.000000; Float32 _FV_CloudFrc_D_ct -9999.000000; Float32 _FV_CloudFrc_D_sdev -9999.000000; Float32 _FV_CloudTopPres_D -9999.000000; Float32 _FV_CloudTopPres_D_ct -9999.000000; Float32 _FV_CloudTopPres_D_sdev -9999.000000; Float32 _FV_CloudTopTemp_D -9999.000000; Float32 _FV_CloudTopTemp_D_ct -9999.000000; Float32 _FV_CloudTopTemp_D_sdev -9999.000000; Float32 _FV_FineCloudFrc_D -9999.000000; Float32 _FV_FineCloudFrc_D_ct -9999.000000; Float32 _FV_FineCloudFrc_D_sdev -9999.000000; Float32 _FV_CoarseCloudFrc_D -9999.000000; Float32 _FV_CoarseCloudFrc_D_ct -9999.000000; Float32 _FV_CoarseCloudFrc_D_sdev -9999.000000; Float32 _FV_CoarseCloudPres_D -9999.000000; Float32 _FV_CoarseCloudPres_D_ct -9999.000000; Float32 _FV_CoarseCloudPres_D_sdev -9999.000000; Float32 _FV_CoarseCloudTemp_D -9999.000000; Float32 _FV_CoarseCloudTemp_D_ct -9999.000000; Float32 _FV_CoarseCloudTemp_D_sdev -9999.000000; Float32 _FV_TotO3_D -9999.000000; Float32 _FV_TotO3_D_ct -9999.000000; Float32 _FV_TotO3_D_sdev -9999.000000; Float32 _FV_O3_VMR_D -9999.000000; Float32 _FV_O3_VMR_D_ct -9999.000000; Float32 _FV_O3_VMR_D_sdev -9999.000000; Float32 _FV_CO_VMR_D -9999.000000; Float32 _FV_CO_VMR_D_ct -9999.000000; Float32 _FV_CO_VMR_D_sdev -9999.000000; Float32 _FV_CH4_VMR_D -9999.000000; Float32 _FV_CH4_VMR_D_ct -9999.000000; Float32 _FV_CH4_VMR_D_sdev -9999.000000; Float32 _FV_OLR_D -9999.000000; Float32 _FV_OLR_D_ct -9999.000000; Float32 _FV_OLR_D_sdev -9999.000000; Float32 _FV_ClrOLR_D -9999.000000; Float32 _FV_ClrOLR_D_ct -9999.000000; Float32 _FV_ClrOLR_D_sdev -9999.000000; } ascending_TqJoint { Float32 _FV_TotalCounts_TqJ_A -9999.000000; Float32 _FV_SurfPres_Forecast_TqJ_A -9999.000000; Float32 _FV_SurfPres_Forecast_TqJ_A_ct -9999.000000; Float32 _FV_SurfPres_Forecast_TqJ_A_sdev -9999.000000; Float32 _FV_SurfSkinTemp_TqJ_A -9999.000000; Float32 _FV_SurfSkinTemp_TqJ_A_ct -9999.000000; Float32 _FV_SurfSkinTemp_TqJ_A_sdev -9999.000000; Float32 _FV_EmisIR_TqJ_A -9999.000000; Float32 _FV_EmisIR_TqJ_A_ct -9999.000000; Float32 _FV_EmisIR_TqJ_A_sdev -9999.000000; Float32 _FV_Temperature_TqJ_A -9999.000000; Float32 _FV_Temperature_TqJ_A_ct -9999.000000; Float32 _FV_Temperature_TqJ_A_sdev -9999.000000; Float32 _FV_SurfAirTemp_TqJ_A -9999.000000; Float32 _FV_SurfAirTemp_TqJ_A_ct -9999.000000; Float32 _FV_SurfAirTemp_TqJ_A_sdev -9999.000000; Float32 _FV_TropPres_TqJ_A -9999.000000; Float32 _FV_TropPres_TqJ_A_ct -9999.000000; Float32 _FV_TropPres_TqJ_A_sdev -9999.000000; Float32 _FV_TropTemp_TqJ_A -9999.000000; Float32 _FV_TropTemp_TqJ_A_ct -9999.000000; Float32 _FV_TropTemp_TqJ_A_sdev -9999.000000; Float32 _FV_TotH2OVap_TqJ_A -9999.000000; Float32 _FV_TotH2OVap_TqJ_A_ct -9999.000000; Float32 _FV_TotH2OVap_TqJ_A_sdev -9999.000000; Float32 _FV_H2O_MMR_Lyr_TqJ_A -9999.000000; Float32 _FV_H2O_MMR_Lyr_TqJ_A_ct -9999.000000; Float32 _FV_H2O_MMR_Lyr_TqJ_A_sdev -9999.000000; Float32 _FV_H2O_MMR_TqJ_A -9999.000000; Float32 _FV_H2O_MMR_TqJ_A_ct -9999.000000; Float32 _FV_H2O_MMR_TqJ_A_sdev -9999.000000; Float32 _FV_H2O_MMR_Surf_TqJ_A -9999.000000; Float32 _FV_H2O_MMR_Surf_TqJ_A_ct -9999.000000; Float32 _FV_H2O_MMR_Surf_TqJ_A_sdev -9999.000000; Float32 _FV_RelHum_TqJ_A -9999.000000; Float32 _FV_RelHum_TqJ_A_ct -9999.000000; Float32 _FV_RelHum_TqJ_A_sdev -9999.000000; Float32 _FV_RelHumSurf_TqJ_A -9999.000000; Float32 _FV_RelHumSurf_TqJ_A_ct -9999.000000; Float32 _FV_RelHumSurf_TqJ_A_sdev -9999.000000; Float32 _FV_RelHum_liquid_TqJ_A -9999.000000; Float32 _FV_RelHum_liquid_TqJ_A_ct -9999.000000; Float32 _FV_RelHum_liquid_TqJ_A_sdev -9999.000000; Float32 _FV_RelHumSurf_liquid_TqJ_A -9999.000000; Float32 _FV_RelHumSurf_liquid_TqJ_A_ct -9999.000000; Float32 _FV_RelHumSurf_liquid_TqJ_A_sdev -9999.000000; Float32 _FV_TropHeight_TqJ_A -9999.000000; Float32 _FV_TropHeight_TqJ_A_ct -9999.000000; Float32 _FV_TropHeight_TqJ_A_sdev -9999.000000; Float32 _FV_GPHeight_TqJ_A -9999.000000; Float32 _FV_GPHeight_TqJ_A_ct -9999.000000; Float32 _FV_GPHeight_TqJ_A_sdev -9999.000000; Float32 _FV_CloudFrc_TqJ_A -9999.000000; Float32 _FV_CloudFrc_TqJ_A_ct -9999.000000; Float32 _FV_CloudFrc_TqJ_A_sdev -9999.000000; Float32 _FV_CloudTopPres_TqJ_A -9999.000000; Float32 _FV_CloudTopPres_TqJ_A_ct -9999.000000; Float32 _FV_CloudTopPres_TqJ_A_sdev -9999.000000; Float32 _FV_CloudTopTemp_TqJ_A -9999.000000; Float32 _FV_CloudTopTemp_TqJ_A_ct -9999.000000; Float32 _FV_CloudTopTemp_TqJ_A_sdev -9999.000000; Float32 _FV_FineCloudFrc_TqJ_A -9999.000000; Float32 _FV_FineCloudFrc_TqJ_A_ct -9999.000000; Float32 _FV_FineCloudFrc_TqJ_A_sdev -9999.000000; Float32 _FV_CoarseCloudFrc_TqJ_A -9999.000000; Float32 _FV_CoarseCloudFrc_TqJ_A_ct -9999.000000; Float32 _FV_CoarseCloudFrc_TqJ_A_sdev -9999.000000; Float32 _FV_CoarseCloudPres_TqJ_A -9999.000000; Float32 _FV_CoarseCloudPres_TqJ_A_ct -9999.000000; Float32 _FV_CoarseCloudPres_TqJ_A_sdev -9999.000000; Float32 _FV_CoarseCloudTemp_TqJ_A -9999.000000; Float32 _FV_CoarseCloudTemp_TqJ_A_ct -9999.000000; Float32 _FV_CoarseCloudTemp_TqJ_A_sdev -9999.000000; Float32 _FV_TotO3_TqJ_A -9999.000000; Float32 _FV_TotO3_TqJ_A_ct -9999.000000; Float32 _FV_TotO3_TqJ_A_sdev -9999.000000; Float32 _FV_O3_VMR_TqJ_A -9999.000000; Float32 _FV_O3_VMR_TqJ_A_ct -9999.000000; Float32 _FV_O3_VMR_TqJ_A_sdev -9999.000000; Float32 _FV_CO_VMR_TqJ_A -9999.000000; Float32 _FV_CO_VMR_TqJ_A_ct -9999.000000; Float32 _FV_CO_VMR_TqJ_A_sdev -9999.000000; Float32 _FV_CH4_VMR_TqJ_A -9999.000000; Float32 _FV_CH4_VMR_TqJ_A_ct -9999.000000; Float32 _FV_CH4_VMR_TqJ_A_sdev -9999.000000; Float32 _FV_OLR_TqJ_A -9999.000000; Float32 _FV_OLR_TqJ_A_ct -9999.000000; Float32 _FV_OLR_TqJ_A_sdev -9999.000000; Float32 _FV_ClrOLR_TqJ_A -9999.000000; Float32 _FV_ClrOLR_TqJ_A_ct -9999.000000; Float32 _FV_ClrOLR_TqJ_A_sdev -9999.000000; } descending_TqJoint { Float32 _FV_TotalCounts_TqJ_D -9999.000000; Float32 _FV_SurfPres_Forecast_TqJ_D -9999.000000; Float32 _FV_SurfPres_Forecast_TqJ_D_ct -9999.000000; Float32 _FV_SurfPres_Forecast_TqJ_D_sdev -9999.000000; Float32 _FV_SurfSkinTemp_TqJ_D -9999.000000; Float32 _FV_SurfSkinTemp_TqJ_D_ct -9999.000000; Float32 _FV_SurfSkinTemp_TqJ_D_sdev -9999.000000; Float32 _FV_EmisIR_TqJ_D -9999.000000; Float32 _FV_EmisIR_TqJ_D_ct -9999.000000; Float32 _FV_EmisIR_TqJ_D_sdev -9999.000000; Float32 _FV_Temperature_TqJ_D -9999.000000; Float32 _FV_Temperature_TqJ_D_ct -9999.000000; Float32 _FV_Temperature_TqJ_D_sdev -9999.000000; Float32 _FV_SurfAirTemp_TqJ_D -9999.000000; Float32 _FV_SurfAirTemp_TqJ_D_ct -9999.000000; Float32 _FV_SurfAirTemp_TqJ_D_sdev -9999.000000; Float32 _FV_TropPres_TqJ_D -9999.000000; Float32 _FV_TropPres_TqJ_D_ct -9999.000000; Float32 _FV_TropPres_TqJ_D_sdev -9999.000000; Float32 _FV_TropTemp_TqJ_D -9999.000000; Float32 _FV_TropTemp_TqJ_D_ct -9999.000000; Float32 _FV_TropTemp_TqJ_D_sdev -9999.000000; Float32 _FV_TotH2OVap_TqJ_D -9999.000000; Float32 _FV_TotH2OVap_TqJ_D_ct -9999.000000; Float32 _FV_TotH2OVap_TqJ_D_sdev -9999.000000; Float32 _FV_H2O_MMR_Lyr_TqJ_D -9999.000000; Float32 _FV_H2O_MMR_Lyr_TqJ_D_ct -9999.000000; Float32 _FV_H2O_MMR_Lyr_TqJ_D_sdev -9999.000000; Float32 _FV_H2O_MMR_TqJ_D -9999.000000; Float32 _FV_H2O_MMR_TqJ_D_ct -9999.000000; Float32 _FV_H2O_MMR_TqJ_D_sdev -9999.000000; Float32 _FV_H2O_MMR_Surf_TqJ_D -9999.000000; Float32 _FV_H2O_MMR_Surf_TqJ_D_ct -9999.000000; Float32 _FV_H2O_MMR_Surf_TqJ_D_sdev -9999.000000; Float32 _FV_RelHum_TqJ_D -9999.000000; Float32 _FV_RelHum_TqJ_D_ct -9999.000000; Float32 _FV_RelHum_TqJ_D_sdev -9999.000000; Float32 _FV_RelHumSurf_TqJ_D -9999.000000; Float32 _FV_RelHumSurf_TqJ_D_ct -9999.000000; Float32 _FV_RelHumSurf_TqJ_D_sdev -9999.000000; Float32 _FV_RelHum_liquid_TqJ_D -9999.000000; Float32 _FV_RelHum_liquid_TqJ_D_ct -9999.000000; Float32 _FV_RelHum_liquid_TqJ_D_sdev -9999.000000; Float32 _FV_RelHumSurf_liquid_TqJ_D -9999.000000; Float32 _FV_RelHumSurf_liquid_TqJ_D_ct -9999.000000; Float32 _FV_RelHumSurf_liquid_TqJ_D_sdev -9999.000000; Float32 _FV_TropHeight_TqJ_D -9999.000000; Float32 _FV_TropHeight_TqJ_D_ct -9999.000000; Float32 _FV_TropHeight_TqJ_D_sdev -9999.000000; Float32 _FV_GPHeight_TqJ_D -9999.000000; Float32 _FV_GPHeight_TqJ_D_ct -9999.000000; Float32 _FV_GPHeight_TqJ_D_sdev -9999.000000; Float32 _FV_CloudFrc_TqJ_D -9999.000000; Float32 _FV_CloudFrc_TqJ_D_ct -9999.000000; Float32 _FV_CloudFrc_TqJ_D_sdev -9999.000000; Float32 _FV_CloudTopPres_TqJ_D -9999.000000; Float32 _FV_CloudTopPres_TqJ_D_ct -9999.000000; Float32 _FV_CloudTopPres_TqJ_D_sdev -9999.000000; Float32 _FV_CloudTopTemp_TqJ_D -9999.000000; Float32 _FV_CloudTopTemp_TqJ_D_ct -9999.000000; Float32 _FV_CloudTopTemp_TqJ_D_sdev -9999.000000; Float32 _FV_FineCloudFrc_TqJ_D -9999.000000; Float32 _FV_FineCloudFrc_TqJ_D_ct -9999.000000; Float32 _FV_FineCloudFrc_TqJ_D_sdev -9999.000000; Float32 _FV_CoarseCloudFrc_TqJ_D -9999.000000; Float32 _FV_CoarseCloudFrc_TqJ_D_ct -9999.000000; Float32 _FV_CoarseCloudFrc_TqJ_D_sdev -9999.000000; Float32 _FV_CoarseCloudPres_TqJ_D -9999.000000; Float32 _FV_CoarseCloudPres_TqJ_D_ct -9999.000000; Float32 _FV_CoarseCloudPres_TqJ_D_sdev -9999.000000; Float32 _FV_CoarseCloudTemp_TqJ_D -9999.000000; Float32 _FV_CoarseCloudTemp_TqJ_D_ct -9999.000000; Float32 _FV_CoarseCloudTemp_TqJ_D_sdev -9999.000000; Float32 _FV_TotO3_TqJ_D -9999.000000; Float32 _FV_TotO3_TqJ_D_ct -9999.000000; Float32 _FV_TotO3_TqJ_D_sdev -9999.000000; Float32 _FV_O3_VMR_TqJ_D -9999.000000; Float32 _FV_O3_VMR_TqJ_D_ct -9999.000000; Float32 _FV_O3_VMR_TqJ_D_sdev -9999.000000; Float32 _FV_CO_VMR_TqJ_D -9999.000000; Float32 _FV_CO_VMR_TqJ_D_ct -9999.000000; Float32 _FV_CO_VMR_TqJ_D_sdev -9999.000000; Float32 _FV_CH4_VMR_TqJ_D -9999.000000; Float32 _FV_CH4_VMR_TqJ_D_ct -9999.000000; Float32 _FV_CH4_VMR_TqJ_D_sdev -9999.000000; Float32 _FV_OLR_TqJ_D -9999.000000; Float32 _FV_OLR_TqJ_D_ct -9999.000000; Float32 _FV_OLR_TqJ_D_sdev -9999.000000; Float32 _FV_ClrOLR_TqJ_D -9999.000000; Float32 _FV_ClrOLR_TqJ_D_ct -9999.000000; Float32 _FV_ClrOLR_TqJ_D_sdev -9999.000000; } ascending_MW_only { Float32 _FV_TotalCounts_MW_A -9999.000000; Float32 _FV_Emis_MW_A -9999.000000; Float32 _FV_Emis_MW_A_ct -9999.000000; Float32 _FV_Emis_MW_A_sdev -9999.000000; Float32 _FV_Temperature_MW_A -9999.000000; Float32 _FV_Temperature_MW_A_ct -9999.000000; Float32 _FV_Temperature_MW_A_sdev -9999.000000; Float32 _FV_TotH2OVap_MW_A -9999.000000; Float32 _FV_TotH2OVap_MW_A_ct -9999.000000; Float32 _FV_TotH2OVap_MW_A_sdev -9999.000000; Float32 _FV_GPHeight_MW_A -9999.000000; Float32 _FV_GPHeight_MW_A_ct -9999.000000; Float32 _FV_GPHeight_MW_A_sdev -9999.000000; Float32 _FV_TotCldLiqH2O_MW_A -9999.000000; Float32 _FV_TotCldLiqH2O_MW_A_ct -9999.000000; Float32 _FV_TotCldLiqH2O_MW_A_sdev -9999.000000; } descending_MW_only { Float32 _FV_TotalCounts_MW_D -9999.000000; Float32 _FV_Emis_MW_D -9999.000000; Float32 _FV_Emis_MW_D_ct -9999.000000; Float32 _FV_Emis_MW_D_sdev -9999.000000; Float32 _FV_Temperature_MW_D -9999.000000; Float32 _FV_Temperature_MW_D_ct -9999.000000; Float32 _FV_Temperature_MW_D_sdev -9999.000000; Float32 _FV_TotH2OVap_MW_D -9999.000000; Float32 _FV_TotH2OVap_MW_D_ct -9999.000000; Float32 _FV_TotH2OVap_MW_D_sdev -9999.000000; Float32 _FV_GPHeight_MW_D -9999.000000; Float32 _FV_GPHeight_MW_D_ct -9999.000000; Float32 _FV_GPHeight_MW_D_sdev -9999.000000; Float32 _FV_TotCldLiqH2O_MW_D -9999.000000; Float32 _FV_TotCldLiqH2O_MW_D_ct -9999.000000; Float32 _FV_TotCldLiqH2O_MW_D_sdev -9999.000000; } location { Float32 _FV_Latitude -9999.000000; Float32 _FV_Longitude -9999.000000; Int16 _FV_LandSeaMask 0; Float32 _FV_Topography -9999.000000; Int32 Year 2023; Int32 Month 10; Int32 Day 1; Int32 NumOfDays 31; String AscendingGridStartTimeUTC "2023-10-01T01:30:00.000000Z"; String AscendingGridEndTimeUTC "2023-11-01T01:29:59.999999Z"; String DescendingGridStartTimeUTC "2023-09-30T13:30:00.000000Z"; String DescendingGridEndTimeUTC "2023-10-31T13:29:59.999999Z"; Float32 StdPressureLev 1000.000000; Float32 H2OPressureLev 1000.000000; Float32 H2OPressureLay 961.7692261; Float32 EmisFreqIR 832.0000000; Float32 EmisFreqMW 23.79999924; Float32 CoarseCloudLayer 865.0000000; Float32 FineCloudLayer 1018.000000; } String geospatial_lat_min "-90.0"; String geospatial_lat_max "90.0"; String geospatial_lon_min "-180.0"; String geospatial_lon_max "180.0"; TotalCounts_A { Float32 _FillValue -9999.000000; String long_name "Counts, daytime (ascending) node"; } SurfPres_Forecast_A { Float32 _FillValue -9999.000000; String standard_name "air_pressure"; String long_name "Surface air pressure, daytime (ascending) node"; String units "hPa"; } SurfPres_Forecast_A_ct { Float32 _FillValue -9999.000000; String long_name "Surface air pressure counts, daytime (ascending) node"; } SurfPres_Forecast_A_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air pressure standard deviation, daytime (ascending) node"; String units "hPa"; } SurfSkinTemp_A { Float32 _FillValue -9999.000000; String standard_name "surface_temperature"; String long_name "Surface temperature, daytime (ascending) node"; String units "K"; } SurfSkinTemp_A_ct { Float32 _FillValue -9999.000000; String long_name "Surface temperature counts, daytime (ascending) node"; } SurfSkinTemp_A_sdev { Float32 _FillValue -9999.000000; String long_name "Surface temperature standard deviation, daytime (ascending) node"; String units "K"; } EmisIR_A { Float32 _FillValue -9999.000000; String standard_name "emissivity"; String long_name "Infrared emissivity, daytime (ascending) node"; } EmisIR_A_ct { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity counts, daytime (ascending) node"; } EmisIR_A_sdev { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity standard deviation, daytime (ascending) node"; } Temperature_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Air temperature, daytime (ascending) node"; String units "K"; } Temperature_A_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature counts, daytime (ascending) node"; } Temperature_A_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature standard deviation, daytime (ascending) node"; String units "K"; } SurfAirTemp_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Surface air temperature, daytime (ascending) node"; String units "K"; } SurfAirTemp_A_ct { Float32 _FillValue -9999.000000; String long_name "Surface air temperature counts, daytime (ascending) node"; } SurfAirTemp_A_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air temperature standard deviation, daytime (ascending) node"; String units "K"; } TropPres_A { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_pressure"; String long_name "Tropopause air pressure, daytime (ascending) node"; String units "hPa"; } TropPres_A_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure counts, daytime (ascending) node"; } TropPres_A_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure standard deviation, daytime (ascending) node"; String units "hPa"; } TropTemp_A { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_temperature"; String long_name "Tropopause air temperature, daytime (ascending) node"; String units "K"; } TropTemp_A_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature counts, daytime (ascending) node"; } TropTemp_A_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature stndard deviation, daytime (ascending) node"; String units "K"; } TotH2OVap_A { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_water_vapor_in_atmosphere_layer"; String long_name "Total mass content of water vapor in atmosphere layer, daytime (ascending) node"; String units "kg/m2"; } TotH2OVap_A_ct { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer counts, daytime (ascending) node"; } TotH2OVap_A_sdev { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer standard deviation, daytime (ascending) node"; String units "kg/m2"; } H2O_MMR_Lyr_A { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Layer mass fraction of water in dry air, daytime (ascending) node"; String units "g/kg"; } H2O_MMR_Lyr_A_ct { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air counts, daytime (ascending) node"; } H2O_MMR_Lyr_A_sdev { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air standard deviation, daytime (ascending) node"; String units "g/kg"; } H2O_MMR_A { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Level mass fraction of water in dry air, daytime (ascending) node"; String units "g/kg"; } H2O_MMR_A_ct { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air counts, daytime (ascending) node"; } H2O_MMR_A_sdev { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air standard deviation, daytime (ascending) node"; } H2O_MMR_Surf_A { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Mass fraction of water in dry air at surface, daytime (ascending) node"; String units "g/kg"; } H2O_MMR_Surf_A_ct { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface counts, daytime (ascending) node"; } H2O_MMR_Surf_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface standard deviation, daytime (ascending) node"; String units "g/kg"; } RelHum_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity, daytime (ascending) node"; String units "percent"; } RelHum_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity counts, daytime (ascending) node"; } RelHum_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity standard deviation, daytime (ascending) node"; String units "percent"; } RelHumSurf_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity at surface, daytime (ascending) node"; String units "percent"; } RelHumSurf_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface counts, daytime (ascending) node"; } RelHumSurf_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface standard deviation, daytime (ascending) node"; String units "percent"; } RelHum_liquid_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid, daytime (ascending) node"; String units "percent"; } RelHum_liquid_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid counts, daytime (ascending) node"; } RelHum_liquid_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid standard deviation, daytime (ascending) node"; String units "percent"; } RelHumSurf_liquid_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid at surface, daytime (ascending) node"; String units "percent"; } RelHumSurf_liquid_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface counts, daytime (ascending) node"; } RelHumSurf_liquid_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface standard deviation, daytime (ascending) node"; String units "percent"; } TropHeight_A { Float32 _FillValue -9999.000000; String standard_name "tropopause_altitude"; String long_name "Tropopause altitude, daytime (ascending) node"; String units "m"; } TropHeight_A_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude counts, daytime (ascending) node"; } TropHeight_A_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude standard deviation, daytime (ascending) node"; String units "m"; } GPHeight_A { Float32 _FillValue -9999.000000; String standard_name "geopotential_height"; String long_name "Geopotential height, daytime (ascending) node"; String units "m"; } GPHeight_A_ct { Float32 _FillValue -9999.000000; String long_name "Geopotential height counts, daytime (ascending) node"; } GPHeight_A_sdev { Float32 _FillValue -9999.000000; String long_name "Geopotential height standard deviation, daytime (ascending) node"; String units "m"; } CloudFrc_A { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction"; String long_name "Effective cloud area fraction, daytime (ascending) node"; String units "1"; } CloudFrc_A_ct { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction counts, daytime (ascending) node"; } CloudFrc_A_sdev { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction standard deviation, daytime (ascending) node"; } CloudTopPres_A { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Air pressure at cloud top, daytime (ascending) node"; String units "hPa"; } CloudTopPres_A_ct { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top counts, daytime (ascending) node"; } CloudTopPres_A_sdev { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top standard deviation, daytime (ascending) node"; String units "hPa"; } CloudTopTemp_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Air temperature at cloud top, daytime (ascending) node"; String units "K"; } CloudTopTemp_A_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top counts, daytime (ascending) node"; } CloudTopTemp_A_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top standard deviation, daytime (ascending) node"; String units "K"; } FineCloudFrc_A { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, daytime (ascending) node"; } FineCloudFrc_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, daytime (ascending) node"; } FineCloudFrc_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, daytime (ascending) node"; } CoarseCloudFrc_A { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, daytime (ascending) node"; } CoarseCloudFrc_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, daytime (ascending) node"; } CoarseCloudFrc_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, daytime (ascending) node"; } CoarseCloudPres_A { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Cloud coarse layer pressure, daytime (ascending) node"; String units "hPa"; } CoarseCloudPres_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure counts, daytime (ascending) node"; } CoarseCloudPres_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure standard deviation, daytime (ascending) node"; String units "hPa"; } CoarseCloudTemp_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Cloud coarse layer temperature, daytime (ascending) node"; String units "K"; } CoarseCloudTemp_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature counts, daytime (ascending) node"; } CoarseCloudTemp_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature standard deviation, daytime (ascending) node"; String units "K"; } TotO3_A { Float32 _FillValue -9999.000000; String long_name "Total ozone, daytime (ascending) node"; String units "DU"; } TotO3_A_ct { Float32 _FillValue -9999.000000; String long_name "Total ozone counts, daytime (ascending) node"; } TotO3_A_sdev { Float32 _FillValue -9999.000000; String long_name "Total ozone standard deviation, daytime (ascending) node"; String units "DU"; } O3_VMR_A { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_ozone_in_air"; String long_name "Mole fraction of ozone in air, daytime (ascending) node"; String units "ppmv"; } O3_VMR_A_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air counts, daytime (ascending) node"; } O3_VMR_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air standard deviation, daytime (ascending) node"; String units "ppmv"; } CO_VMR_A { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_carbon_monoxide_in_air"; String long_name "Mole fraction of carbon monoxide in air, daytime (ascending) node"; String units "ppmv"; } CO_VMR_A_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air counts, daytime (ascending) node"; } CO_VMR_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air standard deviation, daytime (ascending) node"; String units "ppmv"; } CH4_VMR_A { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_methane_in_air"; String long_name "Mole fraction of methane in air, daytime (ascending) node"; String units "ppmv"; } CH4_VMR_A_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air counts, daytime (ascending) node"; } CH4_VMR_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air standard deviation, daytime (ascending) node"; String units "ppmv"; } OLR_A { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux"; String long_name "Toa outgoing longwave flux, daytime (ascending) node"; String units "W/m2"; } OLR_A_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux counts, daytime (ascending) node"; } OLR_A_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux standard deviation, daytime (ascending) node"; String units "W/m2"; } ClrOLR_A { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux_assuming_clear_sky"; String long_name "Toa outgoing longwave flux assuming clear sky, daytime (ascending) node"; String units "W/m2"; } ClrOLR_A_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky counts, daytime (ascending) node"; } ClrOLR_A_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky standard deviation, daytime (ascending) node"; String units "W/m2"; } Longitude { String units "degrees_east"; String format "F6.1"; String standard_name "longitude"; String long_name "Longitude"; Float32 missing_value -9999.0; } Latitude { String units "degrees_north"; String format "F5.1"; String standard_name "latitude"; String long_name "Latitude"; Float32 missing_value -9999.0; } StdPressureLev { String units "hPa"; String format "F7.2"; String standard_name "Pressure"; String long_name "Pressure Levels Temperature Profile"; String positive "down"; String _CoordinateAxisType "GeoZ"; } EmisFreqIR { String units "cm^-1"; String format "F5.1"; String standard_name "radiation_frequency"; String long_name "Radiation frequency wavenumbers"; String positive "up"; String _CoordinateAxisType "GeoZ"; } CoarseCloudLayer { String units "hPa"; String format "F7.2"; String standard_name "air_pressure"; String long_name "Air pressure coarse cloud layers"; String positive "down"; String _CoordinateAxisType "GeoZ"; } FineCloudLayer { String units "hPa"; String format "F7.2"; String standard_name "air_pressure"; String long_name "Air pressure fine cloud layers"; String positive "down"; String _CoordinateAxisType "GeoZ"; } H2OPressureLev { String units "hPa"; String format "F7.2"; String standard_name "air_pressure"; String long_name "Air pressure at H2O levels"; String positive "down"; String _CoordinateAxisType "GeoZ"; } H2OPressureLay { String units "hPa"; String format "F7.2"; String standard_name "air_pressure"; String long_name "Air pressure layers"; String positive "down"; String _CoordinateAxisType "GeoZ"; } TotalCounts_D { Float32 _FillValue -9999.000000; String long_name "Counts, nighttime (descending) node"; } SurfPres_Forecast_D { Float32 _FillValue -9999.000000; String standard_name "air_pressure"; String long_name "Surface air pressure, nighttime (descending) node"; String units "hPa"; } SurfPres_Forecast_D_ct { Float32 _FillValue -9999.000000; String long_name "Surface air pressure counts, nighttime (descending) node"; } SurfPres_Forecast_D_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air pressure standard deviation, nighttime (descending) node"; String units "hPa"; } SurfSkinTemp_D { Float32 _FillValue -9999.000000; String standard_name "surface_temperature"; String long_name "Surface temperature, nighttime (descending) node"; String units "K"; } SurfSkinTemp_D_ct { Float32 _FillValue -9999.000000; String long_name "Surface temperature counts, nighttime (descending) node"; } SurfSkinTemp_D_sdev { Float32 _FillValue -9999.000000; String long_name "Surface temperature standard deviation, nighttime (descending) node"; String units "K"; } EmisIR_D { Float32 _FillValue -9999.000000; String standard_name "emissivity"; String long_name "Infrared emissivity, nighttime (descending) node"; } EmisIR_D_ct { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity counts, nighttime (descending) node"; } EmisIR_D_sdev { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity standard deviation, nighttime (descending) node"; } Temperature_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Air temperature, nighttime (descending) node"; String units "K"; } Temperature_D_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature counts, nighttime (descending) node"; } Temperature_D_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature standard deviation, nighttime (descending) node"; String units "K"; } SurfAirTemp_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Surface air temperature, nighttime (descending) node"; String units "K"; } SurfAirTemp_D_ct { Float32 _FillValue -9999.000000; String long_name "Surface air temperature counts, nighttime (descending) node"; } SurfAirTemp_D_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air temperature standard deviation, nighttime (descending) node"; String units "K"; } TropPres_D { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_pressure"; String long_name "Tropopause air pressure, nighttime (descending) node"; String units "hPa"; } TropPres_D_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure counts, nighttime (descending) node"; } TropPres_D_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure standard deviation, nighttime (descending) node"; String units "hPa"; } TropTemp_D { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_temperature"; String long_name "Tropopause air temperature, nighttime (descending) node"; String units "K"; } TropTemp_D_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature counts, nighttime (descending) node"; } TropTemp_D_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature stndard deviation, nighttime (descending) node"; String units "K"; } TotH2OVap_D { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_water_vapor_in_atmosphere_layer"; String long_name "Total mass content of water vapor in atmosphere layer, nighttime (descending) node"; String units "kg/m2"; } TotH2OVap_D_ct { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer counts, nighttime (descending) node"; } TotH2OVap_D_sdev { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer standard deviation, nighttime (descending) node"; String units "kg/m2"; } H2O_MMR_Lyr_D { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Layer mass fraction of water in dry air, nighttime (descending) node"; String units "g/kg"; } H2O_MMR_Lyr_D_ct { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air counts, nighttime (descending) node"; } H2O_MMR_Lyr_D_sdev { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air standard deviation, nighttime (descending) node"; String units "g/kg"; } H2O_MMR_D { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Level mass fraction of water in dry air, nighttime (descending) node"; String units "g/kg"; } H2O_MMR_D_ct { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air counts, nighttime (descending) node"; } H2O_MMR_D_sdev { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air standard deviation, nighttime (descending) node"; } H2O_MMR_Surf_D { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Mass fraction of water in dry air at surface, nighttime (descending) node"; String units "g/kg"; } H2O_MMR_Surf_D_ct { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface counts, nighttime (descending) node"; } H2O_MMR_Surf_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface standard deviation, nighttime (descending) node"; String units "g/kg"; } RelHum_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity, nighttime (descending) node"; String units "percent"; } RelHum_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity counts, nighttime (descending) node"; } RelHum_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity standard deviation, nighttime (descending) node"; String units "percent"; } RelHumSurf_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity at surface, nighttime (descending) node"; String units "percent"; } RelHumSurf_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface counts, nighttime (descending) node"; } RelHumSurf_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface standard deviation, nighttime (descending) node"; String units "percent"; } RelHum_liquid_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid, nighttime (descending) node"; String units "percent"; } RelHum_liquid_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid counts, nighttime (descending) node"; } RelHum_liquid_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid standard deviation, nighttime (descending) node"; String units "percent"; } RelHumSurf_liquid_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid at surface, nighttime (descending) node"; String units "percent"; } RelHumSurf_liquid_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface counts, nighttime (descending) node"; } RelHumSurf_liquid_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface standard deviation, nighttime (descending) node"; String units "percent"; } TropHeight_D { Float32 _FillValue -9999.000000; String standard_name "tropopause_altitude"; String long_name "Tropopause altitude, nighttime (descending) node"; String units "m"; } TropHeight_D_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude counts, nighttime (descending) node"; } TropHeight_D_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude standard deviation, nighttime (descending) node"; String units "m"; } GPHeight_D { Float32 _FillValue -9999.000000; String standard_name "geopotential_height"; String long_name "Geopotential height, nighttime (descending) node"; String units "m"; } GPHeight_D_ct { Float32 _FillValue -9999.000000; String long_name "Geopotential height counts, nighttime (descending) node"; } GPHeight_D_sdev { Float32 _FillValue -9999.000000; String long_name "Geopotential height standard deviation, nighttime (descending) node"; String units "m"; } CloudFrc_D { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction"; String long_name "Effective cloud area fraction, nighttime (descending) node"; String units "1"; } CloudFrc_D_ct { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction counts, nighttime (descending) node"; } CloudFrc_D_sdev { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction standard deviation, nighttime (descending) node"; } CloudTopPres_D { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Air pressure at cloud top, nighttime (descending) node"; String units "hPa"; } CloudTopPres_D_ct { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top counts, nighttime (descending) node"; } CloudTopPres_D_sdev { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top standard deviation, nighttime (descending) node"; String units "hPa"; } CloudTopTemp_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Air temperature at cloud top, nighttime (descending) node"; String units "K"; } CloudTopTemp_D_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top counts, nighttime (descending) node"; } CloudTopTemp_D_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top standard deviation, nighttime (descending) node"; String units "K"; } FineCloudFrc_D { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, nighttime (descending) node"; } FineCloudFrc_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, nighttime (descending) node"; } FineCloudFrc_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, nighttime (descending) node"; } CoarseCloudFrc_D { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, nighttime (descending) node"; } CoarseCloudFrc_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, nighttime (descending) node"; } CoarseCloudFrc_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, nighttime (descending) node"; } CoarseCloudPres_D { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Cloud coarse layer pressure, nighttime (descending) node"; String units "hPa"; } CoarseCloudPres_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure counts, nighttime (descending) node"; } CoarseCloudPres_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure standard deviation, nighttime (descending) node"; String units "hPa"; } CoarseCloudTemp_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Cloud coarse layer temperature, nighttime (descending) node"; String units "K"; } CoarseCloudTemp_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature counts, nighttime (descending) node"; } CoarseCloudTemp_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature standard deviation, nighttime (descending) node"; String units "K"; } TotO3_D { Float32 _FillValue -9999.000000; String long_name "Total ozone, nighttime (descending) node"; String units "DU"; } TotO3_D_ct { Float32 _FillValue -9999.000000; String long_name "Total ozone counts, nighttime (descending) node"; } TotO3_D_sdev { Float32 _FillValue -9999.000000; String long_name "Total ozone standard deviation, nighttime (descending) node"; String units "DU"; } O3_VMR_D { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_ozone_in_air"; String long_name "Mole fraction of ozone in air, nighttime (descending) node"; String units "ppmv"; } O3_VMR_D_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air counts, nighttime (descending) node"; } O3_VMR_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air standard deviation, nighttime (descending) node"; String units "ppmv"; } CO_VMR_D { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_carbon_monoxide_in_air"; String long_name "Mole fraction of carbon monoxide in air, nighttime (descending) node"; String units "ppmv"; } CO_VMR_D_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air counts, nighttime (descending) node"; } CO_VMR_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air standard deviation, nighttime (descending) node"; String units "ppmv"; } CH4_VMR_D { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_methane_in_air"; String long_name "Mole fraction of methane in air, nighttime (descending) node"; String units "ppmv"; } CH4_VMR_D_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air counts, nighttime (descending) node"; } CH4_VMR_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air standard deviation, nighttime (descending) node"; String units "ppmv"; } OLR_D { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux"; String long_name "Toa outgoing longwave flux, nighttime (descending) node"; String units "W/m2"; } OLR_D_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux counts, nighttime (descending) node"; } OLR_D_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux standard deviation, nighttime (descending) node"; String units "W/m2"; } ClrOLR_D { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux_assuming_clear_sky"; String long_name "Toa outgoing longwave flux assuming clear sky, nighttime (descending) node"; String units "W/m2"; } ClrOLR_D_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky counts, nighttime (descending) node"; } ClrOLR_D_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky standard deviation, nighttime (descending) node"; String units "W/m2"; } TotalCounts_TqJ_A { Float32 _FillValue -9999.000000; String long_name "Counts, TqJoint daytime (ascending) node"; } SurfPres_Forecast_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "air_pressure"; String long_name "Surface air pressure, TqJoint daytime (ascending) node"; String units "hPa"; } SurfPres_Forecast_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Surface air pressure counts, TqJoint daytime (ascending) node"; } SurfPres_Forecast_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air pressure standard deviation, TqJoint daytime (ascending) node"; String units "hPa"; } SurfSkinTemp_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "surface_temperature"; String long_name "Surface temperature, TqJoint daytime (ascending) node"; String units "K"; } SurfSkinTemp_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Surface temperature counts, TqJoint daytime (ascending) node"; } SurfSkinTemp_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Surface temperature standard deviation, TqJoint daytime (ascending) node"; String units "K"; } EmisIR_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "emissivity"; String long_name "Infrared emissivity, TqJoint daytime (ascending) node"; } EmisIR_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity counts, TqJoint daytime (ascending) node"; } EmisIR_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity standard deviation, TqJoint daytime (ascending) node"; } Temperature_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Air temperature, TqJoint daytime (ascending) node"; String units "K"; } Temperature_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature counts, TqJoint daytime (ascending) node"; } Temperature_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature standard deviation, TqJoint daytime (ascending) node"; String units "K"; } SurfAirTemp_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Surface air temperature, TqJoint daytime (ascending) node"; String units "K"; } SurfAirTemp_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Surface air temperature counts, TqJoint daytime (ascending) node"; } SurfAirTemp_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air temperature standard deviation, TqJoint daytime (ascending) node"; String units "K"; } TropPres_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_pressure"; String long_name "Tropopause air pressure, TqJoint daytime (ascending) node"; String units "hPa"; } TropPres_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure counts, TqJoint daytime (ascending) node"; } TropPres_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure standard deviation, TqJoint daytime (ascending) node"; String units "hPa"; } TropTemp_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_temperature"; String long_name "Tropopause air temperature, TqJoint daytime (ascending) node"; String units "K"; } TropTemp_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature counts, TqJoint daytime (ascending) node"; } TropTemp_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature stndard deviation, TqJoint daytime (ascending) node"; String units "K"; } TotH2OVap_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_water_vapor_in_atmosphere_layer"; String long_name "Total mass content of water vapor in atmosphere layer, TqJoint daytime (ascending) node"; String units "kg/m2"; } TotH2OVap_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer counts, TqJoint daytime (ascending) node"; } TotH2OVap_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer standard deviation, TqJoint daytime (ascending) nod e"; String units "kg/m2"; } H2O_MMR_Lyr_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Layer mass fraction of water in dry air, TqJoint daytime (ascending) node"; String units "g/kg"; } H2O_MMR_Lyr_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air counts, TqJoint daytime (ascending) node"; } H2O_MMR_Lyr_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air standard deviation, TqJoint daytime (ascending) node"; String units "g/kg"; } H2O_MMR_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Level mass fraction of water in dry air, TqJoint daytime (ascending) node"; String units "g/kg"; } H2O_MMR_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air counts, TqJoint daytime (ascending) node"; } H2O_MMR_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air standard deviation, TqJoint daytime (ascending) node"; } H2O_MMR_Surf_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Mass fraction of water in dry air at surface, TqJoint daytime (ascending) node"; String units "g/kg"; } H2O_MMR_Surf_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface counts, TqJoint daytime (ascending) node"; } H2O_MMR_Surf_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface standard deviation, TqJoint daytime (ascending) node"; String units "g/kg"; } RelHum_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity, TqJoint daytime (ascending) node"; String units "percent"; } RelHum_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity counts, TqJoint daytime (ascending) node"; } RelHum_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity standard deviation, TqJoint daytime (ascending) node"; String units "percent"; } RelHumSurf_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity at surface, TqJoint daytime (ascending) node"; String units "percent"; } RelHumSurf_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface counts, TqJoint daytime (ascending) node"; } RelHumSurf_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface standard deviation, TqJoint daytime (ascending) node"; String units "percent"; } RelHum_liquid_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid, TqJoint daytime (ascending) node"; String units "percent"; } RelHum_liquid_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid counts, TqJoint daytime (ascending) node"; } RelHum_liquid_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid standard deviation, TqJoint daytime (ascending) node"; String units "percent"; } RelHumSurf_liquid_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid at surface, TqJoint daytime (ascending) node"; String units "percent"; } RelHumSurf_liquid_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface counts, TqJoint daytime (ascending) node"; } RelHumSurf_liquid_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface standard deviation, TqJoint daytime (ascending) node"; String units "percent"; } TropHeight_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "tropopause_altitude"; String long_name "Tropopause altitude, TqJoint daytime (ascending) node"; String units "m"; } TropHeight_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude counts, TqJoint daytime (ascending) node"; } TropHeight_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude standard deviation, TqJoint daytime (ascending) node"; String units "m"; } GPHeight_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "geopotential_height"; String long_name "Geopotential height, TqJoint daytime (ascending) node"; String units "m"; } GPHeight_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Geopotential height counts, TqJoint daytime (ascending) node"; } GPHeight_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Geopotential height standard deviation, TqJoint daytime (ascending) node"; String units "m"; } CloudFrc_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction"; String long_name "Effective cloud area fraction, TqJoint daytime (ascending) node"; } CloudFrc_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction counts, TqJoint daytime (ascending) node"; } CloudFrc_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction standard deviation, TqJoint daytime (ascending) node"; } CloudTopPres_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Air pressure at cloud top, TqJoint daytime (ascending) node"; String units "hPa"; } CloudTopPres_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top counts, TqJoint daytime (ascending) node"; } CloudTopPres_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top standard deviation, TqJoint daytime (ascending) node"; String units "hPa"; } CloudTopTemp_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Air temperature at cloud top, TqJoint daytime (ascending) node"; String units "K"; } CloudTopTemp_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top counts, TqJoint daytime (ascending) node"; } CloudTopTemp_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top standard deviation, TqJoint daytime (ascending) node"; String units "K"; } FineCloudFrc_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, TqJoint daytime (ascending) node"; } FineCloudFrc_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, TqJoint daytime (ascending) node"; } FineCloudFrc_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, TqJoint daytime (ascending) node"; } CoarseCloudFrc_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, TqJoint daytime (ascending) node"; } CoarseCloudFrc_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, TqJoint daytime (ascending) node"; } CoarseCloudFrc_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, TqJoint daytime (ascending) node"; } CoarseCloudPres_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Cloud coarse layer pressure, TqJoint daytime (ascending) node"; String units "hPa"; } CoarseCloudPres_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure counts, TqJoint daytime (ascending) node"; } CoarseCloudPres_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure standard deviation, TqJoint daytime (ascending) node"; String units "hPa"; } CoarseCloudTemp_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Cloud coarse layer temperature, TqJoint daytime (ascending) node"; String units "K"; } CoarseCloudTemp_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature counts, TqJoint daytime (ascending) node"; } CoarseCloudTemp_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature standard deviation, TqJoint daytime (ascending) node"; String units "K"; } TotO3_TqJ_A { Float32 _FillValue -9999.000000; String long_name "Total ozone, TqJoint daytime (ascending) node"; String units "DU"; } TotO3_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Total ozone counts, TqJoint daytime (ascending) node"; } TotO3_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Total ozone standard deviation, TqJoint daytime (ascending) node"; String units "DU"; } O3_VMR_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_ozone_in_air"; String long_name "Mole fraction of ozone in air, TqJoint daytime (ascending) node"; String units "ppmv"; } O3_VMR_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air counts, TqJoint daytime (ascending) node"; } O3_VMR_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air standard deviation, TqJoint daytime (ascending) node"; String units "ppmv"; } CO_VMR_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_carbon_monoxide_in_air"; String long_name "Mole fraction of carbon monoxide in air, TqJoint daytime (ascending) node"; String units "ppmv"; } CO_VMR_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air counts, TqJoint daytime (ascending) node"; } CO_VMR_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air standard deviation, TqJoint daytime (ascending) node"; String units "ppmv"; } CH4_VMR_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_methane_in_air"; String long_name "Mole fraction of methane in air, TqJoint daytime (ascending) node"; String units "ppmv"; } CH4_VMR_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air counts, TqJoint daytime (ascending) node"; } CH4_VMR_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air standard deviation, TqJoint daytime (ascending) node"; String units "ppmv"; } OLR_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux"; String long_name "Toa outgoing longwave flux, TqJoint daytime (ascending) node"; String units "W/m2"; } OLR_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux counts, TqJoint daytime (ascending) node"; } OLR_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux standard deviation, TqJoint daytime (ascending) node"; String units "W/m2"; } ClrOLR_TqJ_A { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux_assuming_clear_sky"; String long_name "Toa outgoing longwave flux assuming clear sky, TqJoint daytime (ascending) node"; String units "W/m2"; } ClrOLR_TqJ_A_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky counts, TqJoint daytime (ascending) node"; } ClrOLR_TqJ_A_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky standard deviation, TqJoint daytime (ascending) node"; String units "W/m2"; } TotalCounts_TqJ_D { Float32 _FillValue -9999.000000; String long_name "Counts, TqJoint nighttime (descending) node"; } SurfPres_Forecast_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "air_pressure"; String long_name "Surface air pressure, TqJoint nighttime (descending) node"; String units "hPa"; } SurfPres_Forecast_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Surface air pressure counts, TqJoint nighttime (descending) node"; } SurfPres_Forecast_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air pressure standard deviation, TqJoint nighttime (descending) node"; String units "hPa"; } SurfSkinTemp_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "surface_temperature"; String long_name "Surface temperature, TqJoint nighttime (descending) node"; String units "K"; } SurfSkinTemp_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Surface temperature counts, TqJoint nighttime (descending) node"; } SurfSkinTemp_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Surface temperature standard deviation, TqJoint nighttime (descending) node"; String units "K"; } EmisIR_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "emissivity"; String long_name "Infrared emissivity, TqJoint nighttime (descending) node"; } EmisIR_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity counts, TqJoint nighttime (descending) node"; } EmisIR_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Infrared emissivity standard deviation, TqJoint nighttime (descending) node"; } Temperature_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Air temperature, TqJoint nighttime (descending) node"; String units "K"; } Temperature_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature counts, TqJoint nighttime (descending) node"; } Temperature_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature standard deviation, TqJoint nighttime (descending) node"; String units "K"; } SurfAirTemp_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Surface air temperature, TqJoint nighttime (descending) node"; String units "K"; } SurfAirTemp_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Surface air temperature counts, TqJoint nighttime (descending) node"; } SurfAirTemp_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Surface air temperature standard deviation, TqJoint nighttime (descending) node"; String units "K"; } TropPres_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_pressure"; String long_name "Tropopause air pressure, TqJoint nighttime (descending) node"; String units "hPa"; } TropPres_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure counts, TqJoint nighttime (descending) node"; } TropPres_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air pressure standard deviation, TqJoint nighttime (descending) node"; String units "hPa"; } TropTemp_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "tropopause_air_temperature"; String long_name "Tropopause air temperature, TqJoint nighttime (descending) node"; String units "K"; } TropTemp_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature counts, TqJoint nighttime (descending) node"; } TropTemp_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause air temperature stndard deviation, TqJoint nighttime (descending) node"; String units "K"; } TotH2OVap_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_water_vapor_in_atmosphere_layer"; String long_name "Total mass content of water vapor in atmosphere layer, TqJoint nighttime (descending) node"; String units "kg/m2"; } TotH2OVap_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer counts, TqJoint nighttime (descending) node"; } TotH2OVap_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Total mass content of water vapor in atmosphere layer standard deviation, TqJoint nighttime (descending) node"; String units "kg/m2"; } H2O_MMR_Lyr_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Layer mass fraction of water in dry air, TqJoint nighttime (descending) node"; String units "g/kg"; } H2O_MMR_Lyr_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air counts, TqJoint nighttime (descending) node"; } H2O_MMR_Lyr_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Layer mass fraction of water in dry air standard deviation, TqJoint nighttime (descending) node"; String units "g/kg"; } H2O_MMR_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Level mass fraction of water in dry air, TqJoint nighttime (descending) node"; String units "g/kg"; } H2O_MMR_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air counts, TqJoint nighttime (descending) node"; } H2O_MMR_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Level mass fraction of water in dry air standard deviation, TqJoint nighttime (descending) node"; } H2O_MMR_Surf_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "mass_fraction_of_water_in_air"; String long_name "Mass fraction of water in dry air at surface, TqJoint nighttime (descending) node"; String units "g/kg"; } H2O_MMR_Surf_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface counts, TqJoint nighttime (descending) node"; } H2O_MMR_Surf_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mass fraction of water in dry air at surface standard deviation, TqJoint nighttime (descending) node"; String units "g/kg"; } RelHum_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity, TqJoint nighttime (descending) node"; String units "percent"; } RelHum_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity counts, TqJoint nighttime (descending) node"; } RelHum_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity standard deviation, TqJoint nighttime (descending) node"; String units "percent"; } RelHumSurf_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity at surface, TqJoint nighttime (descending) node"; String units "percent"; } RelHumSurf_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface counts, TqJoint nighttime (descending) node"; } RelHumSurf_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity at surface standard deviation, TqJoint nighttime (descending) node"; String units "percent"; } RelHum_liquid_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid, TqJoint nighttime (descending) node"; String units "percent"; } RelHum_liquid_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid counts, TqJoint nighttime (descending) node"; } RelHum_liquid_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid standard deviation, TqJoint nighttime (descending) node"; String units "percent"; } RelHumSurf_liquid_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "relative_humidity"; String long_name "Relative humidity over liquid at surface, TqJoint nighttime (descending) node"; String units "percent"; } RelHumSurf_liquid_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface counts, TqJoint nighttime (descending) node"; } RelHumSurf_liquid_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Relative humidity over liquid at surface standard deviation, TqJoint nighttime (descending) node"; String units "percent"; } TropHeight_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "tropopause_altitude"; String long_name "Tropopause altitude, TqJoint nighttime (descending) node"; String units "m"; } TropHeight_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude counts, TqJoint nighttime (descending) node"; } TropHeight_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Tropopause altitude standard deviation, TqJoint nighttime (descending) node"; String units "m"; } GPHeight_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "geopotential_height"; String long_name "Geopotential height, TqJoint nighttime (descending) node"; String units "m"; } GPHeight_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Geopotential height counts, TqJoint nighttime (descending) node"; } GPHeight_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Geopotential height standard deviation, TqJoint nighttime (descending) node"; String units "m"; } CloudFrc_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction"; String long_name "Effective cloud area fraction, TqJoint nighttime (descending) node"; } CloudFrc_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction counts, TqJoint nighttime (descending) node"; } CloudFrc_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Effective cloud area fraction standard deviation, TqJoint nighttime (descending) node"; } CloudTopPres_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Air pressure at cloud top, TqJoint nighttime (descending) node"; String units "hPa"; } CloudTopPres_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top counts, TqJoint nighttime (descending) node"; } CloudTopPres_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Air pressure at cloud top standard deviation, TqJoint nighttime (descending) node"; String units "hPa"; } CloudTopTemp_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Air temperature at cloud top, TqJoint nighttime (descending) node"; String units "K"; } CloudTopTemp_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top counts, TqJoint nighttime (descending) node"; } CloudTopTemp_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature at cloud top standard deviation, TqJoint nighttime (descending) node"; String units "K"; } FineCloudFrc_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, TqJoint nighttime (descending) node"; } FineCloudFrc_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, TqJoint nighttime (descending) node"; } FineCloudFrc_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, TqJoint nighttime (descending) node"; } CoarseCloudFrc_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "cloud_area_fraction_in_atmosphere_layer"; String long_name "Cloud area fraction in atmosphere layer, TqJoint nighttime (descending) node"; } CoarseCloudFrc_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer counts, TqJoint nighttime (descending) node"; } CoarseCloudFrc_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud area fraction in atmosphere layer standard deviation, TqJoint nighttime (descending) node"; } CoarseCloudPres_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "air_pressure_at_cloud_top"; String long_name "Cloud coarse layer pressure, TqJoint nighttime (descending) node"; String units "hPa"; } CoarseCloudPres_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure counts, TqJoint nighttime (descending) node"; } CoarseCloudPres_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer pressure standard deviation, TqJoint nighttime (descending) node"; String units "hPa"; } CoarseCloudTemp_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature_at_cloud_top"; String long_name "Cloud coarse layer temperature, TqJoint nighttime (descending) node"; String units "K"; } CoarseCloudTemp_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature counts, TqJoint nighttime (descending) node"; } CoarseCloudTemp_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Cloud coarse layer temperature standard deviation, TqJoint nighttime (descending) node"; String units "K"; } TotO3_TqJ_D { Float32 _FillValue -9999.000000; String long_name "Total ozone, TqJoint nighttime (descending) node"; String units "DU"; } TotO3_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Total ozone counts, TqJoint nighttime (descending) node"; } TotO3_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Total ozone standard deviation, TqJoint nighttime (descending) node"; String units "DU"; } O3_VMR_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_ozone_in_air"; String long_name "Mole fraction of ozone in air, TqJoint nighttime (descending) node"; String units "ppmv"; } O3_VMR_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air counts, TqJoint nighttime (descending) node"; } O3_VMR_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of ozone in air standard deviation, TqJoint nighttime (descending) node"; String units "ppmv"; } CO_VMR_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_carbon_monoxide_in_air"; String long_name "Mole fraction of carbon monoxide in air, TqJoint nighttime (descending) node"; String units "ppmv"; } CO_VMR_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air counts, TqJoint nighttime (descending) node"; } CO_VMR_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of carbon monoxide in air standard deviation, TqJoint nighttime (descending) node"; String units "ppmv"; } CH4_VMR_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "mole_fraction_of_methane_in_air"; String long_name "Mole fraction of methane in air, TqJoint nighttime (descending) node"; String units "ppmv"; } CH4_VMR_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air counts, TqJoint nighttime (descending) node"; } CH4_VMR_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mole fraction of methane in air standard deviation, TqJoint nighttime (descending) node"; String units "ppmv"; } OLR_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux"; String long_name "Toa outgoing longwave flux, TqJoint nighttime (descending) node"; String units "W/m2"; } OLR_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux counts, TqJoint nighttime (descending) node"; } OLR_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux standard deviation, TqJoint nighttime (descending) node"; String units "W/m2"; } ClrOLR_TqJ_D { Float32 _FillValue -9999.000000; String standard_name "toa_outgoing_longwave_flux_assuming_clear_sky"; String long_name "Toa outgoing longwave flux assuming clear sky, TqJoint nighttime (descending) node"; String units "W/m2"; } ClrOLR_TqJ_D_ct { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky counts, TqJoint nighttime (descending) node"; } ClrOLR_TqJ_D_sdev { Float32 _FillValue -9999.000000; String long_name "Toa outgoing longwave flux assuming clear sky standard deviation, TqJoint nighttime (descending) node"; String units "W/m2"; } TotalCounts_MW_A { Float32 _FillValue -9999.000000; String long_name "Counts, microwave-only daytime (ascending) node"; } Emis_MW_A { Float32 _FillValue -9999.000000; String standard_name "surface_microwave_emissivity"; String long_name "Surface microwave emissivity, microwave-only daytime (ascending) node"; String units "GHz"; } Emis_MW_A_ct { Float32 _FillValue -9999.000000; String long_name "Surface microwave emissivity counts, microwave-only daytime (ascending) node"; } Emis_MW_A_sdev { Float32 _FillValue -9999.000000; String long_name "Surface microwave emissivity standard deviation, microwave-only daytime (ascending) node"; String units "GHz"; } Temperature_MW_A { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Air temperature, microwave-only daytime (ascending) node"; String units "K"; } Temperature_MW_A_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature counts, microwave-only daytime (ascending) node"; } Temperature_MW_A_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature standard deviation, microwave-only daytime (ascending) node"; String units "K"; } TotH2OVap_MW_A { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_water_vapor_in_atmosphere_layer"; String long_name "Mass content of liquid water in atmosphere layer, microwave-only daytime (ascending) node"; String units "kg/m2"; } TotH2OVap_MW_A_ct { Float32 _FillValue -9999.000000; String long_name "Mass content of water vapor in atmosphere layer counts, microwave-only daytime (ascending) node"; } TotH2OVap_MW_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mass content of water vapor in atmosphere layer standard deviation, microwave-only daytime (ascending) node"; String units "kg/m2"; } GPHeight_MW_A { Float32 _FillValue -9999.000000; String standard_name "geopotential_height"; String long_name "Geopotential height, microwave-only daytime (ascending) node"; String units "m"; } GPHeight_MW_A_ct { Float32 _FillValue -9999.000000; String long_name "Geopotential height counts, microwave-only daytime (ascending) node"; } GPHeight_MW_A_sdev { Float32 _FillValue -9999.000000; String long_name "Geopotential height standard deviation, microwave-only daytime (ascending) node"; String units "m"; } TotCldLiqH2O_MW_A { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_liquid_water_in_atmosphere_layer"; String long_name "Mass content of liquid water in atmosphere layer, microwave-only daytime (ascending) node"; String units "kg/m2"; } TotCldLiqH2O_MW_A_ct { Float32 _FillValue -9999.000000; String long_name "Mass content of liquid water in atmosphere layer counts, microwave-only daytime (ascending) node"; } TotCldLiqH2O_MW_A_sdev { Float32 _FillValue -9999.000000; String long_name "Mass content of liquid water in atmosphere layer standard deviation, microwave-only daytime (ascending) node"; String units "kg/m2"; } EmisFreqMW { String units "GHz"; String format "F5.1"; String standard_name "radiation_frequency"; String long_name "Microwave radiation frequency GHz, microwave-only"; String positive "up"; String _CoordinateAxisType "GeoZ"; } TotalCounts_MW_D { Float32 _FillValue -9999.000000; String long_name "Counts, microwave-only nighttime (descending) node"; } Emis_MW_D { Float32 _FillValue -9999.000000; String standard_name "surface_microwave_emissivity"; String long_name "Surface microwave emissivity, microwave-only nighttime (descending) node"; String units "GHz"; } Emis_MW_D_ct { Float32 _FillValue -9999.000000; String long_name "Surface microwave emissivity counts, microwave-only nighttime (descending) node"; } Emis_MW_D_sdev { Float32 _FillValue -9999.000000; String long_name "Surface microwave emissivity standard deviation, microwave-only nighttime (descending) node"; String units "GHz"; } Temperature_MW_D { Float32 _FillValue -9999.000000; String standard_name "air_temperature"; String long_name "Air temperature, microwave-only nighttime (descending) node"; String units "K"; } Temperature_MW_D_ct { Float32 _FillValue -9999.000000; String long_name "Air temperature counts, microwave-only nighttime (descending) node"; } Temperature_MW_D_sdev { Float32 _FillValue -9999.000000; String long_name "Air temperature standard deviation, microwave-only nighttime (descending) node"; String units "K"; } TotH2OVap_MW_D { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_water_vapor_in_atmosphere_layer"; String long_name "Mass content of liquid water in atmosphere layer, microwave-only nighttime (descending) node"; String units "kg/m2"; } TotH2OVap_MW_D_ct { Float32 _FillValue -9999.000000; String long_name "Mass content of water vapor in atmosphere layer counts, microwave-only nighttime (descending) node"; } TotH2OVap_MW_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mass content of water vapor in atmosphere layer standard deviation, microwave-only nighttime (descending) node"; String units "kg/m2"; } GPHeight_MW_D { Float32 _FillValue -9999.000000; String standard_name "geopotential_height"; String long_name "Geopotential height, microwave-only nighttime (descending) node"; String units "m"; } GPHeight_MW_D_ct { Float32 _FillValue -9999.000000; String long_name "Geopotential height counts, microwave-only nighttime (descending) node"; } GPHeight_MW_D_sdev { Float32 _FillValue -9999.000000; String long_name "Geopotential height standard deviation, microwave-only nighttime (descending) node"; String units "m"; } TotCldLiqH2O_MW_D { Float32 _FillValue -9999.000000; String standard_name "mass_content_of_liquid_water_in_atmosphere_layer"; String long_name "Mass content of liquid water in atmosphere layer, microwave-only nighttime (descending) node"; String units "kg/m2"; } TotCldLiqH2O_MW_D_ct { Float32 _FillValue -9999.000000; String long_name "Mass content of liquid water in atmosphere layer counts, microwave-only nighttime (descending) node"; } TotCldLiqH2O_MW_D_sdev { Float32 _FillValue -9999.000000; String long_name "Mass content of liquid water in atmosphere layer standard deviation, microwave-only nighttime (descending) node"; String units "kg/m2"; } LandSeaMask { Int16 _FillValue 0; } Topography { Float32 _FillValue -9999.000000; } }