__FORCETOC__ ===Import States (1098) === {| class="wikitable" |+ List of GEOS-5 [IM] State variables ! Name !! Component !! Units !! Dim !! Long name |- | OHSTRAT || AChem || mol mol-1 || xyz || Hydroxyl radical |- | O3P || AChem || mol mol-1 || xyz || O triplet P |- | OCS_JRATE || AChem || s-1 || xyz || OCS photolysis rates |- | AREA || AChem || m2 || xy || Cell area |- | AIRDENS || AChem || kg m-3 || xyz || Air density |- | T || AChem || K || xyz || Air Temperature (from Dynamics) |- | DELP || AChem || Pa || xyz || Pressure Thickness |- | PLE || AChem || Pa || xyz || Edge pressure |- | ZLE || AChem || m || xyz || Edge heights |- | RH2 || AChem || 1 || xyz || Relative humidity after moist |- | Q || AChem || kg kg-1 || xyz || Specific humidity |- | QLTOT || AChem || kg kg-1 || xyz || Mass fraction of cloud liquid water |- | QCTOT || AChem || kg kg-1 || xyz || Mass fraction of total cloud water |- | FCLD || AChem || 1 || xyz || Cloud fraction for radiation |- | QL || AChem || kg kg-1 || xyz || Cloud liquid for radiation |- | TROPP || AChem || Pa || xy || Tropopause pressure based on blended estimate |- | TS || AChem || K || xy || Surface skin temperature |- | U10N || AChem || m s-1 || xy || Equivalent neutral 10 meter eastward wind |- | V10N || AChem || m s-1 || xy || Equivalent neutral 10 meter northward wind |- | FROCEAN || AChem || 1 || xy || Fraction of ocean |- | FRLAND || AChem || 1 || xy || Fraction of land |- | FRLAKE || AChem || 1 || xy || Fraction of lake |- | FRLANDICE || AChem || 1 || xy || Fraction of land ice |- | LWI || AChem || 1 || xy || Land-water-ice flags |- | USTAR || AChem || m s-1 || xy || Surface (friction) velocity scale |- | SH || AChem || Wm2 || xy || Sensible heat flux |- | Z0H || AChem || m || xy || Surface roughness for heat |- | ZPBL || AChem || m || xy || Height of PBL |- | OH || AChem || mol mol-1 || xyz || Hydroxyl radical (OH) |- | NO3 || AChem || mol mol-1 || xyz || Nitrogen trixide (NO3) |- | H2O2 || AChem || mol mol-1 || xyz || Hydrogen peroxide (H2O2) |- | O3 || AChem || kg kg-1 || xyz || Ozone (mass mixing ratio) |- | DMS_CONC_OCEAN || AChem || nmol L-1-1 || xy || Surface seawater concentration of DMS |- | SO2_EMIS_FIRES || AChem || kg m-2 s-1 || xy || SO2 emissions from biomass burning |- | SO2_EMIS_NONENERGY || AChem || kg m-2 s-1 || xy || SO2 emissions from non-energy sectors |- | SO2_EMIS_ENERGY || AChem || kg m-2 s-1 || xy || SO2 emissions from energy sector |- | SO2_EMIS_SHIPPING || AChem || kg m-2 s-1 || xy || SO2 emissions from shipping sector |- | SO2_EMIS_AIRCRAFT_LTO || AChem || kg m-2 s-1 || xy || SO2 emissions from aviation (LTO layer) |- | SO2_EMIS_AIRCRAFT_CDS || AChem || kg m-2 s-1 || xy || SO2 emissions from aviation (CDS layer) |- | SO2_EMIS_AIRCRAFT_CRS || AChem || kg m-2 s-1 || xy || SO2 emissions from aviation (CRS layer) |- | NH3_EMIS || AChem || kg m-2 s-1 || xy || NH3 emissions - all sectors excluding biomass burning |- | NH3_EMIS_FIRE || AChem || kg m-2 s-1 || xy || NH3 emissions - biomass burning |- | SOAG_EMIS || AChem || m-2 s-1 || xy || SOA(gas) surface emissions |- | CO_BIOMASS || AChem || kg m-2 s-1 || xy || CO Biomass Burning Emissions |- | CO_BF || AChem || kg m-2 s-1 || xy || CO Biofuel Emissions |- | CO_FS || AChem || kg m-2 s-1 || xy || CO Fossil Fuel Emissions |- | DUDT || ARIESg3 || m s-2 || xyz || eastward wind tendency |- | DVDT || ARIESg3 || m s-2 || xyz || northward wind tendency |- | DTDT || ARIESg3 || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DQVANA || ARIESg3 || kg kg-1 || xyz || specific humidity vapor increment from analysis |- | DQLANA || ARIESg3 || kg kg-1 || xyz || specific humidity liquid increment from analysis |- | DQIANA || ARIESg3 || kg kg-1 || xyz || specific humidity ice increment from analysis |- | DOXANA || ARIESg3 || kg kg-1 || xyz || ozone increment from analysis |- | DPEDT || ARIESg3 || Pa s-1 || xyz || edge pressure tendency |- | PHIS || ARIESg3 || m+2 s-2 || xy || surface geopotential height |- | TRADV || ARIESg3 || unknown || xy || advected quantities |- | MFX || AdvCore || Pa m+2 s-1 || xyz || pressure weighted eastward mass flux |- | MFY || AdvCore || Pa m+2 s-1 || xyz || pressure weighted northward mass flux |- | CX || AdvCore || || xyz || eastward accumulated courant number |- | CY || AdvCore || || xyz || northward accumulated courant number |- | PLE0 || AdvCore || Pa || xyz || pressure at layer edges before advection |- | PLE1 || AdvCore || Pa || xyz || pressure at layer edges after advection |- | TRADV || AdvCore || X || xyz || advected quantities |- | DUDT || Agcm || m s-1 || xyz || eastward wind analysis increment |- | DVDT || Agcm || m s-1 || xyz || northward wind analysis increment |- | DTDT || Agcm || K || xyz || temperature analysis increment |- | DPEDT || Agcm || Pa || xyz || edge pressure analysis increment |- | DQVDT || Agcm || kg kg-1 || xyz || specific humidity analysis increment |- | DO3DT || Agcm || mol mol-1 || xyz || ozone analysis increment |- | DTSDT || Agcm || K || xy || skin temperature increment |- | UNKNOWN || BC || 1 || xy || source species |- | UNKNOWN || BC || 1 || xy || source species |- | UNKNOWN || BC || 1 || xy || source species |- | UNKNOWN || BC || 1 || xy || source species |- | UNKNOWN || BC || 1 || xy || source species |- | UNKNOWN || BC || 1 || xy || bc aviation lto |- | UNKNOWN || BC || 1 || xy || bc aviation cds |- | UNKNOWN || BC || 1 || xy || bc aviation crs |- | UNKNOWN || BC || 1 || xy || bc nei bot |- | UNKNOWN || BC || 1 || xy || bc nei top |- | ZLE || CARMA || m || xyz || Layer interface geopot height |- | PLE || CARMA || Pa || xyz || Layer interface pressure |- | Q || CARMA || kg kg-1 || xyz || Specific Humidity |- | RH2 || CARMA || 1 || xyz || Relative Humidity after Moist |- | T || CARMA || K || xyz || Air Temperature (from Dynamics) |- | AIRDENS || CARMA || kg m-3 || xyz || Air density |- | USTAR || CARMA || m s-1 || xy || Friction Speed |- | U10M || CARMA || m s-1 || xy || EW 10-meter wind speed |- | V10M || CARMA || m s-1 || xy || NS 10-meter wind speed |- | ZPBL || CARMA || m || xy || PBL Height |- | Z0H || CARMA || m || xy || Roughness Length for Heat |- | SH || CARMA || W m-2 || xy || Sensible Heat Flux |- | NCN_PRCP || CARMA || kg m-2 s-1 || xy || Non-convective Precipitation |- | CN_PRCP || CARMA || kg m-2 s-1 || xy || Surface Conv. rain flux needed by land |- | LWI || CARMA || 1 || xy || Land Ocean Ice Mask |- | FROCEAN || CARMA || 1 || xy || Ocean fraction |- | FRLAKE || CARMA || 1 || xy || Lake fraction |- | FRACI || CARMA || 1 || xy || Ice fraction |- | WET1 || CARMA || 1 || xy || Surface Soil Wetness |- | AREA || CARMA || m2 || xy || agrid cell area |- | CNV_MFD || CARMA || kg m-2 s-1 || xyz || detraining mass flux |- | CNV_MFC || CARMA || kg m-2 s-1 || xyz || cumulative mass flux |- | CNV_QC || CARMA || kg kg-1 || xyz || grid mean convective condensate |- | U || CARMA || m s-1 || xyz || Eastward (EW) wind |- | V || CARMA || m s-1 || xyz || Northward (NS) wind |- | PFI_LSAN || CARMA || kg m-2 s-1 || xyz || 3D flux of ice nonconvective precipitation |- | PFL_LSAN || CARMA || kg m-2 s-1 || xyz || 3D flux of liquid nonconvective precipitation |- | CARMA_DU_SRC || CARMA || 1 || xy || dust source efficiency |- | PSO4Gvolc || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from SO2 oxidation (Volcanic) |- | PSO4WETvolc || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from wet SO2 oxidation (Volcanic) |- | PSO4AQvolc || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from aqueous SO2 oxidation (Volcanic) |- | PSO4Gstrat || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from SO2 oxidation (Stratospheric) |- | PSO4WETstrat || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from wet SO2 oxidation (Stratospheric) |- | PSO4AQstrat || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from aqueous SO2 oxidation (Stratospheric) |- | PSO4G || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from SO2 oxidation |- | PSO4WET || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from wet SO2 oxidation |- | PSO4AQ || CARMAchem || kg m-2 s-1 || xyz || SO4 Prod from aqueous SO2 oxidation |- | CFC12 || CFC || kg s-1 m-2 || xy || CFC 12 Emissions |- | CH4_regionMask || CH4 || 1 || xy || source species |- | CH4_sfcFluxiname || CH4 || 1 || xy || source species |- | CH4_ohiname || CH4 || 1 || xyz || source species |- | CO_OHiname || CO || 1 || xyz || source species |- | CO_CH4iname || CO || 1 || xyz || source species |- | CO_BFiname || CO || 1 || xy || source species |- | CO_FSiname || CO || 1 || xy || source species |- | CO_ISOPiname || CO || 1 || xy || source species |- | CO_NVOCiname || CO || 1 || xy || source species |- | CO_TERPiname || CO || 1 || xy || source species |- | CO_BIOMASSiname& || CO || 1 || xy || source species |- | CO2_regionMask || CO2 || 1 || xy || source species |- | CO2_BIOMASS || CO2 || 1 || xy || source species |- | CO2_FF || CO2 || 1 || xy || source species |- | CO2_NEP || CO2 || 1 || xy || source species |- | CO2_OCN || CO2 || 1 || xy || source species |- | CO2_CMS_BIOMASS || CO2 || 1 || xy || source species |- | CO2_CMS_FF || CO2 || 1 || xy || source species |- | CO2_CMS_NEP || CO2 || 1 || xy || source species |- | CO2_CMS_T || CO2 || 1 || xy || source species |- | CO2_CMS_S || CO2 || 1 || xy || source species |- | CO2_CMS_PICE || CO2 || 1 || xy || source species |- | CO2_CMS_PCO2 || CO2 || 1 || xy || source species |- | CO2_CMS_OCN || CO2 || 1 || xy || source species |- | PS || Catch || Pa || tile || surface pressure |- | TA || Catch || K || tile || surface air temperature |- | QA || Catch || kg kg-1 || tile || surface air specific humidity |- | UU || Catch || m s-1 || tile || surface wind speed |- | UWINDLMTILE || Catch || m s-1 || tile || levellm uwind |- | VWINDLMTILE || Catch || m s-1 || tile || levellm vwind |- | PCU || Catch || kg m-2 s-1 || tile || liquid water convective precipitation |- | PLS || Catch || kg m-2 s-1 || tile || liquid water large scale precipitation |- | SNO || Catch || kg m-2 s-1 || tile || snowfall |- | DRPAR || Catch || W m-2 || tile || surface downwelling par beam flux |- | DFPAR || Catch || W m-2 || tile || surface downwelling par diffuse flux |- | DRNIR || Catch || W m-2 || tile || surface downwelling nir beam flux |- | DFNIR || Catch || W m-2 || tile || surface downwelling nir diffuse flux |- | DRUVR || Catch || W m-2 || tile || surface downwelling uvr beam flux |- | DFUVR || Catch || W m-2 || tile || surface downwelling uvr diffuse flux |- | LWDNSRF || Catch || W m-2 || tile || surface downwelling longwave flux |- | ALW || Catch || W m-2 || tile || linearization of surface upwelling longwave flux |- | BLW || Catch || W_m-2 K-1 || tile || linearization of surface upwelling longwave flux |- | LAI || Catch || 1 || tile || leaf area index |- | GRN || Catch || 1 || tile || greeness fraction |- | EVAP || Catch || kg m-2 s-1 || tile || evaporation |- | DEVAP || Catch || kg m-2 s-1 || tile || derivative of evaporation wrt QS |- | SH || Catch || W m-2 || tile || upward sensible heat flux |- | DSH || Catch || W m-2 K-1 || tile || derivative of sensible heat wrt Ts |- | DZ || Catch || m || tile || surface layer height |- | ROOTL || Catch || m || tile || vegetation root length |- | Z2CH || Catch || m || tile || canopy height |- | THATM || Catch || K || tile || effective surface skin temperature |- | QHATM || Catch || kg kg-1 || tile || effective surface specific humidity |- | CTATM || Catch || kg m-2 s-1 || tile || surface exchange coefficient for heat |- | CQATM || Catch || kg m-2 s-1 || tile || surface exchange coefficient for moisture |- | ITY || Catch || 1 || tile || vegetation type |- | PS || CatchCN || Pa || tile || surface pressure |- | TA || CatchCN || K || tile || surface air temperature |- | QA || CatchCN || kg kg-1 || tile || surface air specific humidity |- | UU || CatchCN || m s-1 || tile || surface wind speed |- | UWINDLMTILE || CatchCN || m s-1 || tile || levellm uwind |- | VWINDLMTILE || CatchCN || m s-1 || tile || levellm vwind |- | PCU || CatchCN || kg m-2 s-1 || tile || liquid water convective precipitation |- | PLS || CatchCN || kg m-2 s-1 || tile || liquid water large scale precipitation |- | SNO || CatchCN || kg m-2 s-1 || tile || snowfall |- | DRPAR || CatchCN || W m-2 || tile || surface downwelling par beam flux |- | DFPAR || CatchCN || W m-2 || tile || surface downwelling par diffuse flux |- | DRNIR || CatchCN || W m-2 || tile || surface downwelling nir beam flux |- | DFNIR || CatchCN || W m-2 || tile || surface downwelling nir diffuse flux |- | DRUVR || CatchCN || W m-2 || tile || surface downwelling uvr beam flux |- | DFUVR || CatchCN || W m-2 || tile || surface downwelling uvr diffuse flux |- | LWDNSRF || CatchCN || W m-2 || tile || surface downwelling longwave flux |- | ALW || CatchCN || W m-2 || tile || linearization of surface upwelling longwave flux |- | BLW || CatchCN || W_m-2 K-1 || tile || linearization of surface upwelling longwave flux |- | LAI || CatchCN || 1 || tile || leaf area index |- | GRN || CatchCN || 1 || tile || greeness fraction |- | EVAP || CatchCN || kg m-2 s-1 || tile || evaporation |- | DEVAP || CatchCN || kg m-2 s-1 || tile || derivative of evaporation wrt QS |- | SH || CatchCN || W m-2 || tile || upward sensible heat flux |- | DSH || CatchCN || W m-2 K-1 || tile || derivative of sensible heat wrt Ts |- | DZ || CatchCN || m || tile || surface layer height |- | ROOTL || CatchCN || m || tile || vegetation root length |- | Z2CH || CatchCN || m || tile || canopy height |- | THATM || CatchCN || K || tile || effective surface skin temperature |- | QHATM || CatchCN || kg kg-1 || tile || effective surface specific humidity |- | CTATM || CatchCN || kg m-2 s-1 || tile || surface exchange coefficient for heat |- | CQATM || CatchCN || kg m-2 s-1 || tile || surface exchange coefficient for moisture |- | PLE || ChemEnv || Pa || xyz || air pressure |- | TH || ChemEnv || K || xyz || potential temperature |- | Q || ChemEnv || kg kg-1 || xyz || specific humidity |- | CN_PRCP || ChemEnv || kg m-2 s-1 || xy || Surface Conv. rain flux needed by land |- | TPREC || ChemEnv || kg m-2 s-1 || xy || total precipitation |- | FRLAND || ChemEnv || 1 || xy || fraction of land |- | FRLANDICE || ChemEnv || 1 || xy || fraction of land ice |- | FROCEAN || ChemEnv || 1 || xy || fraction of ocean |- | FRACI || ChemEnv || 1 || xy || ice covered fraction of tile |- | TS || ChemEnv || K || xy || TS |- | U_DGRID || DFI || m s-1 || xyz || eastward wind |- | V_DGRID || DFI || m s-1 || xyz || northward wind |- | PT || DFI || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || DFI || Pa || xyz || air pressure |- | Q || DFI || kg kg^${-1}$ || xyz || specific humidity |- | OX || DFI || ppmv || xyz || molecular oxigen |- | UNKNOWN || DNA || || xyz || UNKNOWN |- | UNKNOWN || DNA || || xyz || UNKNOWN |- | UNKNOWN || DNA || || xyz || UNKNOWN |- | UNKNOWN || DU || 1 || xy || erod |- | HW || DataSea || m || xy || water skin layer depth |- | TW || DataSea || K || xy || water skin temperature |- | SW || DataSea || psu || xy || water skin salinity |- | SWHEAT || DataSea || W m-2 || xyz || solar heating rate |- | TAUX || DataSea || N m-2 || xy || Agrid eastward stress on skin |- | TAUY || DataSea || N m-2 || xy || Agrid northward stress on skin |- | HI || DataSeaIce || m || xy || seaice skin layer depth |- | TI || DataSeaIce || K || xy || seaice skin temperature |- | SI || DataSeaIce || psu || xy || seaice skin salinity |- | HW || DataSeaIce || kg m-2 || xy || water skin layer mass |- | TW || DataSeaIce || K || xy || water skin temperature |- | SW || DataSeaIce || psu || xy || water skin salinity |- | FRACICE || DataSeaIce || 1 || xy || fractional cover of seaice |- | TI || DataSeaIce || K || xy || seaice skin temperature |- | VOLICE || DataSeaIce || m || xy || ice category volume per unit area of grid cell |- | VOLSNO || DataSeaIce || m || xy || sno category volume per unit area of grid cell |- | ERGICE || DataSeaIce || J m-2 || xy || ice category layer internal energy |- | ERGSNO || DataSeaIce || J m-2 || xy || snow category layer internal energy |- | MPOND || DataSeaIce || m || xy || melt pond volume |- | TAUAGE || DataSeaIce || s || xy || volume weighted mean ice age |- | UW || DataSeaIce || m s-1 || xy || water skin eastward velocity |- | VW || DataSeaIce || m s-1 || xy || water skin northward velocity |- | UWB || DataSeaIce || m s-1 || xy || water skin eastward velocity on b grid |- | VWB || DataSeaIce || m s-1 || xy || water skin northward velocity on b grid |- | SLV || DataSeaIce || m || xy || sea level with ice loading |- | DTDT || DatmoDyn || K s-1 || xyz || T tendency |- | DUDT || DatmoDyn || m s-1 s-1 || xyz || later |- | DVDT || DatmoDyn || m s-1 s-1 || xyz || later |- | DPEDT || DatmoDyn || Pa || xyz || air pressure |- | DQVANA || DatmoDyn || kg kg-1 || xyz || specific humidity vapor increment from analysis |- | DQLANA || DatmoDyn || kg kg-1 || xyz || specific humidity liquid increment from analysis |- | DQIANA || DatmoDyn || kg kg-1 || xyz || specific humidity ice increment from analysis |- | DOXANA || DatmoDyn || kg kg-1 || xyz || ozone increment from analysis |- | PHIS || DatmoDyn || m+2 sec-2 || xy || surface geopotential height |- | TRADV || DatmoDyn || unknown || xy || advected quantities |- | DUDT || DynCore || m s-2 || xyz || eastward wind tendency |- | DVDT || DynCore || m s-2 || xyz || northward wind tendency |- | DTDT || DynCore || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DQVANA || DynCore || kg kg-1 || xyz || specific humidity increment from analysis |- | DQLANA || DynCore || kg kg-1 || xyz || specific humidity liquid increment from analysis |- | DQIANA || DynCore || kg kg-1 || xyz || specific humidity ice increment from analysis |- | DOXANA || DynCore || kg kg-1 || xyz || ozone increment from analysis |- | DPEDT || DynCore || Pa s-1 || xyz || edge pressure tendency |- | PHIS || DynCore || m+2 s-2 || xy || surface geopotential height |- | TRADV || DynCore || unknown || xy || advected quantities |- | DUDT || DynVec || m s-1 || xyz || eastward wind analysis increment |- | DVDT || DynVec || m s-1 || xyz || northward wind analysis increment |- | DTDT || DynVec || K || xyz || temperature analysis increment |- | DPEDT || DynVec || Pa || xyz || edge pressure analysis increment |- | QTOT || DynVec || kg kg-1 || xyz || total specific humidity |- | DUDT || FVdycore || m s-2 || xyz || eastward wind tendency |- | DVDT || FVdycore || m s-2 || xyz || northward wind tendency |- | DTDT || FVdycore || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DQVANA || FVdycore || kg kg-1 || xyz || specific humidity vapor increment from analysis |- | DQLANA || FVdycore || kg kg-1 || xyz || specific humidity liquid increment from analysis |- | DQIANA || FVdycore || kg kg-1 || xyz || specific humidity ice increment from analysis |- | DOXANA || FVdycore || kg kg-1 || xyz || ozone increment from analysis |- | DPEDT || FVdycore || Pa s-1 || xyz || edge pressure tendency |- | PHIS || FVdycore || m+2 s-2 || xy || surface geopotential height |- | TRADV || FVdycore || unknown || xy || advected quantities |- | DELP || GAAS || Pa || xyz || Pressure Thickness |- | RH2 || GAAS || 1 || xyz || Relative Humidity |- | du001 || GAAS || kgkg || xyz || Dust Mixing Ratio Bin 1 |- | du002 || GAAS || kgkg || xyz || Dust Mixing Ratio Bin 2 |- | du003 || GAAS || kgkg || xyz || Dust Mixing Ratio Bin 3 |- | du004 || GAAS || kgkg || xyz || Dust Mixing Ratio Bin 4 |- | du005 || GAAS || kgkg || xyz || Dust Mixing Ratio Bin 5 |- | ss001 || GAAS || kgkg || xyz || Sea Salt Mixing Ratio Bin 1 |- | ss002 || GAAS || kgkg || xyz || Sea Salt Mixing Ratio Bin 2 |- | ss003 || GAAS || kgkg || xyz || Sea Salt Mixing Ratio Bin 3 |- | ss004 || GAAS || kgkg || xyz || Sea Salt Mixing Ratio Bin 4 |- | ss005 || GAAS || kgkg || xyz || Sea Salt Mixing Ratio Bin 5 |- | ni001 || GAAS || kgkg || xyz || Nitrate Mixing Ratio Bin 1 |- | ni002 || GAAS || kgkg || xyz || Nitrate Mixing Ratio Bin 3 |- | ni003 || GAAS || kgkg || xyz || Nitrate Mixing Ratio Bin 4 |- | SO4 || GAAS || kgkg || xyz || SO4 Mixing Ratio |- | OCphobic || GAAS || kgkg || xyz || Hydrophobic Organic Carbon Mixing Ratio |- | OCphilic || GAAS || kgkg || xyz || Hydrophilic Organic Carbon Mixing Ratio |- | BCphobic || GAAS || kgkg || xyz || Hydrophobic Black Carbon Mixing Ratio |- | BCphilic || GAAS || kgkg || xyz || Hydrophilic Black Carbon Mixing Ratio |- | DELP || GMICHEM || Pa || xyz || pressure tickness |- | PLE || GMICHEM || Pa || xyz || air pressure |- | Q || GMICHEM || kg kg-1 || xyz || specific humidity |- | QCTOT || GMICHEM || kg kg-1 || xyz || mass fraction of total cloud water |- | T || GMICHEM || K || xyz || air temperature |- | AIRDENS || GMICHEM || kg m-3 || xyz || air density |- | ZLE || GMICHEM || m || xyz || geopotential height |- | FCLD || GMICHEM || fraction || xyz || cloud fraction for radiation |- | TAUCLW || GMICHEM || 1 || xyz || optical thickness for liquid clouds |- | TAUCLI || GMICHEM || 1 || xyz || optical thickness for ice clouds |- | QL || GMICHEM || kg kg-1 || xyz || cloud liquid for radiation |- | CNV_MFC || GMICHEM || kg m-2 s-1 || xyz || cumulative mass flux |- | CNV_MFD || GMICHEM || kg m-2 s-1 || xyz || detraining mass flux |- | RH2 || GMICHEM || 1 || xyz || relative humidity after moist |- | DQDT || GMICHEM || s-1 || xyz || specific humidity tendency due to moist |- | PFL_CN || GMICHEM || kg m-2 s-1 || xyz || 3D flux of liquid convective precipitation |- | PFL_LSAN || GMICHEM || kg m-2 s-1 || xyz || 3D flux of liquid nonconvective precipitation |- | CN_PRCP || GMICHEM || kg m-2 s-1 || xy || convective precipitation |- | TPREC || GMICHEM || kg m-2 s-1 || xy || total precipitation |- | TA || GMICHEM || K || xy || surface air temperature |- | T2M || GMICHEM || K || xy || 2-meter air temperature |- | ALBVF || GMICHEM || 1 || xy || surface albedo for visible diffuse |- | LWI || GMICHEM || 1 || xy || land-ocean-ice mask |- | ZPBL || GMICHEM || m || xy || planetary boundary layer height |- | LAI || GMICHEM || 1 || xy || leaf area index |- | U10M || GMICHEM || m s-1 || xy || 10-meter eastward wind |- | V10M || GMICHEM || m s-1 || xy || 10-meter northward wind |- | USTAR || GMICHEM || m s-1 || xy || surface velocity scale |- | Z0H || GMICHEM || m || xy || surface roughness for heat |- | SWNDSRF || GMICHEM || W m-2 || xy || surface net downward shortwave flux |- | CLDTT || GMICHEM || 1 || xy || total cloud area fraction |- | WET1 || GMICHEM || 1 || xy || surface soil wetness |- | TROPP || GMICHEM || Pa || xy || tropopause pressure based on blended estimate |- | DFPAR || GMICHEM || W m-2 || xy || surface downwelling par diffuse flux |- | DRPAR || GMICHEM || W m-2 || xy || surface downwelling par beam flux |- | FRLAND || GMICHEM || 1 || xy || fraction of land |- | FRLANDICE || GMICHEM || 1 || xy || fraction of land ice |- | ASNOW || GMICHEM || 1 || xy || fractional area of land snowcover |- | AREA || GMICHEM || m^2 || xy || agrid cell area |- | LFR || GMICHEM || km-2 s-1 || xy || lightning flash rate |- | ACET_FIXED || GMICHEM || mol mol-1 || xyz || acetone |- | SAD || GMICHEM || cm+2 cm-3 || xyz || sulfate surface area density |- | SOILFERT || GMICHEM || ng N m-2 s-1 || xy || fertilizers |- | SOILPRECIP || GMICHEM || mm d-1 || xy || precipitation |- | ALD2_biof || GMICHEM || kg m-2 s-1 || xy || ALD2 Biofuel Emissions |- | ALD2_biom || GMICHEM || kg m-2 s-1 || xy || ALD2 Biomass Burning Emissions |- | ALK4_fosf || GMICHEM || kg m-2 s-1 || xy || ALK4 Fossil Fuel Emissions |- | ALK4_biof || GMICHEM || kg m-2 s-1 || xy || ALK4 Biofuel Emissions |- | ALK4_biom || GMICHEM || kg m-2 s-1 || xy || ALK4 Biomass Burning Emissions |- | C2H6_fosf || GMICHEM || kg m-2 s-1 || xy || C2H6 Fossil Fuel Emissions |- | C2H6_biof || GMICHEM || kg m-2 s-1 || xy || C2H6 Biofuel Emissions |- | C2H6_biom || GMICHEM || kg m-2 s-1 || xy || C2H6 Biomass Burning Emissions |- | PRPE_fosf || GMICHEM || kg m-2 s-1 || xy || C3H6 Fossil Fuel Emissions |- | PRPE_biof || GMICHEM || kg m-2 s-1 || xy || C3H6 Biofuel Emissions |- | PRPE_biom || GMICHEM || kg m-2 s-1 || xy || C3H6 Biomass Burning Emissions |- | C3H8_fosf || GMICHEM || kg m-2 s-1 || xy || C3H8 Fossil Fuel Emissions |- | C3H8_biof || GMICHEM || kg m-2 s-1 || xy || C3H8 Biofuel Emissions |- | C3H8_biom || GMICHEM || kg m-2 s-1 || xy || C3H8 Biomass Burning Emissions |- | CH2O_biof || GMICHEM || kg m-2 s-1 || xy || CH2O Fossil Fuel Emissions |- | CH2O_biom || GMICHEM || kg m-2 s-1 || xy || CH2O Biofuel Burning Emissions |- | CH4_biom || GMICHEM || kg CH4 m-2 s-1 || xy || CH4 Biomass Emissions |- | CH4_aggr || GMICHEM || kg CH4 m-2 s-1 || xy || CH4 Emissions aggregated |- | MEK_fosf || GMICHEM || kg m-2 s-1 || xy || MEK Fossil Fuel Emissions |- | MEK_biof || GMICHEM || kg m-2 s-1 || xy || MEK Biofuel Emissions |- | MEK_biom || GMICHEM || kg m-2 s-1 || xy || MEK Biomass Burning Emissions |- | CO_fosf || GMICHEM || kg CO m-2 s-1 || xy || CO fossil fuel emissions |- | CO_biof || GMICHEM || kg CO m-2 s-1 || xy || CO biofuel emissions |- | CO_biom || GMICHEM || kg CO m-2 s-1 || xy || CO biomass burning emissions |- | NO_air || GMICHEM || kg NO m-2 s-1 || xyz || NO aircraft emissions |- | NO_lgt || GMICHEM || kg NO m-2 s-1 || xyz || NO lightning emissions |- | NO_fosf || GMICHEM || kg NO m-2 s-1 || xy || NO fossil fuel emissions (non-PP) |- | NO_biof || GMICHEM || kg NO m-2 s-1 || xy || NO biofuel emissions |- | NO_biom || GMICHEM || kg NO m-2 s-1 || xy || NO biomass burning emissions |- | NO_pwrp || GMICHEM || kg NO m-2 s-1 || xy || NO power plant emissions |- | NO_ship || GMICHEM || kg NO m-2 s-1 || xy || NO shipping emissions |- | MEGAN_ISOP || GMICHEM || mg C m-2 h-1 || xy || biogenic source isoprene |- | MEGAN_MBO || GMICHEM || mg C m-2 h-1 || xy || biogenic source mbo |- | MEGAN_MPE || GMICHEM || mg C m-2 h-1 || xy || biogenic source monoterpene |- | MEGAN_OVOC || GMICHEM || mg C m-2 h-1 || xy || biogenic source other VOC |- | MEGAN_LAI_001 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index jan 2000 |- | MEGAN_LAI_002 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index feb 2000 |- | MEGAN_LAI_003 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index mar 2000 |- | MEGAN_LAI_004 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index apr 2000 |- | MEGAN_LAI_005 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index may 2000 |- | MEGAN_LAI_006 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index jun 2000 |- | MEGAN_LAI_007 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index jul 2000 |- | MEGAN_LAI_008 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index aug 2000 |- | MEGAN_LAI_009 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index sep 2000 |- | MEGAN_LAI_010 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index oct 2000 |- | MEGAN_LAI_011 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index nov 2000 |- | MEGAN_LAI_012 || GMICHEM || cm cm-2 || xy || AVHRR leaf area index dec 2000 |- | BC1 || GMICHEM || kg m-3 || xyz || hydrophobic black carbon |- | BC2 || GMICHEM || kg m-3 || xyz || hydrophilic black carbon |- | OC1 || GMICHEM || kg m-3 || xyz || hydrophobic organic carbon |- | OC2 || GMICHEM || kg m-3 || xyz || hydrophilic organic carbon |- | SS1 || GMICHEM || kg m-3 || xyz || sea salt |- | SS2 || GMICHEM || kg m-3 || xyz || sea salt |- | SS3 || GMICHEM || kg m-3 || xyz || sea salt |- | SS4 || GMICHEM || kg m-3 || xyz || sea salt |- | SO4 || GMICHEM || kg m-3 || xyz || sulfate |- | SO4v || GMICHEM || kg m-3 || xyz || sulfate from volcanos |- | MDUST1 || GMICHEM || kg m-3 || xyz || dust |- | MDUST2 || GMICHEM || kg m-3 || xyz || dust |- | MDUST3 || GMICHEM || kg m-3 || xyz || dust |- | MDUST4 || GMICHEM || kg m-3 || xyz || dust |- | MDUST5 || GMICHEM || kg m-3 || xyz || dust |- | MDUST6 || GMICHEM || kg m-3 || xyz || dust |- | MDUST7 || GMICHEM || kg m-3 || xyz || dust |- | VEG_FRAC || GMICHEM || mil || xyz || Olson land type fraction mils |- | LAI_FRAC || GMICHEM || 1 || xyz || GMI leaf area index |- | UNKNOWN || GMIchem || state%chemReg%vunits(n) || xyz || state%chemReg%vtitle(n) |- | UNKNOWN || GMIchem || state%chemReg%vunits(n) || xyz || state%chemReg%vtitle(n) |- | AERO || GMIchem || kg kg-1 || xyz || aerosol mass mixing ratios |- | PLE || GOCART || Pa || xyz || air pressure |- | DELP || GOCART || Pa || xyz || pressure thickness |- | RH2 || GOCART || 1 || xyz || Rel Hum after moist |- | UNKNOWN || GOCART || r%vunits(n) || xyz || r%vtitle(n) |- | climfield_name || GOCART || r%vunits(n) || xy || r%vtitle(n) |- | climfield_name || GOCART || r%vunits(n) || xy || r%vtitle(n) |- | climfield_name || GOCART || r%vunits(n) || xy || r%vtitle(n) |- | climfield_name || GOCART || r%vunits(n) || xy || r%vtitle(n) |- | climfield_name || GOCART || r%vunits(n) || xy || r%vtitle(n) |- | climfield_name || GOCART || r%vunits(n) || xy || r%vtitle(n) |- | climfield_name || GOCART || r%vunits(n) || xy || r%vtitle(n) |- | OH || GOCART || molmol || xyz || Hydroxyl radical |- | CH4 || GOCART || molmol || xyz || Methane |- | H2O2 || GOCART || molmol || xyz || Hydrogen peroxide |- | NO3 || GOCART || molmol || xyz || Nitrogen trioxide |- | PLE || GOCART || Pa || xyz || air pressure |- | DELP || GOCART || Pa || xyz || pressure thickness |- | ZLE || GOCART || m || xyz || geopotential height |- | AIRDENS || GOCART || kgm^3 || xyz || moist air density |- | AIRDENS_DRY || GOCART || kgm^3 || xyz || dry air density |- | FCLD || GOCART || 1 || xyz || Cloud fraction for radiation |- | T || GOCART || K || xyz || air temperature |- | U || GOCART || m s-1 || xyz || eastward wind |- | V || GOCART || m s-1 || xyz || northward wind |- | Q || GOCART || kg kg-1 || xyz || specific humidity |- | RH2 || GOCART || 1 || xyz || Rel Hum after moist |- | PFI_LSAN || GOCART || kgm2s || xyz || 3D flux of ice nonconvective precipitation |- | PFL_LSAN || GOCART || kgm2s || xyz || 3D flux of liquid nonconvective precipitation |- | O3 || GOCART || kgkg || xyz || ozone mass mixing ratio |- | TROPP || GOCART || Pa || xy || tropopause pressure based on blended estimate |- | LWI || GOCART || 1 || xy || land-ocean-ice mask |- | ZPBL || GOCART || m || xy || Planetary boundary layer height |- | FRLAKE || GOCART || 1 || xy || fraction of lake |- | FROCEAN || GOCART || 1 || xy || fraction of ocean |- | FRACI || GOCART || 1 || xy || ice covered fraction of tile |- | WET1 || GOCART || 1 || xy || surface soil wetness |- | LAI || GOCART || 1 || xy || leaf area index |- | GRN || GOCART || 1 || xy || greeness fraction |- | CN_PRCP || GOCART || kgm^2s || xy || Surface Conv. rain flux needed by land |- | NCN_PRCP || GOCART || kgm^2s || xy || Non-convective precipitation |- | PS || GOCART || Pa || xy || surface pressure |- | SH || GOCART || W m-2 || xy || sensible heat flux from turbulence |- | TA || GOCART || K || xy || surface temperature from surface |- | DZ || GOCART || m || xy || surface layer height |- | TSOIL1 || GOCART || K || xy || soil temperatures layer 1 |- | U10M || GOCART || m s-1 || xy || 10-meter eastward wind |- | V10M || GOCART || m s-1 || xy || 10-meter northward wind |- | U10N || GOCART || m s-1 || xy || equivalent neutral 10-meter eastward wind |- | V10N || GOCART || m s-1 || xy || equivalent neutral 10-meter northward wind |- | USTAR || GOCART || m s-1 || xy || surface velocity scale |- | Z0H || GOCART || m || xy || surface roughness for heat |- | AREA || GOCART || m^2 || xy || agrid cell area |- | TS || GOCART || K || xy || surface skin temperature |- | CNV_MFD || GOCART || kg m-2 s-1 || xyz || detraining mass flux |- | CNV_MFC || GOCART || kg m-2 s-1 || xyz || cumulative mass flux |- | QLCN || GOCART || kg kg-1 || xyz || mass fraction of convective cloud liquid water |- | QICN || GOCART || kg kg-1 || xyz || mass fraction of convective cloud ice water |- | SWNDSRF || GOCART || W m^-2 || xy || surface net downward shortwave flux |- | CLDTT || GOCART || 1 || xy || total cloud area fraction |- | PLE || Gwd || Pa || xyz || air pressure |- | T || Gwd || K || xyz || air temperature |- | Q || Gwd || kg kg-1 || xyz || specific humidity |- | U || Gwd || m s-1 || xyz || eastward wind |- | V || Gwd || m s-1 || xyz || northward wind |- | SGH || Gwd || m || xy || standard deviation of topography |- | PREF || Gwd || Pa || z || reference air pressure |- | QI || Gwd || kg kg-1 || xyz || specific humidity of suspended ice |- | LS_PRCP || Gwd || kg m-2 s-1 || xy || Total LS Surface precipitation flux |- | UNKNOWN || HCOI_ESMF_MOD || UNKNOWN || xy || UNKNOWN |- | UNKNOWN || HCOI_ESMF_MOD || UNKNOWN || xyz || UNKNOWN |- | AIRDENS || HEMCO || kgm-3 || xyz || air density |- | ZLE || HEMCO || m || xyz || geopotential height |- | PS || HEMCO || Pa || xy || surface pressure |- | AREA || HEMCO || m2 || xy || grid cell area |- | U10M || HEMCO || ms || xy || 10-meter eastward wind |- | V10M || HEMCO || ms || xy || 10-meter northward wind |- | FRLAND || HEMCO || 1 || xy || fraction of land |- | FRLANDICE || HEMCO || 1 || xy || fraction of land ice |- | FRLAKE || HEMCO || 1 || xy || fraction of lake |- | FROCEAN || HEMCO || 1 || xy || fraction of ocean |- | TS || HEMCO || K || xy || surface skin temperature |- | T2M || HEMCO || K || xy || 2-meter air temperature |- | ALBVF || HEMCO || 1 || xy || surface albedo for visible diffuse |- | PLE || HEMCO || Pa || xyz || air pressure layer interfaces |- | TROPP || HEMCO || Pa || xy || tropopause pressure based on blended estimate |- | T || HEMCO || K || xyz || air temperature |- | Z0H || HEMCO || m || xy || surface roughness |- | USTAR || HEMCO || ms || xy || surface velocity scale |- | WET1 || HEMCO || 1 || xy || surface soil wetness |- | WET2 || HEMCO || 1 || xy || root soil wetness |- | Q || HEMCO || kgkg || xyz || specific humidity |- | SNOMAS || HEMCO || kg m-2 || xy || snow mass |- | SNOWDP || HEMCO || m || xy || snow depth |- | LWI || HEMCO || 1 || xy || land-ocean-ice mask |- | LAI || HEMCO || 1 || xy || leaf area index |- | CNV_MFC || HEMCO || kgm2s || xyz || cumulative mass flux |- | DRPAR || HEMCO || Wm2 || xy || surface downwelling par beam flux |- | DFPAR || HEMCO || Wm2 || xy || surface downwelling par diffuse flux |- | SWNDSRF || HEMCO || Wm2 || xy || surface net downward shortwave flux |- | CLDTT || HEMCO || 1 || xy || total cloud area fraction |- | DUDT || IAU || m s-1 || xyz || eastward wind analysis increment |- | DVDT || IAU || m s-1 || xyz || northward wind analysis increment |- | DTDT || IAU || K || xyz || temperature analysis increment |- | DPEDT || IAU || Pa || xyz || edge pressure analysis increment |- | DQVDT || IAU || kg kg-1 || xyz || specific humidity analysis increment |- | DO3DT || IAU || ppmv || xyz || ozone analysis increment |- | DTSDT || IAU || K || xy || skin temparature increment |- | AGCM_Exports || IAU || X || xy || export iau increments |- | PLE || Irrad || Pa || xyz || air pressure |- | T || Irrad || K || xyz || air temperature |- | QV || Irrad || kg kg-1 || xyz || specific humidity |- | QL || Irrad || kg kg-1 || xyz || mass fraction of cloud liquid water in air |- | QI || Irrad || kg kg-1 || xyz || mass fraction of cloud ice in air |- | QR || Irrad || kg kg-1 || xyz || mass fraction of rain water in air |- | QS || Irrad || kg kg-1 || xyz || mass fraction of snow in air |- | RL || Irrad || m || xyz || effective radius of cloud liquid water particles |- | RI || Irrad || m || xyz || effective radius of cloud ice particles |- | RR || Irrad || m || xyz || effective radius of rain particles |- | RS || Irrad || m || xyz || effective radius of snow particles |- | O3 || Irrad || kg kg-1 || xyz || ozone mass mixing ratio |- | CH4 || Irrad || pppv || xyz || methane concentration |- | N2O || Irrad || pppv || xyz || nitrous oxide concentration |- | CFC11 || Irrad || pppv || xyz || CFC11 concentration |- | CFC12 || Irrad || pppv || xyz || CFC12 concentration |- | HCFC22 || Irrad || pppv || xyz || HCFC22 concentration |- | FCLD || Irrad || 1 || xyz || cloud area fraction in atmosphere layer |- | TS || Irrad || K || xy || surface skin temperature |- | EMIS || Irrad || 1 || xy || surface emissivity |- | PREF || Irrad || Pa || z || reference air pressure |- | TSINST || Irrad || K || xy || surface skin temperature |- | AERO || Irrad || kg kg-1 || xyz || aerosols |- | ALW || Lake || W m-2 || tile || linearization of surface upwelling longwave flux |- | BLW || Lake || W m-2 K-1 || tile || linearization of surface upwelling longwave flux |- | DRPAR || Lake || W m-2 || tile || surface downwelling par beam flux |- | DFPAR || Lake || W m-2 || tile || surface downwelling par diffuse flux |- | DRNIR || Lake || W m-2 || tile || surface downwelling nir beam flux |- | DFNIR || Lake || W m-2 || tile || surface downwelling nir diffuse flux |- | DRUVR || Lake || W m-2 || tile || surface downwelling uvr beam flux |- | DFUVR || Lake || W m-2 || tile || surface downwelling uvr diffuse flux |- | LWDNSRF || Lake || W m-2 || tile || surface downwelling longwave flux |- | EVAP || Lake || kg m-2 s-1 || tile || evaporation |- | SH || Lake || W m-2 || tile || upward sensible heat flux |- | DEVAP || Lake || kg m-2 s-1 || tile || derivative of evaporation |- | DSH || Lake || W m-2 || tile || derivative of upward sensible heat flux |- | SNO || Lake || kg m-2 s-1 || tile || snowfall |- | PCU || Lake || kg m-2 s-1 || tile || liquid water convective precipitation |- | PLS || Lake || kg m-2 s-1 || tile || liquid water large scale precipitation |- | TA || Lake || K || tile || surface air temperature |- | QA || Lake || kg kg-1 || tile || surface air specific humidity |- | UU || Lake || m s-1 || tile || surface wind speed |- | UWINDLMTILE || Lake || m s-1 || tile || levellm uwind |- | VWINDLMTILE || Lake || m s-1 || tile || levellm vwind |- | DZ || Lake || m || tile || surface layer height |- | PS || Lake || Pa || tile || surface pressure |- | THATM || Lake || K || tile || effective surface skin temperature |- | QHATM || Lake || kg kg-1 || tile || effective surface specific humidity |- | CTATM || Lake || kg m-2 s-1 || tile || surface exchange coefficient for heat |- | CQATM || Lake || kg m-2 s-1 || tile || surface exchange coefficient for moisture |- | ALW || Landice || W m-2 || tile || linearization of surface upwelling longwave flux |- | BLW || Landice || W m-2 K-1 || tile || linearization of surface upwelling longwave flux |- | DRPAR || Landice || W m-2 || tile || surface downwelling par beam flux |- | DFPAR || Landice || W m-2 || tile || surface downwelling par diffuse flux |- | DRNIR || Landice || W m-2 || tile || surface downwelling nir beam flux |- | DFNIR || Landice || W m-2 || tile || surface downwelling nir diffuse flux |- | DRUVR || Landice || W m-2 || tile || surface downwelling uvr beam flux |- | DFUVR || Landice || W m-2 || tile || surface downwelling uvr diffuse flux |- | LWDNSRF || Landice || W m-2 || tile || surface downwelling longwave flux |- | EVAP || Landice || kg m-2 s-1 || tile || evaporation |- | SH || Landice || W m-2 || tile || upward sensible heat flux |- | DEVAP || Landice || kg m-2 s-1 || tile || derivative of evaporation |- | DSH || Landice || W m-2 || tile || derivative of upward sensible heat flux |- | SNO || Landice || kg m-2 s-1 || tile || snowfall |- | TA || Landice || K || tile || surface air temperature |- | QA || Landice || kg kg-1 || tile || surface air specific humidity |- | UU || Landice || m s-1 || tile || surface wind speed |- | UWINDLMTILE || Landice || m s-1 || tile || levellm uwind |- | VWINDLMTILE || Landice || m s-1 || tile || levellm vwind |- | DZ || Landice || m || tile || surface layer height |- | PS || Landice || Pa || tile || surface pressure |- | PCU || Landice || kg m-2 s-1 || tile || liquid water convective precipitation |- | PLS || Landice || kg m-2 s-1 || tile || liquid water large scale precipitation |- | THATM || Landice || K || tile || effective surface skin temperature |- | QHATM || Landice || kg kg-1 || tile || effective surface specific humidity |- | CTATM || Landice || kg m-2 s-1 || tile || surface exchange coefficient for heat |- | CQATM || Landice || kg m-2 s-1 || tile || surface exchange coefficient for moisture |- | SH || MAMchem || Wm2 || xy || Sensible heat flux |- | Z0H || MAMchem || m || xy || Surface roughness for heat |- | LAI || MAMchem || 1 || xy || Leaf area index |- | LWI || MAMchem || 1 || xy || Land-water-ice flags |- | ZPBL || MAMchem || m || xy || PBL depth |- | FRLAND || MAMchem || 1 || xy || Land fraction |- | FRLAKE || MAMchem || 1 || xy || Lake fraction |- | FROCEAN || MAMchem || 1 || xy || Ocean fraction |- | FRACI || MAMchem || 1 || xy || Ice fraction |- | TS || MAMchem || K || xy || Surface skin temperature |- | CN_PRCP || MAMchem || kg m-2 s-1 || xy || Conv precip at the ground |- | NCN_PRCP || MAMchem || kg m-2 s-1 || xy || Non-convective precipitation |- | TROPP || MAMchem || Pa || xy || Tropopause pressure |- | USTAR || MAMchem || m s-1 || xy || Surface (friction) velocity scale |- | U10M || MAMchem || m s-1 || xy || EW 10-meter wind speed |- | V10M || MAMchem || m s-1 || xy || NS 10-meter wind speed |- | U10N || MAMchem || m s-1 || xy || Equivalent neutral 10-meter eastward wind speed |- | V10N || MAMchem || m s-1 || xy || Equivalent neutral 10-meter northward wind speed |- | WET1 || MAMchem || 1 || xy || Surface Soil Wetness |- | FCLD || MAMchem || 1 || xyz || Cloud fraction |- | RH2 || MAMchem || 1 || xyz || Relative humidity |- | Q || MAMchem || kg kg-1 || xyz || Specific Humidity |- | T || MAMchem || K || xyz || Air Temperature (from Dynamics) |- | AIRDENS || MAMchem || kg m-3 || xyz || Air density |- | PFL_LSAN || MAMchem || kg m-2 s-1 || xyz || 3D flux of liquid nonconvective precipitation |- | PFI_LSAN || MAMchem || kg m-2 s-1 || xyz || 3D flux of ice nonconvective precipitation |- | CNV_MFC || MAMchem || kg m-2 s-1 || xyz || Cumulative mass flux |- | CNV_MFD || MAMchem || kg m-2 s-1 || xyz || Detraining mass flux |- | DELP || MAMchem || Pa || xyz || Pressure thickness |- | PLE || MAMchem || Pa || xyz || Edge pressure |- | ZLE || MAMchem || m || xyz || Edge heights |- | U || MAMchem || m s-1 || xyz || Eastward (EW) wind |- | V || MAMchem || m s-1 || xyz || Northward (NS) wind |- | SO2 || MAMchem || mol mol-1 || xyz || Sulfur dioxide (SO2 gas) |- | H2SO4 || MAMchem || mol mol-1 || xyz || Sulfuric acid (H2SO4 gas) |- | NH3 || MAMchem || mol mol-1 || xyz || Ammonia (NH3 gas) |- | SOA_GAS || MAMchem || mol mol-1 || xyz || Secondary Organic Aerosols (SOA gas) |- | pSO4_aq || MAMchem || mol mol-1 s-1 || xyz || Production rate of sulfate (SO4) in aqueous phase |- | pNH4_aq || MAMchem || mol mol-1 s-1 || xyz || Production rate of ammonium (NH4) in aqueous phase |- | DDT_DMS_gas || MAMchem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS gas) tendency due to gas phase chemistry |- | DDT_MSA_gas || MAMchem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA gas) tendency due to gas phase chemistry |- | DDT_SO2_gas || MAMchem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2 gas) tendency due to gas phase chemistry |- | DDT_H2SO4_gas || MAMchem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) tendency due to gas phase chemistry |- | DDT_NH3_gas || MAMchem || mol mol-1 s-1 || xyz || Ammonia (NH3 gas) tendency due to gas phase chemistry |- | DDT_SOA_GAS_gas || MAMchem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) tendency due to gas phase chemistry |- | _DMS_gas || MAMchem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS) before gas phase chemistry |- | _MSA_gas || MAMchem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA) befoe gas phase chemistry |- | _SO2_gas || MAMchem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2) before gas phase chemistry |- | _H2SO4_gas || MAMchem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) before gas phase chemistry |- | _NH3_gas || MAMchem || mol mol-1 s-1 || xyz || Ammonia (NH3) before gas phase chemistry |- | _SOA_GAS_gas || MAMchem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) before gas phase chemistry |- | DDT_DMS_aq || MAMchem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS gas) tendency due to aqueous phase chemistry |- | DDT_MSA_aq || MAMchem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA gas) tendency due to aqueous phase chemistry |- | DDT_SO2_aq || MAMchem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2 gas) tendency due to aqueous phase chemistry |- | DDT_H2SO4_aq || MAMchem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) tendency due to aqueous phase chemistry |- | DDT_NH3_aq || MAMchem || mol mol-1 s-1 || xyz || Ammonia (NH3 gas) tendency due to aqueous phase chemistry |- | DDT_SOA_GAS_aq || MAMchem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) tendency due to aqueous phase chemistry |- | _DMS_aq || MAMchem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS gas) before aqueous phase chemistry |- | _MSA_aq || MAMchem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA gas) before aqueous phase chemistry |- | _SO2_aq || MAMchem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2 gas) before aqueous phase chemistry |- | _H2SO4_aq || MAMchem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) before aqueous phase chemistry |- | _NH3_aq || MAMchem || mol mol-1 s-1 || xyz || Ammonia (NH3 gas) tendency before aqueous phase chemistry |- | _SOA_GAS_aq || MAMchem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) before aqueous phase chemistry |- | BC_EMIS_FIRE || MAMchem || kg m-2 s-1 || xy || BC emissions - biomass burning |- | BC_EMIS_BIOFUEL || MAMchem || kg m-2 s-1 || xy || BC emissions - biofuel |- | BC_EMIS_FOSSILFUEL || MAMchem || kg m-2 s-1 || xy || BC emissions - fossil fuels |- | BC_EMIS_SHIP || MAMchem || kg m-2 s-1 || xy || BC emissions - ships |- | OC_EMIS_FIRE || MAMchem || kg m-2 s-1 || xy || OC emissions - biomass burning |- | OC_EMIS_BIOFUEL || MAMchem || kg m-2 s-1 || xy || OC emissions - biofuel |- | OC_EMIS_FOSSILFUEL || MAMchem || kg m-2 s-1 || xy || OC emissions - fossil fuels |- | OC_EMIS_SHIP || MAMchem || kg m-2 s-1 || xy || OC emissions - ships |- | SO4_EMIS_SHIP || MAMchem || kg m-2 s-1 || xy || SO4 emissions - ships |- | GINOUX_DU || MAMchem || 1 || xy || Ginoux dust source |- | SH || MATRIXchem || Wm2 || xy || Sensible heat flux |- | Z0H || MATRIXchem || m || xy || Surface roughness for heat |- | LAI || MATRIXchem || 1 || xy || Leaf area index |- | LWI || MATRIXchem || 1 || xy || Land-water-ice flags |- | ZPBL || MATRIXchem || m || xy || PBL depth |- | FRLAND || MATRIXchem || 1 || xy || Land fraction |- | FRLAKE || MATRIXchem || 1 || xy || Lake fraction |- | FRACI || MATRIXchem || 1 || xy || Ice fraction |- | TROPP || MATRIXchem || Pa || xy || Tropopause pressure |- | USTAR || MATRIXchem || m s-1 || xy || Surface (friction) velocity scale |- | U10M || MATRIXchem || m s-1 || xy || EW 10-meter wind speed |- | V10M || MATRIXchem || m s-1 || xy || NS 10-meter wind speed |- | U10N || MATRIXchem || m s-1 || xy || Equivalent neutral 10-meter eastward wind speed |- | V10N || MATRIXchem || m s-1 || xy || Equivalent neutral 10-meter northward wind speed |- | WET1 || MATRIXchem || 1 || xy || Surface Soil Wetness |- | FCLD || MATRIXchem || 1 || xyz || Cloud fraction |- | RH2 || MATRIXchem || 1 || xyz || Relative humidity |- | Q || MATRIXchem || kg kg-1 || xyz || Specific Humidity |- | T || MATRIXchem || K || xyz || Air Temperature (from Dynamics) |- | AIRDENS || MATRIXchem || kg m-3 || xyz || Air density |- | DQDT || MATRIXchem || kg kg-1 s-1 || xyz || Q tendency - moist physics |- | DELP || MATRIXchem || Pa || xyz || Pressure thickness |- | PLE || MATRIXchem || Pa || xyz || Edge pressure |- | ZLE || MATRIXchem || m || xyz || Edge heights |- | U || MATRIXchem || m s-1 || xyz || Eastward (EW) wind |- | V || MATRIXchem || m s-1 || xyz || Northward (NS) wind |- | SO2 || MATRIXchem || mol mol-1 || xyz || Sulfur dioxide (SO2 gas) |- | H2SO4 || MATRIXchem || mol mol-1 || xyz || Sulfuric acid (H2SO4 gas) |- | NH3 || MATRIXchem || mol mol-1 || xyz || Ammonia (NH3 gas) |- | SOA_GAS || MATRIXchem || mol mol-1 || xyz || Secondary Organic Aerosols (SOA gas) |- | pSO4_aq || MATRIXchem || mol mol-1 s-1 || xyz || Production rate of sulfate (SO4) in aqueous phase |- | pNH4_aq || MATRIXchem || mol mol-1 s-1 || xyz || Production rate of ammonium (NH4) in aqueous phase |- | SO2_EMIS_FIRES || MATRIXchem || kg m-2 s-1 || xy || SO2 emissions from biomass burning |- | SO2_EMIS_NONENERGY || MATRIXchem || kg m-2 s-1 || xy || SO2 emissions from non-energy sectors |- | SO2_EMIS_ENERGY || MATRIXchem || kg m-2 s-1 || xy || SO2 emissions from energy sector |- | SO2_EMIS_SHIPPING || MATRIXchem || kg m-2 s-1 || xy || SO2 emissions from shipping sector |- | SO2_EMIS_AVIATION_LTO || MATRIXchem || kg m-2 s-1 || xy || SO2 emissions from aviation (LTO layer) |- | SO2_EMIS_AVIATION_CDS || MATRIXchem || kg m-2 s-1 || xy || SO2 emissions from aviation (CDS layer) |- | SO2_EMIS_AVIATION_CRS || MATRIXchem || kg m-2 s-1 || xy || SO2 emissions from aviation (CRS layer) |- | BC_EMIS_FIRE || MATRIXchem || kg m-2 s-1 || xy || BC emissions - biomass burning |- | BC_EMIS_BIOFUEL || MATRIXchem || kg m-2 s-1 || xy || BC emissions - biofuel |- | BC_EMIS_FOSSILFUEL || MATRIXchem || kg m-2 s-1 || xy || BC emissions - fossil fuels |- | BC_EMIS_SHIP || MATRIXchem || kg m-2 s-1 || xy || BC emissions - ships |- | OC_EMIS_FIRE || MATRIXchem || kg m-2 s-1 || xy || OC emissions - biomass burning |- | OC_EMIS_BIOFUEL || MATRIXchem || kg m-2 s-1 || xy || OC emissions - biofuel |- | OC_EMIS_FOSSILFUEL || MATRIXchem || kg m-2 s-1 || xy || OC emissions - fossil fuels |- | OC_EMIS_SHIP || MATRIXchem || kg m-2 s-1 || xy || OC emissions - ships |- | SO4_EMIS_SHIP || MATRIXchem || kg m-2 s-1 || xy || SO4 emissions - ships |- | GINOUX_DU || MATRIXchem || 1 || xy || Ginoux dust source |- | PLE || Moist || Pa || xyz || air pressure |- | PREF || Moist || Pa || z || reference air pressure |- | KH || Moist || m+2 s-1 || xyz || scalar diffusivity |- | TH || Moist || K || xyz || potential temperature |- | U || Moist || m s-1 || xyz || eastward wind |- | V || Moist || m s-1 || xyz || northward wind |- | TS || Moist || K || xy || surface temperature |- | FRLAND || Moist || 1 || xy || areal land fraction |- | FROCEAN || Moist || 1 || xy || areal ocean fraction |- | MTR || Moist || X || xyz || tracers for moist |- | KPBL || Moist || 1 || xy || planetary boundary layer level |- | AERO_ACI || Moist || 1 || xyz || aerosol cloud interaction |- | TAUGWX || Moist || N m-2 || xy || surface eastward gravity wave stress |- | TAUGWY || Moist || N m-2 || xy || surface northward gravity wave stress |- | TAUX || Moist || N m-2 || xy || eastward surface stress on air |- | TAUY || Moist || N m-2 || xy || northward surface stress on air |- | TAUOROX || Moist || N m-2 || xy || surface eastward orographic gravity wave stress |- | TAUOROY || Moist || N m-2 || xy || surface northward orographic gravity wave stress |- | OMEGA || Moist || Pa s-1 || xyz || vertical pressure velocity |- | ALH || Moist || m || xyz || Blackadar length scale for scalars |- | RADLW || Moist || K s-1 || xyz || air temperature tendency due to longwave |- | RADSW || Moist || K s-1 || xyz || air temperature tendency due to longwave |- | WSUB_NATURE || Moist || m2 s-2 || xyz || variance in wsub from the nature run |- | QVAINC || Moist || kg kg-1 || xyz || specific humidity analysis increment |- | NI_regionMask || NI || 1 || xy || source species |- | UNKNOWN || NI || kg m-2 s-1 || xy || |- | UNKNOWN || NI || kg m-2 s-1 || xy || |- | UNKNOWN || NI || kg m-2 s-1 || xy || |- | UNKNOWN || NI || kg m-2 s-1 || xy || |- | UNKNOWN || NI || kg m-2 s-1 || xy || |- | UNKNOWN || NI || kg m-2 s-1 || xy || |- | UNKNOWN || NI || kg m-2 s-1 || xy || |- | UNKNOWN || NI || || xyz || |- | O3_ireg || O3 || kg s-1 m-2 || xy || O3 emissions |- | UNKNOWN || O3 || kg s-1 m-2 || xy || O3 emissions |- | UNKNOWN || O3 || kg s-1 m-2 || xy || O3 emissions |- | UNKNOWN || O3 || kg s-1 m-2 || xy || O3 emissions |- | UNKNOWN || OC || 1 || xy || source species |- | UNKNOWN || OC || 1 || xy || source species |- | UNKNOWN || OC || 1 || xy || source species |- | UNKNOWN || OC || 1 || xy || source species |- | UNKNOWN || OC || 1 || xy || source species |- | UNKNOWN || OC || 1 || xy || source species |- | UNKNOWN || OC || 1 || xy || oc aviation lto |- | UNKNOWN || OC || 1 || xy || oc aviation cds |- | UNKNOWN || OC || 1 || xy || oc aviation crs |- | UNKNOWN || OC || kg m-3 s-1 || xyz || SOA from Anthropogenic and biomass burning VOC |- | UNKNOWN || OC || 1 || xy || oc nei bot |- | UNKNOWN || OC || 1 || xy || oc nei top |- | TAUXW || Ogcm || N m-2 || tile || eastward stress on ocean |- | TAUYW || Ogcm || N m-2 || tile || northward stress on ocean |- | TAUXI || Ogcm || N m-2 || tile || eastward stress on ice |- | TAUYI || Ogcm || N m-2 || tile || northward stress on ice |- | OUSTAR3 || Ogcm || m+3 s-3 || tile || ocean ustar cubed |- | UU || Ogcm || m s-1 || tile || surface wind speed |- | PS || Ogcm || Pa || tile || surface air pressure |- | PENUVR || Ogcm || W m-2 || tile || net downward penetrating direct UV flux |- | PENPAR || Ogcm || W m-2 || tile || net downward penetrating direct PAR flux |- | PENUVF || Ogcm || W m-2 || tile || net downward penetrating diffuse UV flux |- | PENPAF || Ogcm || W m-2 || tile || net downward penetrating diffuse PAR flux |- | DISCHRG || Ogcm || kg m-2 s-1 || tile || river discharge at ocean points |- | CO2SC || Ogcm || 1e-6 || tile || CO2 Surface Concentration Bin 001 |- | DUDP || Ogcm || kg m-2 s-1 || tile || Dust Dry Deposition |- | DUWT || Ogcm || kg m-2 s-1 || tile || Dust Wet Deposition |- | DUSD || Ogcm || kg m-2 s-1 || tile || Dust Sedimentation |- | BCDP || Ogcm || kg m-2 s-1 || tile || Black Carbon Dry Deposition |- | BCWT || Ogcm || kg m-2 s-1 || tile || Black Carbon Wet Deposition |- | OCDP || Ogcm || kg m-2 s-1 || tile || Organic Carbon Dry Deposition |- | OCWT || Ogcm || kg m-2 s-1 || tile || Organic Carbon Wet Deposition |- | FSWBAND || Ogcm || W m-2 || tile || net surface downward shortwave flux per band in air |- | FSWBANDNA || Ogcm || W m-2 || tile || net surface downward shortwave flux per band in air assuming no aerosol |- | HW || Ogcm || kg || tile || water skin layer mass |- | TW || Ogcm || K || tile || water skin temperature |- | SW || Ogcm || psu || tile || water skin salinity |- | HI || Ogcm || kg || tile || seaice skin layer mass |- | SI || Ogcm || psu || tile || seaice skin salinity |- | FRACICE || Ogcm || 1 || tile || fractional cover of seaice |- | TI || Ogcm || K || tile || seaice skin temperature |- | VOLICE || Ogcm || m || tile || ice category volume per unit area of grid cell |- | VOLSNO || Ogcm || m || tile || sno category volume per unit area of grid cell |- | ERGICE || Ogcm || J m-2 || tile || ice category layer internal energy |- | ERGSNO || Ogcm || J m-2 || tile || snow category layer internal energy |- | TAUAGE || Ogcm || s || tile || volume weighted mean ice age |- | MPOND || Ogcm || m || tile || pond volume |- | TI || Ogcm || K || tile || seaice skin temperature |- | COSZ || Orad || 1 || xy || cosine of the solar zenith angle |- | PENUVR || Orad || W m-2 || xy || net downward penetrating direct UV flux |- | PENPAR || Orad || W m-2 || xy || net downward penetrating direct PAR flux |- | PENUVF || Orad || W m-2 || xy || net downward penetrating diffuse UV flux |- | PENPAF || Orad || W m-2 || xy || net downward penetrating diffuse PAR flux |- | FROCEAN || Orad || 1 || xy || ocean fraction of grid cell |- | DH || Orad || dyn-m || xyz || Layer mass |- | CHLOROPHYLL || Orad || mg m-3 || xyz || chlorophyll concentration |- | AICE || Orad || 1 || xy || ice concentration of grid cell |- | PLE || PChem || Pa || xyz || air pressure |- | Q || PChem || kg kg-1 || xyz || specific humidity |- | TROPP || PChem || Pa || xy || tropopause pressure |- | O3AINC || PChem || kg kg-1 || xyz || ozone analysis increment |- | U || Physics || m s-1 || xyz || eastward wind |- | V || Physics || m s-1 || xyz || northward wind |- | DZ || Physics || m || xy || surface layer height |- | TH || Physics || K || xyz || potential temperature |- | T || Physics || K || xyz || air temperature |- | S || Physics || m+2 s-2 || xyz || dry static energy |- | ZLE || Physics || m || xyz || geopotential height |- | PLE || Physics || Pa || xyz || air pressure |- | PLEINST || Radiation || Pa || xyz || air pressure |- | Rn_regionMask || Rn || 1 || xy || source species |- | Rn_EMISSIONiname || Rn || 1 || xy || source species |- | SU_regionMask || SU || 1 || xy || source species |- | pSO2_OCS || SU || 1 || xyz || source species |- | SU_NEI_SRC1 || SU || 1 || xy || source species |- | SU_NEI_SRC2 || SU || 1 || xy || source species |- | UNKNOWN || SU || 1 || xyz || source species |- | UNKNOWN || SU || 1 || xyz || source species |- | UNKNOWN || SU || 1 || xyz || source species |- | SU_BIOMASSiname || SU || 1 || xy || source species |- | SU_ANTHROL1iname || SU || 1 || xy || source species |- | SU_ANTHROL2iname || SU || 1 || xy || source species |- | SU_SHIPSO2iname || SU || 1 || xy || source species |- | SU_SHIPSO4iname || SU || 1 || xy || source species |- | SU_DMSOiname || SU || 1 || xy || source species |- | SU_AIRCRAFTiname || SU || 1 || xyz || source species |- | UNKNOWN || SU || 1 || xy || su aviation lto |- | UNKNOWN || SU || 1 || xy || su aviation cds |- | UNKNOWN || SU || 1 || xy || su aviation crs |- | ALW || Saltwater || W m-2 || tile || linearization of surface upwelling longwave flux |- | BLW || Saltwater || W m-2 K-1 || tile || linearization of surface upwelling longwave flux |- | LWDNSRF || Saltwater || W m-2 || tile || surface downwelling longwave flux |- | DRPAR || Saltwater || W m-2 || tile || surface downwelling par beam flux |- | DFPAR || Saltwater || W m-2 || tile || surface downwelling par diffuse flux |- | DRNIR || Saltwater || W m-2 || tile || surface downwelling nir beam flux |- | DFNIR || Saltwater || W m-2 || tile || surface downwelling nir diffuse flux |- | DRUVR || Saltwater || W m-2 || tile || surface downwelling uvr beam flux |- | DFUVR || Saltwater || W m-2 || tile || surface downwelling uvr diffuse flux |- | EVAP || Saltwater || kg m-2 s-1 || tile || evaporation |- | SH || Saltwater || W m-2 || tile || upward sensible heat flux |- | TAUX || Saltwater || N m-2 || tile || eastward surface stress |- | TAUY || Saltwater || N m-2 || tile || northward surface stress |- | DEVAP || Saltwater || kg m-2 s-1 || tile || derivative of evaporation |- | DSH || Saltwater || W m-2 || tile || derivative of upward sensible heat flux |- | SNO || Saltwater || kg m-2 s-1 || tile || snowfall |- | TA || Saltwater || K || tile || surface air temperature |- | QA || Saltwater || kg kg-1 || tile || surface air specific humidity |- | UU || Saltwater || m s-1 || tile || surface wind speed |- | UWINDLMTILE || Saltwater || m s-1 || tile || levellm uwind |- | VWINDLMTILE || Saltwater || m s-1 || tile || levellm vwind |- | DZ || Saltwater || m || tile || surface layer height |- | PS || Saltwater || Pa || tile || surface pressure |- | PCU || Saltwater || kg m-2 s-1 || tile || liquid water convective precipitation |- | PLS || Saltwater || kg m-2 s-1 || tile || liquid water large scale precipitation |- | THATM || Saltwater || K || tile || effective surface skin temperature |- | QHATM || Saltwater || kg kg-1 || tile || effective surface specific humidity |- | UHATM || Saltwater || m s-1 || tile || effective surface zonal velocity |- | VHATM || Saltwater || m s-1 || tile || effective surface meridional velocity |- | CTATM || Saltwater || kg m-2 s-1 || tile || surface exchange coefficient for heat |- | CQATM || Saltwater || kg m-2 s-1 || tile || surface exchange coefficient for moisture |- | CMATM || Saltwater || kg m-2 s-1 || tile || surface exchange coefficient for momentum |- | FRACICE || Saltwater || 1 || tile || ice covered fraction of tile |- | UW || Saltwater || m s-1 || tile || zonal velocity of surface water |- | UI || Saltwater || m s-1 || tile || zonal velocity of surface ice |- | VW || Saltwater || m s-1 || tile || meridional velocity of surface water |- | VI || Saltwater || m s-1 || tile || meridional velocity of surface ice |- | KPAR || Saltwater || m-1 || tile || PAR extinction coefficient |- | TS_FOUND || Saltwater || K || tile || foundation temperature for interface layer |- | DTSDT || Saltwater || K s-1 || tile || skin temperature analysis tendency |- | DISCHARGE || Saltwater || kg m-2 s-1 || tile || river discharge at ocean points |- | TAUXBOT || Saltwater || N m-2 || tile || eastward stress at base of ice |- | TAUYBOT || Saltwater || N m-2 || tile || northward stress at base of ice |- | CO2SC || Saltwater || 1e-6 || tile || CO2 Surface Concentration Bin 001 |- | DUDP || Saltwater || kg m-2 s-1 || tile || Dust Dry Deposition |- | DUWT || Saltwater || kg m-2 s-1 || tile || Dust Wet Deposition |- | DUSD || Saltwater || kg m-2 s-1 || tile || Dust Sedimentation |- | BCDP || Saltwater || kg m-2 s-1 || tile || Black Carbon Dry Deposition |- | BCWT || Saltwater || kg m-2 s-1 || tile || Black Carbon Wet Deposition |- | OCDP || Saltwater || kg m-2 s-1 || tile || Organic Carbon Dry Deposition |- | OCWT || Saltwater || kg m-2 s-1 || tile || Organic Carbon Wet Deposition |- | FSWBAND || Saltwater || W m-2 || tile || net surface downward shortwave flux per band in air |- | FSWBANDNA || Saltwater || W m-2 || tile || net surface downward shortwave flux per band in air assuming no aerosol |- | UUA || Saltwater || m s-1 || tile || interpolated effective surface zonal velocity |- | VVA || Saltwater || m s-1 || tile || interpolated effective surface meridional velocity |- | T || Satsim || K || xyz || air temperature |- | QV || Satsim || 1 || xyz || specific humidity |- | FCLD || Satsim || 1 || xyz || cloud area fraction |- | RL || Satsim || m || xyz || liquid cloud particle effective radius |- | RI || Satsim || m || xyz || ice phase cloud particle effective radius |- | RS || Satsim || m || xyz || snow particle effective radius |- | RR || Satsim || m || xyz || rain cloud particle effective radius |- | PLE || Satsim || Pa || xyz || Edge pressures |- | ZLE || Satsim || m || xyz || Edge heights |- | QLLS || Satsim || 1 || xyz || mass fraction of large scale cloud liquid water |- | QLCN || Satsim || 1 || xyz || mass fraction of convective cloud liquid water |- | QILS || Satsim || 1 || xyz || mass fraction of large scale cloud ice water |- | QICN || Satsim || 1 || xyz || mass fraction of convective cloud ice water |- | QRTOT || Satsim || kg kg-1 || xyz || mass fraction of falling rain |- | QSTOT || Satsim || kg kg-1 || xyz || mass fraction of falling snow |- | TS || Satsim || K || xy || skin temperature |- | MCOSZ || Satsim || 1 || xy || mean cosine of the solar zenith angle |- | FRLAND || Satsim || 1 || xy || fraction of land |- | FROCEAN || Satsim || 1 || xy || fraction of ocean |- | SATORB || Satsim || days || xy || Satellite orbits |- | PLE || Solar || Pa || xyz || air pressure |- | TS || Solar || K || xy || surface skin temperature |- | CH4 || Solar || pppv || xyz || methane concentration |- | N2O || Solar || pppv || xyz || nitrous oxide concentration |- | T || Solar || K || xyz || air temperature |- | QV || Solar || kg kg-1 || xyz || specific humidity |- | QL || Solar || kg kg-1 || xyz || mass fraction of cloud liquid water in air |- | QI || Solar || kg kg-1 || xyz || mass fraction of cloud ice in air |- | QR || Solar || kg kg-1 || xyz || mass fraction of rain water in air |- | QS || Solar || kg kg-1 || xyz || mass fraction of snow in air |- | RL || Solar || m || xyz || effective radius of cloud liquid water particles |- | RI || Solar || m || xyz || effective radius of cloud ice particles |- | RR || Solar || m || xyz || effective radius of rain particles |- | RS || Solar || m || xyz || effective radius of snow particles |- | OX || Solar || mol mol-1 || xyz || odd-oxygen volume mixing ratio |- | FCLD || Solar || 1 || xyz || cloud area fraction |- | AERO || Solar || kg kg-1 || xyz || aerosols |- | ALBVR || Solar || 1 || xy || surface albedo for visible beam |- | ALBVF || Solar || 1 || xy || surface albedo for visible diffuse |- | ALBNR || Solar || 1 || xy || surface albedo for near infrared beam |- | ALBNF || Solar || 1 || xy || surface albedo for near infrared diffuse |- | PREF || Solar || Pa || z || reference air pressure |- | SO4SAREAvolc || StratChem || m2 m-3 || xyz || SO4 aerosol surface area (Volcanic) |- | SO4SAREA || StratChem || m2 m-3 || xyz || SO4 aerosol surface area (non-Volcanic) |- | DELP || StratChem || Pa || xyz || pressure thickness |- | PLE || StratChem || Pa || xyz || air pressure |- | LWI || StratChem || 1 || xy || Land-water-ice flags |- | Q || StratChem || kg kg-1 || xyz || specific humidity |- | QCTOT || StratChem || kg kg-1 || xyz || mass fraction of total cloud water |- | T || StratChem || K || xyz || air temperature |- | AIRDENS || StratChem || kg m-3 || xyz || air density |- | AIRDENS_DRY || StratChem || kg m-3 || xyz || dry air density |- | TROPP || StratChem || Pa || xy || tropopause pressure based on blended estimate |- | AREA || StratChem || m^2 || xy || agrid cell area |- | LFR || StratChem || km-2 s-1 || xy || lightning flash rate |- | CN_PRCP || StratChem || kg m-2 s-1 || xy || convective precipitation |- | NCN_PRCP || StratChem || kg m-2 s-1 || xy || nonconvective precipitation |- | ZPBL || StratChem || m || xy || PBL height |- | FCLD || StratChem || 1 || xyz || Cloud fraction for radiation |- | ZLE || StratChem || m || xyz || geopotential height |- | FRLAKE || StratChem || 1 || xy || fraction of lake |- | FROCEAN || StratChem || 1 || xy || fraction of ocean |- | FRACI || StratChem || 1 || xy || ice covered fraction of tile |- | CNV_QC || StratChem || kg kg-1 || xyz || grid mean convective condensate |- | CNV_MFC || StratChem || kg m-2 s-1 || xyz || cumulative mass flux |- | CNV_MFD || StratChem || kg m-2 s-1 || xyz || detraining mass flux |- | PFL_LSAN || StratChem || kg m-2 s-1 || xyz || 3D flux of liquid nonconvective precipitation |- | PFI_LSAN || StratChem || kg m-2 s-1 || xyz || 3D flux of ice nonconvective precipitation |- | TPREC || StratChem || kg m-2 s-1 || xy || total precipitation |- | DQDT || StratChem || s-1 || xyz || specific humidity tendency due to moist |- | F11FLUX || StratChem || kg m-2 s-1 || xy || flux of cfc11 |- | F12FLUX || StratChem || kg m-2 s-1 || xy || flux of cfc11 |- | F113FLUX || StratChem || kg m-2 s-1 || xy || flux of cfc11 |- | MCFFLUX || StratChem || kg m-2 s-1 || xy || flux of ch3ccl3 |- | CCL4FLUX || StratChem || kg m-2 s-1 || xy || flux of ccl4 |- | HCFC22FLUX || StratChem || kg m-2 s-1 || xy || flux of hcfc22 |- | CHBR3FLUX || StratChem || kg m-2 s-1 || xy || flux of chbr3 |- | CH2BR2FLUX || StratChem || kg m-2 s-1 || xy || flux of ch2br2 |- | OH3DClim || StratChem || molec cm-3 || xyz || hydroxyl radical |- | DUDT || Superdyn || m s-2 || xyz || eastward wind tendency |- | DVDT || Superdyn || m s-2 || xyz || northward wind tendency |- | DTDT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PS || Surface || Pa || xy || surface pressure |- | TA || Surface || K || xy || surface air temperature |- | QA || Surface || kg kg-1 || xy || surface air specific humidity |- | SPEED || Surface || m s-1 || xy || surface wind speed |- | UA || Surface || m s-1 || xy || eastward wind bottom level |- | VA || Surface || m s-1 || xy || northward wind bottom level |- | DZ || Surface || m || xy || surface layer height |- | PHIS || Surface || m+2 s-2 || xy || surface geopotential height |- | SH || Surface || W m-2 || xy || sensible heat flux |- | TAUX || Surface || N m-2 || xy || eastward surface stress on air |- | TAUY || Surface || N m-2 || xy || northward surface stress on air |- | EVAP || Surface || kg m-2 s-1 || xy || evaporation |- | DEWL || Surface || kg m-2 s-1 || xy || dewfall |- | FRSL || Surface || kg m-2 s-1 || xy || frostfall |- | DSH || Surface || m s-1 || xy || derivative of sensible heat wrt dry static energy |- | DFU || Surface || N s m-3 || xy || derivative of eastward surface stress wrt Us |- | DFV || Surface || N s m-3 || xy || derivative of northward surface stress wrt Us |- | DEVAP || Surface || kg m-2 s-1 || xy || derivative of evaporation wrt QS |- | DDEWL || Surface || kg m-2 s-1 || xy || derivative of dewfall wrt QS |- | DFRSL || Surface || kg m-2 s-1 || xy || derivative of frostfall wrt QS |- | PCU || Surface || kg m-2 s-1 || xy || liquid water convective precipitation |- | PLS || Surface || kg m-2 s-1 || xy || liquid water large scale precipitation |- | SNO || Surface || kg m-2 s-1 || xy || snowfall |- | DRPARN || Surface || 1 || xy || normalized surface downwelling par beam flux |- | DFPARN || Surface || 1 || xy || normalized surface downwelling par diffuse flux |- | DRNIRN || Surface || 1 || xy || normalized surface downwelling nir beam flux |- | DFNIRN || Surface || 1 || xy || normalized surface downwelling nir diffuse flux |- | DRUVRN || Surface || 1 || xy || normalized surface downwelling uvr beam flux |- | DFUVRN || Surface || 1 || xy || normalized surface downwelling uvr diffuse flux |- | LWDNSRF || Surface || W m-2 || xy || surface downwelling longwave flux |- | ALW || Surface || W m-2 || xy || linearization of surface upwelling longwave flux |- | BLW || Surface || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | CO2SC || Surface || 1e-6 || xy || CO2 Surface Concentration Bin 001 |- | FSWBAND || Surface || W m-2 || xy || net surface downward shortwave flux per band in air |- | FSWBANDNA || Surface || W m-2 || xy || net surface downward shortwave flux per band in air assuming no aerosol |- | AERO_DP || Surface || kg m-2 s-1 || xy || aerosol deposition |- | DTSDT || Surface || K s-1 || xy || skin temperature analysis tendency |- | TROPP || TR || Pa || xy || tropopause pressure based on blended estimate |- | PLE || TR || Pa || xyz || air pressure |- | ZLE || TR || m || xyz || geopotential height |- | T || TR || K || xyz || air temperature |- | AIRDENS || TR || kg m-3 || xyz || air density |- | AIRDENS_DRY || TR || kg m-3 || xyz || dry air density |- | AREA || TR || m+2 || xy || agrid cell area |- | Q || TR || kg kg-1 || xyz || specific humidity |- | LWI || TR || 1 || xy || land-ocean-ice mask |- | T2M || TR || K || xy || 2-meter air temperature |- | CLDTT || TR || 1 || xy || total cloud area fraction |- | Z0H || TR || m || xy || surface roughness for heat |- | SWNDSRF || TR || W m-2 || xy || surface net downward shortwave flux |- | USTAR || TR || m s-1 || xy || surface velocity scale |- | FRACI || TR || 1 || xy || ice covered fraction of tile |- | TSOIL1 || TR || K || xy || soil temperatures layer 1 |- | DQDT || TR || s-1 || xyz || specific humidity tendency due to moist |- | PFL_CN || TR || kg m-2 s-1 || xyz || 3D flux of liquid convective precipitation |- | PFL_LSAN || TR || kg m-2 s-1 || xyz || 3D flux of liquid nonconvective precipitation |- | ASNOW || TR || 1 || xy || fractional area of land snowcover |- | FRLANDICE || TR || 1 || xy || fraction of land ice |- | OX || TR || mol mol-1 || xyz || Ozone |- | QQK007 || TR || mole m-3 s-1 || xyz || reaction rate H2O + O1D |- | QQK027 || TR || mole m-3 s-1 || xyz || reaction rate O3 + OH |- | QQK028 || TR || mole m-3 s-1 || xyz || reaction rate HO2 + O3 |- | DD_OX || TR || kg m-2 s-1 || xy || dry deposition of OX |- | QQK005 || TR || mole m-3 s-1 || xyz || reaction rate O1D + O3 |- | QQK204 || TR || mole m-3 s-1 || xyz || reaction rate O3 + PRPE |- | QQK222 || TR || mole m-3 s-1 || xyz || reaction rate ISOP + O3 |- | QQK223 || TR || mole m-3 s-1 || xyz || reaction rate MVK + O3 |- | QQK224 || TR || mole m-3 s-1 || xyz || reaction rate MACR + O3 |- | QQK253 || TR || mole m-3 s-1 || xyz || reaction rate IALD + O3 |- | UNKNOWN || TR || mole m-3 s-1 || xy || UNKNOWN |- | UNKNOWN || TR || mole m-3 s-1 || xyz || UNKNOWN |- | TR_VEG_FRAC || TR || mole m-3 s-1 || xyz || vegetation fraction |- | TR_LAI_FRAC || TR || mole m-3 s-1 || xyz || leaf area index |- | str_array(n) || TR || mole m-3 s-1 || xy || TR Region Mask |- | PLE || Turbulence || Pa || xyz || air pressure |- | T || Turbulence || K || xyz || air temperature |- | TH || Turbulence || K || xyz || potential temperature |- | QV || Turbulence || kg kg-1 || xyz || specific humidity |- | QLLS || Turbulence || kg kg-1 || xyz || liquid condensate mixing ratio |- | QILS || Turbulence || kg kg-1 || xyz || frozen condensate mixing ratio |- | CLLS || Turbulence || 1 || xyz || cloud fraction |- | QLCN || Turbulence || kg kg-1 || xyz || liquid condensate mixing ratio |- | QICN || Turbulence || kg kg-1 || xyz || frozen condensate mixing ratio |- | CLCN || Turbulence || 1 || xyz || cloud fraction |- | U || Turbulence || m s-1 || xyz || eastward wind |- | V || Turbulence || m s-1 || xyz || northward wind |- | CT || Turbulence || kg m-2 s-1 || xy || surface heat exchange coefficient |- | CQ || Turbulence || kg m-2 s-1 || xy || surface moisture exchange coefficient |- | CM || Turbulence || kg m-2 s-1 || xy || surface momentum exchange coefficient |- | BSTAR || Turbulence || m s-2 || xy || surface bouyancy scale |- | USTAR || Turbulence || m s-1 || xy || surface velocity scale |- | FRLAND || Turbulence || 1 || xy || land fraction |- | RADLW || Turbulence || K s-1 || xyz || air temperature tendency due to longwave |- | RADLWC || Turbulence || K s-1 || xyz || clearsky air temperature tendency lw |- | PREF || Turbulence || Pa || z || reference air pressure |- | VARFLT || Turbulence || m+2 || xy || variance of filtered topography |- | TR || Turbulence || X || xyz || diffused quantities |- | TRG || Turbulence || X || xy || surface values of diffused quantity |- | DTG || Turbulence || X || xy || change of surface values of diffused quantity |- | PHIS || mkiau || m2 sec-2 || xy || surface geopotential height |- | AK || mkiau || Pa || z || hybrid sigma pressure a |- | BK || mkiau || Pa || z || hybrid sigma pressure b |- | PS || mkiau || Pa || xy || surface air pressure |- | DELP || mkiau || Pa || xyz || air pressure thickness |- | TV || mkiau || K || xyz || virtual air temperature |- | U || mkiau || m s-1 || xyz || eastward wind |- | V || mkiau || m s-1 || xyz || northward wind |- | O3PPMV || mkiau || ppmv || xyz || ozone volume mixing ratio |- | TS || mkiau || K || xy || skin temperature |- | QV || mkiau || kgkg || xyz || water vapor specific humdity |} __FORCETOC__ ===Export States (4291) === {| class="wikitable" |+ List of GEOS-5 [EX] State variables ! Name !! Component !! Units !! Dim !! Long name |- | OH || AChem || mol mol-1 || xyz || OH with imposed diurnal cycle |- | NO3 || AChem || mol mol-1 || xyz || NO3 with imposed diurnal cycle |- | EMIS_S_DMS || AChem || kg m-2 s-1 || xy || DMS emissions in kg-S m-2 s-1 |- | EMIS_S_SO2 || AChem || kg m-2 s-1 || xy || SO2 emissions in kg-S m-2 s-1 |- | EMIS_DMS || AChem || kg m-2 s-1 || xy || DMS emissions |- | EMIS_SO2 || AChem || kg m-2 s-1 || xy || SO2 emissions from biomass burning and anthropogenic sources |- | EMIS_SO2_EXV || AChem || kg m-2 s-1 || xy || SO2 emissions from explosive volcanoes |- | EMIS_SO2_NXV || AChem || kg m-2 s-1 || xy || SO2 emissions from non-explosive volcanoes |- | EMIS_SO2_VOLC || AChem || kg m-2 s-1 || xy || SO2 emissions from explosive and non-explosive volcanoes |- | SFC_CONC_DMS || AChem || m-3 || xy || Near-surface concentration of DMS in molecules-DMS m-3 |- | SFC_CONC_MSA || AChem || m-3 || xy || Near-surface concentration of MSA in molecules-MSA m-3 |- | SFC_CONC_SO2 || AChem || m-3 || xy || Near-surface concentration of SO2 in molecules-SO2 m-3 |- | SFC_CONC_H2SO4 || AChem || m-3 || xy || Near-surface concentration of H2SO4 in molecules-H2SO4 m-3 |- | SFC_CONC_NH3 || AChem || m-3 || xy || Near-surface concentration of NH3 in molecules-NH3 m-3 |- | SFC_CONC_SOAG || AChem || m-3 || xy || Near-surface concentration of SOA(gas) in molecules-SOA m-3 |- | CONC_DMS || AChem || m-3 || xyz || Concentration of DMS in molecules-DMS m-3 |- | CONC_MSA || AChem || m-3 || xyz || Concentration of MSA in molecules-MSA m-3 |- | CONC_SO2 || AChem || m-3 || xyz || Concentration of SO2 in molecules-SO2 m-3 |- | CONC_H2SO4 || AChem || m-3 || xyz || Concentration of H2SO4 in molecules-H2SO4 m-3 |- | CONC_NH3 || AChem || m-3 || xyz || Concentration of NH3 in molecules-NH3 m-3 |- | CONC_SOAG || AChem || m-3 || xyz || Concentration of SOA(gas) in molecules-SOA m-3 |- | CMD_S_DMS || AChem || kg m-2 || xy || Column mass density of DMS in kg-S m-2 |- | CMD_S_MSA || AChem || kg m-2 || xy || Column mass density of MSA in kg-S m-2 |- | CMD_S_SO2 || AChem || kg m-2 || xy || Column mass density of SO2 in kg-S m-2 |- | CMD_S_H2SO4 || AChem || kg m-2 || xy || Column mass density of H2SO4 in kg-S m-2 |- | CMD_S_GAS || AChem || kg m-2 || xy || Column mass density of sulfur in gas phase in kg-S m-2 |- | CMD_N_NH3 || AChem || kg m-2 || xy || Column mass density of NH3 in kg-N m-2 |- | CMD_N_GAS || AChem || kg m-2 || xy || Column mass density of nitrogen in kg-N m-2 |- | CMD_DMS || AChem || kg m-2 || xy || Column mass density of DMS |- | CMD_MSA || AChem || kg m-2 || xy || Column mass density of MSA |- | CMD_SO2 || AChem || kg m-2 || xy || Column mass density of SO2 |- | CMD_H2SO4 || AChem || kg m-2 || xy || Column mass density of H2SO4 |- | CMD_NH3 || AChem || kg m-2 || xy || Column mass density of NH3 |- | CMD_SOAG || AChem || kg m-2 || xy || Column mass density of SOA(gas) |- | DRY_DEP_SO2 || AChem || kg m-2 s-1 || xy || Dry deposition flux of sulfur dioxide (SO2) |- | DRY_DEP_H2SO4 || AChem || kg m-2 s-1 || xy || Dry deposition flux of sulfuric acid (H2SO4 gas) |- | DRY_DEP_DMS || AChem || kg m-2 s-1 || xy || Dry deposition flux of DMS |- | DRY_DEP_MSA || AChem || kg m-2 s-1 || xy || Dry deposition flux of MSA |- | DRY_DEP_NH3 || AChem || kg m-2 s-1 || xy || Dry deposition flux of NH3 |- | DRY_DEP_SOAG || AChem || kg m-2 s-1 || xy || Dry deposition flux of SOA(gas) |- | DDT_DMS_gas || AChem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS) tendency due to gas phase chemistry |- | DDT_MSA_gas || AChem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA) tendency due to gas phase chemistry |- | DDT_SO2_gas || AChem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2) tendency due to gas phase chemistry |- | DDT_H2SO4_gas || AChem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) tendency due to gas phase chemistry |- | DDT_NH3_gas || AChem || mol mol-1 s-1 || xyz || Ammonia (NH3) tendency due to gas phase chemistry |- | DDT_SOAG_gas || AChem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) tendency due to gas phase chemistry |- | _DMS_gas || AChem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS) before gas phase chemistry |- | _MSA_gas || AChem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA) befoe gas phase chemistry |- | _SO2_gas || AChem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2) before gas phase chemistry |- | _H2SO4_gas || AChem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) before gas phase chemistry |- | _NH3_gas || AChem || mol mol-1 s-1 || xyz || Ammonia (NH3) before gas phase chemistry |- | _SOAG_gas || AChem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) before gas phase chemistry |- | CPL_DMS_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of dimethyl sulfide (DMS) due to gas phase chemistry |- | CPL_MSA_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of methanesulfonic acid (MSA) due to gas phase chemistry |- | CPL_SO2_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of sulfur dioxide (SO2) due to gas phase chemistry |- | CPL_H2SO4_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of sulfuric acid (H2SO4 gas) due to gas phase chemistry |- | CPL_NH3_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of ammonia (NH3) due to gas phase chemistry |- | CPL_SOAG_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of Secondary Organic Aerosols (SOA gas) due to gas phase chemistry |- | CPL_S_DMS_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of dimethyl sulfide (DMS) due to gas phase chemistry |- | CPL_S_MSA_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of methanesulfonic acid (MSA) due to gas phase chemistry |- | CPL_S_SO2_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of sulfur dioxide (SO2) due to gas phase chemistry |- | CPL_S_H2SO4_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of sulfuric acid (H2SO4 gas) due to gas phase chemistry |- | CPL_S_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of total sulfur due to gas phase chemistry |- | CPL_N_NH3_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of ammonia (NH3) due to gas phase chemistry |- | CPL_N_gas || AChem || kg m-2 s-1 || xy || Column integrated tendency of total nitrogen due to gas phase chemistry |- | DDT_DMS_aq || AChem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS gas) tendency due to aqueous phase chemistry |- | DDT_MSA_aq || AChem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA gas) tendency due to aqueous phase chemistry |- | DDT_SO2_aq || AChem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2 gas) tendency due to aqueous phase chemistry |- | DDT_H2SO4_aq || AChem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) tendency due to aqueous phase chemistry |- | DDT_NH3_aq || AChem || mol mol-1 s-1 || xyz || Ammonia (NH3 gas) tendency due to aqueous phase chemistry |- | DDT_SOAG_aq || AChem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) tendency due to aqueous phase chemistry |- | _DMS_aq || AChem || mol mol-1 s-1 || xyz || Dimethyl sulfide (DMS gas) before aqueous phase chemistry |- | _MSA_aq || AChem || mol mol-1 s-1 || xyz || Methanesulfonic acid (MSA gas) before aqueous phase chemistry |- | _SO2_aq || AChem || mol mol-1 s-1 || xyz || Sulfur dioxide (SO2 gas) before aqueous phase chemistry |- | _H2SO4_aq || AChem || mol mol-1 s-1 || xyz || Sulfuric acid (H2SO4 gas) before aqueous phase chemistry |- | _NH3_aq || AChem || mol mol-1 s-1 || xyz || Ammonia (NH3 gas) tendency before aqueous phase chemistry |- | _SOAG_aq || AChem || mol mol-1 s-1 || xyz || Secondary Organic Aerosols (SOA gas) before aqueous phase chemistry |- | pSO4_aq || AChem || kg kg-1 s-1 || xyz || production rate of sulfate in aqueous phase |- | pNH4_aq || AChem || kg kg-1 s-1 || xyz || production rate of ammonium in aqueous phase |- | pSO4_aq_SO2 || AChem || kg kg-1 s-1 || xyz || production rate of sulfate from sulfur dioxide (SO2) in aqueous phase |- | pSO4_aq_H2SO4 || AChem || kg kg-1 s-1 || xyz || production rate of sulfate from irreversible uptake of sulfuric acid vapor (H2SO4) in aqueous phase |- | pNH4_aq_NH3 || AChem || kg kg-1 s-1 || xyz || production rate of ammonium from dissociation of ammonia (NH3) in aqueous phase |- | pSOA_ANTHRO_VOC || AChem || kg m-3 s-1 || xyz || Production of SOA from Anthropogenic + Biomass Burning VOC |- | pSOA_ANTHRO_VOC_MMRday || AChem || kg m-3 d-1 || xyz || Production of SOA from Anthropogenic + Biomass Burning VOC |- | pSO2_OCS || AChem || kg kg-1 s-1 || xyz || Production of SO2 from OCS |- | pSO2_OCS_OH || AChem || kg kg-1 s-1 || xyz || Production of SO2 from OCS+OH |- | pSO2_OCS_O3p || AChem || kg kg-1 s-1 || xyz || Production of SO2 from OCS+O3p |- | pSO2_OCS_jOCS || AChem || kg kg-1 s-1 || xyz || Production of SO2 from OCS photolysis |- | lOCS || AChem || cm-3 s-1 || xyz || Loss rate of OCS (molec cm-3 s-1) |- | lOCS_OH || AChem || cm-3 s-1 || xyz || Loss rate of OCS from OCS+OH(molec cm-3 s-1) |- | lOCS_O3p || AChem || cm-3 s-1 || xyz || Loss rate of OCS from OCS+O3p(molec cm-3 s-1) |- | lOCS_jOCS || AChem || cm-3 s-1 || xyz || Loss rate of OCS from photolysis (molec cm-3 s-1) |- | pScl_OCS || AChem || kg m-2 || xy || Production of SO2 from OCS (column integrated) |- | KE || ARIESg3 || J m-2 || xy || vertically integrated kinetic energy |- | TAVE || ARIESg3 || K || xy || vertically averaged dry temperature |- | UAVE || ARIESg3 || m s-1 || xy || vertically averaged zonal wind |- | KEPHY || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to physics |- | PEPHY || ARIESg3 || W m-2 || xy || total potential energy tendency due to physics |- | TEPHY || ARIESg3 || W m-2 || xy || mountain work tendency due to physics |- | KEANA || ARIESg3 || W m-2 || xy || total kinetic energy tendency due to analysis |- | PEANA || ARIESg3 || W m-2 || xy || total potential energy tendency due to analysis |- | TEANA || ARIESg3 || W m-2 || xy || mountain work tendency due to analysis |- | KEHOT || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to HOT |- | KEDP || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to pressure change |- | KEADV || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to dynamics advection |- | KEPG || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to pressure gradient |- | KEDYN || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to dynamics |- | PEDYN || ARIESg3 || W m-2 || xy || vertically integrated potential energy tendency due to dynamics |- | TEDYN || ARIESg3 || W m-2 || xy || mountain work tendency due to dynamics |- | KECDCOR || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to cdcore |- | PECDCOR || ARIESg3 || W m-2 || xy || vertically integrated potential energy tendency due to cdcore |- | TECDCOR || ARIESg3 || W m-2 || xy || mountain work tendency due to cdcore |- | QFIXER || ARIESg3 || W m-2 || xy || vertically integrated potential energy tendency due to CONSV |- | KEREMAP || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy tendency due to remap |- | PEREMAP || ARIESg3 || W m-2 || xy || vertically integrated potential energy tendency due to remap |- | TEREMAP || ARIESg3 || W m-2 || xy || mountain work tendency due to remap |- | KEGEN || ARIESg3 || W m-2 || xy || vertically integrated generation of kinetic energy |- | DKERESIN || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy residual from inertial terms |- | DKERESPG || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy residual from PG terms |- | DMDTANA || ARIESg3 || kg m-2 s-1 || xy || vertically integrated mass tendency due to analysis |- | DOXDTANAINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated ozone tendency due to analysis |- | DQVDTANAINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to analysis |- | DQLDTANAINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to analysis |- | DQIDTANAINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated ice water tendency due to analysis |- | DMDTDYN || ARIESg3 || kg m-2 s-1 || xy || vertically integrated mass tendency due to dynamics |- | DOXDTDYNINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated ozone tendency due to dynamics |- | DTHVDTDYNINT || ARIESg3 || K kg m-2 s-1 || xy || vertically integrated THV tendency due to dynamics |- | DTHVDTREMAP || ARIESg3 || K kg m-2 s-1 || xy || vertically integrated THV tendency due to vertical remapping |- | DTHVDTCONSV || ARIESg3 || K kg m-2 s-1 || xy || vertically integrated THV tendency due to TE conservation |- | DTHVDTPHYINT || ARIESg3 || K kg m-2 s-1 || xy || vertically integrated THV tendency due to physics |- | DTHVDTANAINT || ARIESg3 || K kg m-2 s-1 || xy || vertically integrated THV tendency due to analysis |- | DQVDTDYNINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to dynamics |- | DQLDTDYNINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to dynamics |- | DQIDTDYNINT || ARIESg3 || kg m-2 s-1 || xy || vertically integrated ice water tendency due to dynamics |- | CONVKE || ARIESg3 || W m-2 || xy || vertically integrated kinetic energy convergence |- | CONVTHV || ARIESg3 || W m-2 || xy || vertically integrated thetav convergence |- | CONVCPT || ARIESg3 || W m-2 || xy || vertically integrated enthalpy convergence |- | CONVPHI || ARIESg3 || W m-2 || xy || vertically integrated geopotential convergence |- | U || ARIESg3 || m s-1 || xyz || eastward wind |- | V || ARIESg3 || m s-1 || xyz || northward wind |- | T || ARIESg3 || K || xyz || air temperature |- | PL || ARIESg3 || Pa || xyz || mid level pressure |- | ZLE || ARIESg3 || m || xyz || edge heights |- | ZL || ARIESg3 || m || xyz || mid layer heights |- | S || ARIESg3 || m || xyz || mid layer dry static energy |- | PLE || ARIESg3 || Pa || xyz || edge pressure |- | TH || ARIESg3 || K || xyz || potential temperature |- | PLK || ARIESg3 || Pa$^\kappa$ || xyz || mid layer $p^\kappa$ |- | OMEGA || ARIESg3 || Pa s-1 || xyz || vertical pressure velocity |- | PTFX || ARIESg3 || K Pa m+2 s-1 || xyz || pressure weighted eastward potential temperature flux unremapped |- | PTFY || ARIESg3 || K Pa m+2 s-1 || xyz || pressure weighted northward potential temperature flux unremapped |- | MFX_UR || ARIESg3 || Pa m+2 s-1 || xyz || pressure weighted eastward wind unremapped |- | MFY_UR || ARIESg3 || Pa m+2 s-1 || xyz || pressure weighted northward wind unremapped |- | MFX || ARIESg3 || Pa m+2 s-1 || xyz || pressure weighted eastward wind |- | MFY || ARIESg3 || Pa m+2 s-1 || xyz || pressure weighted northward wind |- | MFZ || ARIESg3 || kg m-2 s-1 || xyz || vertical mass flux |- | MFX_A || ARIESg3 || Pa m+2 s-1 || xyz || zonal mass flux |- | MFY_A || ARIESg3 || Pa m+2 s-1 || xyz || meridional mass flux |- | PV || ARIESg3 || m+2 kg-1 s-1 || xyz || ertels isentropic potential vorticity |- | EPV || ARIESg3 || K m+2 kg-1 s-1 || xyz || ertels potential vorticity |- | Q || ARIESg3 || kg kg-1 || xyz || specific humidity |- | DUDTANA || ARIESg3 || m s-2 || xyz || tendency of eastward wind due to analysis |- | DVDTANA || ARIESg3 || m s-2 || xyz || tendency of northward wind due to analysis |- | DTDTANA || ARIESg3 || K s-1 || xyz || tendency of air temperature due to analysis |- | DDELPDTANA || ARIESg3 || K s-1 || xyz || tendency of pressure thickness due to analysis |- | DUDTDYN || ARIESg3 || m s-2 || xyz || tendency of eastward wind due to dynamics |- | DVDTDYN || ARIESg3 || m s-2 || xyz || tendency of northward wind due to dynamics |- | DTDTDYN || ARIESg3 || K s-1 || xyz || tendency of air temperature due to dynamics |- | DQVDTDYN || ARIESg3 || kg kg-1 s-1 || xyz || tendency of specific humidity due to dynamics |- | DQIDTDYN || ARIESg3 || kg kg-1 s-1 || xyz || tendency of ice water due to dynamics |- | DQLDTDYN || ARIESg3 || kg kg-1 s-1 || xyz || tendency of liquid water due to dynamics |- | DOXDTDYN || ARIESg3 || mol mol-1 s-1 || xyz || tendency of ozone due to dynamics |- | PREF || ARIESg3 || Pa || z || reference air pressure |- | AK || ARIESg3 || 1 || z || hybrid sigma pressure a |- | BK || ARIESg3 || 1 || z || hybrid sigma pressure b |- | PS || ARIESg3 || Pa || xy || surface pressure |- | TA || ARIESg3 || K || xy || surface air temperature |- | QA || ARIESg3 || kg kg-1 || xy || surface specific humidity |- | US || ARIESg3 || m s-1 || xy || surface eastward wind |- | VS || ARIESg3 || m s-1 || xy || surface northward wind |- | SPEED || ARIESg3 || m s-1 || xy || surface wind speed |- | DZ || ARIESg3 || m || xy || surface layer height |- | SLP || ARIESg3 || Pa || xy || sea level pressure |- | H1000 || ARIESg3 || m || xy || height at 1000 mb |- | TROPP_EPV || ARIESg3 || Pa || xy || tropopause pressure based on EPV estimate |- | TROPP_THERMAL || ARIESg3 || Pa || xy || tropopause pressure based on thermal estimate |- | TROPP_BLENDED || ARIESg3 || Pa || xy || tropopause pressure based on blended estimate |- | TROPT || ARIESg3 || K || xy || tropopause temperature using blended TROPP estimate |- | TROPQ || ARIESg3 || kg kg-1 || xy || tropopause specific humidity using blended TROPP estimate |- | DELP || ARIESg3 || Pa || xyz || pressure thickness |- | U_CGRID || ARIESg3 || m s-1 || xyz || eastward wind on C-Grid |- | V_CGRID || ARIESg3 || m s-1 || xyz || northward wind on C-Grid |- | U_DGRID || ARIESg3 || m s-1 || xyz || eastward wind on native D-Grid |- | V_DGRID || ARIESg3 || m s-1 || xyz || northward wind on native D-Grid |- | TV || ARIESg3 || K || xyz || air virtual temperature |- | THV || ARIESg3 || KPa$^\kappa$ || xyz || scaled virtual potential temperature |- | DDELPDTDYN || ARIESg3 || Pa s-1 || xyz || tendency of pressure thickness due to dynamics |- | UKE || ARIESg3 || J m-1 s-1 || xy || eastward flux of atmospheric kinetic energy |- | VKE || ARIESg3 || J m-1 s-1 || xy || northward flux of atmospheric kinetic energy |- | UCPT || ARIESg3 || J m-1 s-1 || xy || eastward flux of atmospheric enthalpy |- | VCPT || ARIESg3 || J m-1 s-1 || xy || northward flux of atmospheric enthalpy |- | UPHI || ARIESg3 || J m-1 s-1 || xy || eastward flux of atmospheric potential energy |- | VPHI || ARIESg3 || J m-1 s-1 || xy || northward flux of atmospheric potential energy |- | UQV || ARIESg3 || kg m-1 s-1 || xy || eastward flux of atmospheric water vapor |- | VQV || ARIESg3 || kg m-1 s-1 || xy || northward flux of atmospheric water vapor |- | UQL || ARIESg3 || kg m-1 s-1 || xy || eastward flux of atmospheric liquid water |- | VQL || ARIESg3 || kg m-1 s-1 || xy || northward flux of atmospheric liquid water |- | UQI || ARIESg3 || kg m-1 s-1 || xy || eastward flux of atmospheric ice |- | VQI || ARIESg3 || kg m-1 s-1 || xy || northward flux of atmospheric ice |- | DKE || ARIESg3 || W m-2 || xy || tendency of atmosphere kinetic energy content due to dynamics |- | DCPT || ARIESg3 || W m-2 || xy || tendency of atmosphere dry energy content due to dynamics |- | DPET || ARIESg3 || W m-2 || xy || tendency of atmosphere topographic potential energy due to dynamics |- | WRKT || ARIESg3 || W m-2 || xy || work done by atmosphere at top |- | DQV || ARIESg3 || kg m-2 s-1 || xy || tendency of atmosphere water vapor content due to dynamics |- | DQL || ARIESg3 || kg m-2 s-1 || xy || tendency of atmosphere liquid water content due to dynamics |- | DQI || ARIESg3 || kg m-2 s-1 || xy || tendency of atmosphere ice content due to dynamics |- | CNV || ARIESg3 || W m-2 || xy || generation of atmosphere kinetic energy content |- | U850 || ARIESg3 || m s-1 || xy || eastward wind at 850 hPa |- | U500 || ARIESg3 || m s-1 || xy || eastward wind at 500 hPa |- | U250 || ARIESg3 || m s-1 || xy || eastward wind at 250 hPa |- | V850 || ARIESg3 || m s-1 || xy || northward wind at 850 hPa |- | V500 || ARIESg3 || m s-1 || xy || northward wind at 500 hPa |- | V250 || ARIESg3 || m s-1 || xy || northward wind at 250 hPa |- | T850 || ARIESg3 || K || xy || air temperature at 850 hPa |- | T500 || ARIESg3 || K || xy || air temperature at 500 hPa |- | T250 || ARIESg3 || K || xy || air temperature at 250 hPa |- | Q850 || ARIESg3 || kg kg-1 || xy || specific humidity at 850 hPa |- | Q500 || ARIESg3 || kg kg-1 || xy || specific humidity at 500 hPa |- | Q250 || ARIESg3 || kg kg-1 || xy || specific humidity at 250 hPa |- | H850 || ARIESg3 || m || xy || height at 850 hPa |- | H500 || ARIESg3 || m || xy || height at 500 hPa |- | H250 || ARIESg3 || m || xy || height at 250 hPa |- | OMEGA500 || ARIESg3 || Pa s-1 || xy || omega at 500 hPa |- | U50M || ARIESg3 || m s-1 || xy || eastward wind at 50 meters |- | V50M || ARIESg3 || m s-1 || xy || northward wind at 50 meters |- | AREA || ARIESg3 || m+2 || xy || agrid cell area |- | PT || ARIESg3 || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || ARIESg3 || Pa || xyz || air pressure |- | AREA || AdvCore || m+2 || xy || agrid cell area |- | UNKNOWN || AdvCore || 1 || xyz || UNKNOWN |- | DPSDT_CONSTRAINT || Agcm || Pa s-1 || xy || surface pressure adjustment due to constraint |- | DUDT_ANA || Agcm || m s-2 || xyz || total eastward wind analysis tendency |- | DVDT_ANA || Agcm || m s-2 || xyz || total northward wind analysis tendency |- | DTDT_ANA || Agcm || K s-1 || xyz || total temperature analysis tendency |- | DPEDT_ANA || Agcm || Pa s-1 || xyz || total edge pressure analysis tendency |- | DQVDT_ANA || Agcm || kg kg-1 s-1 || xyz || total specific humidity vapor analysis tendency |- | DQLDT_ANA || Agcm || kg kg-1 s-1 || xyz || total specific humidity liquid analysis tendency |- | DQIDT_ANA || Agcm || kg kg-1 s-1 || xyz || total specific humidity ice analysis tendency |- | DO3DT_ANA || Agcm || mol mol-1 s-1 || xyz || total ozone analysis tendency |- | DTSDT_ANA || Agcm || K s-1 || xy || total skin temperature tendency |- | DTHVDTFILINT || Agcm || K kg m-2 s-1 || xy || vertically integrated thv adjustment from filling |- | PERES || Agcm || W m-2 || xy || vertically integrated cpt tendency residual |- | PEFILL || Agcm || W m-2 || xy || vertically integrated cpt adjustment from filling |- | QTFILL || Agcm || kg m-2 s-1 || xy || vertically integrated total water adjustment from filling |- | QVFILL || Agcm || kg m-2 s-1 || xy || vertically integrated qv adjustment from filling |- | QLFILL || Agcm || kg m-2 s-1 || xy || vertically integrated ql adjustment from filling |- | QIFILL || Agcm || kg m-2 s-1 || xy || vertically integrated qi adjustment from filling |- | OXFILL || Agcm || kg m-2 s-1 || xy || vertically integrated ox adjustment from filling |- | TROPP_EPV || Agcm || Pa || xy || tropopause pressure based on EPV estimate |- | TROPP_THERMAL || Agcm || Pa || xy || tropopause pressure based on thermal estimate |- | TROPP_BLENDED || Agcm || Pa || xy || tropopause pressure based on blended estimate |- | TROPT || Agcm || K || xy || tropopause temperature using blended TROPP estimate |- | TROPQ || Agcm || kg kg-1 || xy || tropopause specific humidity using blended TROPP estimate |- | TQV || Agcm || kg m-2 || xy || total precipitable water vapor |- | TQI || Agcm || kg m-2 || xy || total precipitable ice water |- | TQL || Agcm || kg m-2 || xy || total precipitable liquid water |- | TOX || Agcm || kg m-2 || xy || total column odd oxygen |- | MASS || Agcm || kg m-2 || xy || atmospheric mass |- | KE || Agcm || J m-2 || xy || vertically integrated kinetic energy |- | CPT || Agcm || J m-2 || xy || vertically integrated enthalpy |- | THV || Agcm || K || xy || vertically integrated virtual potential temperature |- | QLTOT || Agcm || kg kg-1 || xyz || mass fraction of cloud liquid water |- | QITOT || Agcm || kg kg-1 || xyz || mass fraction of cloud ice water |- | PHIS || Agcm || m+2 s-2 || xy || surface geopotential height |- | SGH || Agcm || m || xy || isotropic stdv of GWD topography |- | GWDVARX || Agcm || m+2 || xy || east-west variance of GWD topography |- | GWDVARY || Agcm || m+2 || xy || north-south variance of GWD topography |- | GWDVARXY || Agcm || m+2 || xy || SW-NE variance of GWD topography |- | GWDVARYX || Agcm || m+2 || xy || NW-SE variance of GWD topography |- | TRBVAR || Agcm || m+2 || xy || isotropic variance of TRB topography |- | VARFLT || Agcm || m+2 || xy || isotropic variance of filtered topography |- | AREA || Agcm || m+2 || xy || isotropic variance of filtered topography |- | AK || Agcm || m+2 || xy || isotropic variance of filtered topography |- | BK || Agcm || m+2 || xy || isotropic variance of filtered topography |- | PLE || Agcm || m+2 || xy || isotropic variance of filtered topography |- | PS || Agcm || m+2 || xy || isotropic variance of filtered topography |- | DELP || Agcm || m+2 || xy || isotropic variance of filtered topography |- | PE || Agcm || m+2 || xy || isotropic variance of filtered topography |- | PT || Agcm || m+2 || xy || isotropic variance of filtered topography |- | TV || Agcm || m+2 || xy || isotropic variance of filtered topography |- | T || Agcm || m+2 || xy || isotropic variance of filtered topography |- | U || Agcm || m+2 || xy || isotropic variance of filtered topography |- | V || Agcm || m+2 || xy || isotropic variance of filtered topography |- | U_DGRID || Agcm || m+2 || xy || isotropic variance of filtered topography |- | V_DGRID || Agcm || m+2 || xy || isotropic variance of filtered topography |- | O3PPMV || Agcm || m+2 || xy || isotropic variance of filtered topography |- | OX || Agcm || m+2 || xy || isotropic variance of filtered topography |- | Q || Agcm || m+2 || xy || isotropic variance of filtered topography |- | QCTOT || Agcm || m+2 || xy || isotropic variance of filtered topography |- | U10N || Agcm || m+2 || xy || isotropic variance of filtered topography |- | V10N || Agcm || m+2 || xy || isotropic variance of filtered topography |- | SNOMAS || Agcm || m+2 || xy || isotropic variance of filtered topography |- | WET1 || Agcm || m+2 || xy || isotropic variance of filtered topography |- | TSOIL1 || Agcm || m+2 || xy || isotropic variance of filtered topography |- | LWI || Agcm || m+2 || xy || isotropic variance of filtered topography |- | Z0 || Agcm || m+2 || xy || isotropic variance of filtered topography |- | TS || Agcm || m+2 || xy || isotropic variance of filtered topography |- | TRANA || Agcm || m+2 || xy || isotropic variance of filtered topography |- | FRLAND || Agcm || m+2 || xy || isotropic variance of filtered topography |- | FRLANDICE || Agcm || m+2 || xy || isotropic variance of filtered topography |- | FRLAKE || Agcm || m+2 || xy || isotropic variance of filtered topography |- | FROCEAN || Agcm || m+2 || xy || isotropic variance of filtered topography |- | FRACI || Agcm || m+2 || xy || isotropic variance of filtered topography |- | BCMASS || BC || kgkg || xyz || Black Carbon Mass Mixing Ratio ENSEMBLE |- | BCCONC || BC || kg m-3 || xyz || Black Carbon Mass Concentration ENSEMBLE |- | BCEXTCOEF || BC || m-1 || xyz || Black Carbon Extinction Coefficient [550 nm] ENSEMBLE |- | BCSCACOEF || BC || m-1 || xyz || Black Carbon Scattering Coefficient [550 nm] ENSEMBLE |- | BCEM001 || BC || kg m-2 s-1 || xy || Black Carbon Emission Bin 001 ENSEMBLE |- | BCEM002 || BC || kg m-2 s-1 || xy || Black Carbon Emission Bin 002 ENSEMBLE |- | BCSD001 || BC || kg m-2 s-1 || xy || Black Carbon Sedimentation Bin 001 ENSEMBLE |- | BCSD002 || BC || kg m-2 s-1 || xy || Black Carbon Sedimentation Bin 002 ENSEMBLE |- | BCDP001 || BC || kg m-2 s-1 || xy || Black Carbon Dry Deposition Bin 001 ENSEMBLE |- | BCDP002 || BC || kg m-2 s-1 || xy || Black Carbon Dry Deposition Bin 002 ENSEMBLE |- | BCWT001 || BC || kg m-2 s-1 || xy || Black Carbon Wet Deposition Bin 001 ENSEMBLE |- | BCWT002 || BC || kg m-2 s-1 || xy || Black Carbon Wet Deposition Bin 002 ENSEMBLE |- | BCSV001 || BC || kg m-2 s-1 || xy || Black Carbon Convective Scavenging Bin 001 ENSEMBLE |- | BCSV002 || BC || kg m-2 s-1 || xy || Black Carbon Convective Scavenging Bin 002 ENSEMBLE |- | BCHYPHIL || BC || kg m-2 s-1 || xy || Black Carbon Hydrophobic to Hydrophilic ENSEMBLE |- | BCEMAN || BC || kg m-2 s-1 || xy || Black Carbon Anthropogenic Emissions ENSEMBLE |- | BCEMBB || BC || kg m-2 s-1 || xy || Black Carbon Biomass Burning Emissions ENSEMBLE |- | BCEMBF || BC || kg m-2 s-1 || xy || Black Carbon Biofuel Emissions ENSEMBLE |- | BCSMASS || BC || kg m-3 || xy || Black Carbon Surface Mass Concentration ENSEMBLE |- | BCCMASS || BC || kg m-2 || xy || Black Carbon Column Mass Density ENSEMBLE |- | BCEXTTAU || BC || 1 || xy || Black Carbon Extinction AOT [550 nm] ENSEMBLE |- | BCSCATAU || BC || 1 || xy || Black Carbon Scattering AOT [550 nm] ENSEMBLE |- | BCANGSTR || BC || 1 || xy || Black Carbon Angstrom parameter [470-870 nm] ENSEMBLE |- | BCFLUXU || BC || kg m-1 s-1 || xy || Black Carbon column u-wind mass flux ENSEMBLE |- | BCFLUXV || BC || kg m-1 s-1 || xy || Black Carbon column v-wind mass flux ENSEMBLE |- | BCMASSbiob || BC || kgkg || xyz || Black Carbon Mass Mixing Ratio biob |- | BCCONCbiob || BC || kg m-3 || xyz || Black Carbon Mass Concentration biob |- | BCEXTCOEFbiob || BC || m-1 || xyz || Black Carbon Extinction Coefficient [550 nm] biob |- | BCSCACOEFbiob || BC || m-1 || xyz || Black Carbon Scattering Coefficient [550 nm] biob |- | BCEM001biob || BC || kg m-2 s-1 || xy || Black Carbon Emission Bin 001 biob |- | BCEM002biob || BC || kg m-2 s-1 || xy || Black Carbon Emission Bin 002 biob |- | BCSD001biob || BC || kg m-2 s-1 || xy || Black Carbon Sedimentation Bin 001 biob |- | BCSD002biob || BC || kg m-2 s-1 || xy || Black Carbon Sedimentation Bin 002 biob |- | BCDP001biob || BC || kg m-2 s-1 || xy || Black Carbon Dry Deposition Bin 001 biob |- | BCDP002biob || BC || kg m-2 s-1 || xy || Black Carbon Dry Deposition Bin 002 biob |- | BCWT001biob || BC || kg m-2 s-1 || xy || Black Carbon Wet Deposition Bin 001 biob |- | BCWT002biob || BC || kg m-2 s-1 || xy || Black Carbon Wet Deposition Bin 002 biob |- | BCSV001biob || BC || kg m-2 s-1 || xy || Black Carbon Convective Scavenging Bin 001 biob |- | BCSV002biob || BC || kg m-2 s-1 || xy || Black Carbon Convective Scavenging Bin 002 biob |- | BCHYPHILbiob || BC || kg m-2 s-1 || xy || Black Carbon Hydrophobic to Hydrophilic biob |- | BCEMANbiob || BC || kg m-2 s-1 || xy || Black Carbon Anthropogenic Emissions biob |- | BCEMBBbiob || BC || kg m-2 s-1 || xy || Black Carbon Biomass Burning Emissions biob |- | BCEMBFbiob || BC || kg m-2 s-1 || xy || Black Carbon Biofuel Emissions biob |- | BCSMASSbiob || BC || kg m-3 || xy || Black Carbon Surface Mass Concentration biob |- | BCCMASSbiob || BC || kg m-2 || xy || Black Carbon Column Mass Density biob |- | BCEXTTAUbiob || BC || 1 || xy || Black Carbon Extinction AOT [550 nm] biob |- | BCSCATAUbiob || BC || 1 || xy || Black Carbon Scattering AOT [550 nm] biob |- | BCANGSTRbiob || BC || 1 || xy || Black Carbon Angstrom parameter [470-870 nm] biob |- | BCFLUXUbiob || BC || kg m-1 s-1 || xy || Black Carbon column u-wind mass flux biob |- | BCFLUXVbiob || BC || kg m-1 s-1 || xy || Black Carbon column v-wind mass flux biob |- | BCMASSanth || BC || kgkg || xyz || Black Carbon Mass Mixing Ratio anth |- | BCCONCanth || BC || kg m-3 || xyz || Black Carbon Mass Concentration anth |- | BCEXTCOEFanth || BC || m-1 || xyz || Black Carbon Extinction Coefficient [550 nm] anth |- | BCSCACOEFanth || BC || m-1 || xyz || Black Carbon Scattering Coefficient [550 nm] anth |- | BCEM001anth || BC || kg m-2 s-1 || xy || Black Carbon Emission Bin 001 anth |- | BCEM002anth || BC || kg m-2 s-1 || xy || Black Carbon Emission Bin 002 anth |- | BCSD001anth || BC || kg m-2 s-1 || xy || Black Carbon Sedimentation Bin 001 anth |- | BCSD002anth || BC || kg m-2 s-1 || xy || Black Carbon Sedimentation Bin 002 anth |- | BCDP001anth || BC || kg m-2 s-1 || xy || Black Carbon Dry Deposition Bin 001 anth |- | BCDP002anth || BC || kg m-2 s-1 || xy || Black Carbon Dry Deposition Bin 002 anth |- | BCWT001anth || BC || kg m-2 s-1 || xy || Black Carbon Wet Deposition Bin 001 anth |- | BCWT002anth || BC || kg m-2 s-1 || xy || Black Carbon Wet Deposition Bin 002 anth |- | BCSV001anth || BC || kg m-2 s-1 || xy || Black Carbon Convective Scavenging Bin 001 anth |- | BCSV002anth || BC || kg m-2 s-1 || xy || Black Carbon Convective Scavenging Bin 002 anth |- | BCHYPHILanth || BC || kg m-2 s-1 || xy || Black Carbon Hydrophobic to Hydrophilic anth |- | BCEMANanth || BC || kg m-2 s-1 || xy || Black Carbon Anthropogenic Emissions anth |- | BCEMBBanth || BC || kg m-2 s-1 || xy || Black Carbon Biomass Burning Emissions anth |- | BCEMBFanth || BC || kg m-2 s-1 || xy || Black Carbon Biofuel Emissions anth |- | BCSMASSanth || BC || kg m-3 || xy || Black Carbon Surface Mass Concentration anth |- | BCCMASSanth || BC || kg m-2 || xy || Black Carbon Column Mass Density anth |- | BCEXTTAUanth || BC || 1 || xy || Black Carbon Extinction AOT [550 nm] anth |- | BCSCATAUanth || BC || 1 || xy || Black Carbon Scattering AOT [550 nm] anth |- | BCANGSTRanth || BC || 1 || xy || Black Carbon Angstrom parameter [470-870 nm] anth |- | BCFLUXUanth || BC || kg m-1 s-1 || xy || Black Carbon column u-wind mass flux anth |- | BCFLUXVanth || BC || kg m-1 s-1 || xy || Black Carbon column v-wind mass flux anth |- | CARMA_DUEM || CARMA || kg m-2 s-1 || xy || Dust emission flux |- | CARMA_DUDP || CARMA || kg m-2 s-1 || xy || Dust deposition flux |- | CARMA_DUSD || CARMA || kg m-2 s-1 || xy || Dust sedimentation flux |- | CARMA_DUWT || CARMA || kg m-2 s-1 || xy || Dust wet-deposition flux |- | CARMA_DUSV || CARMA || kg m-2 s-1 || xy || Dust convective scavenging flux |- | CARMA_DUCMASS || CARMA || kg m-2 || xy || Dust column burden |- | CARMA_DUCM001 || CARMA || kg m-2 || xy || Dust column burden Bin 001 |- | CARMA_DUCM002 || CARMA || kg m-2 || xy || Dust column burden Bin 002 |- | CARMA_DUCM003 || CARMA || kg m-2 || xy || Dust column burden Bin 003 |- | CARMA_DUCM004 || CARMA || kg m-2 || xy || Dust column burden Bin 004 |- | CARMA_DUCM005 || CARMA || kg m-2 || xy || Dust column burden Bin 005 |- | CARMA_DUCM006 || CARMA || kg m-2 || xy || Dust column burden Bin 006 |- | CARMA_DUCM007 || CARMA || kg m-2 || xy || Dust column burden Bin 007 |- | CARMA_DUCM008 || CARMA || kg m-2 || xy || Dust column burden Bin 008 |- | CARMA_DUSMASS || CARMA || kg m-3 || xy || Dust surface mass concentration |- | CARMA_DUEXTTAU || CARMA || 1 || xy || Dust 550-nm extinction AOT |- | CARMA_DUSCATAU || CARMA || 1 || xy || Dust 550-nm scattering AOT |- | CARMA_DUANGSTR || CARMA || 1 || xy || Dust 470-870 nm Angstrom parameter |- | CARMA_DUFLUXU || CARMA || kg m-1 s-1 || xy || Dust column u-wind mass flux |- | CARMA_DUFLUXV || CARMA || kg m-1 s-1 || xy || Dust column v-wind mass flux |- | CARMA_DUMASS || CARMA || kg kg-1 || xyz || Dust Mass Mixing Ratio |- | CARMA_DUCONC || CARMA || kg m-3 || xyz || Dust Mass Concentration |- | CARMA_ASHEM || CARMA || kg m-2 s-1 || xy || Ash emission flux |- | CARMA_ASHDP || CARMA || kg m-2 s-1 || xy || Ash deposition flux |- | CARMA_ASHSD || CARMA || kg m-2 s-1 || xy || Ash sedimentation flux |- | CARMA_ASHWT || CARMA || kg m-2 s-1 || xy || Ash wet-deposition flux |- | CARMA_ASHSV || CARMA || kg m-2 s-1 || xy || Ash convective scavenging flux |- | CARMA_ASHCMASS || CARMA || kg m-2 || xy || Ash column burden |- | CARMA_ASHSMASS || CARMA || kg m-3 || xy || Ash surface mass concentration |- | CARMA_ASHEXTTAU || CARMA || 1 || xy || Ash 550-nm extinction AOT |- | CARMA_ASHSCATAU || CARMA || 1 || xy || Ash 550-nm scattering AOT |- | CARMA_ASHANGSTR || CARMA || 1 || xy || Ash 470-870 nm Angstrom parameter |- | CARMA_ASHFLUXU || CARMA || kg m-1 s-1 || xy || Ash column u-wind mass flux |- | CARMA_ASHFLUXV || CARMA || kg m-1 s-1 || xy || Ash column v-wind mass flux |- | CARMA_ASHMASS || CARMA || kg kg-1 || xyz || Ash Mass Mixing Ratio |- | CARMA_ASHCONC || CARMA || kg m-3 || xyz || Ash Mass Concentration |- | CARMA_SSEM || CARMA || kg m-2 s-1 || xy || Seasalt emission flux |- | CARMA_SSDP || CARMA || kg m-2 s-1 || xy || Seasalt deposition flux |- | CARMA_SSSD || CARMA || kg m-2 s-1 || xy || Seasalt sedimentation flux |- | CARMA_SSWT || CARMA || kg m-2 s-1 || xy || Seasalt wet-deposition flux |- | CARMA_SSSV || CARMA || kg m-2 s-1 || xy || Seasalt convective scavenging flux |- | CARMA_SSCMASS || CARMA || kg m-2 || xy || Seasalt column burden |- | CARMA_SSSMASS || CARMA || kg m-3 || xy || Seasalt surface mass concentration |- | CARMA_SSEXTTAU || CARMA || 1 || xy || Seasalt 550-nm extinction AOT |- | CARMA_SSSCATAU || CARMA || 1 || xy || Seasalt 550-nm scattering AOT |- | CARMA_SSANGSTR || CARMA || 1 || xy || Seasalt 470-870 nm Angstrom parameter |- | CARMA_SSFLUXU || CARMA || kg m-1 s-1 || xy || Seasalt column u-wind mass flux |- | CARMA_SSFLUXV || CARMA || kg m-1 s-1 || xy || Seasalt column v-wind mass flux |- | CARMA_SSMASS || CARMA || kg kg-1 || xyz || Seasalt Mass Mixing Ratio |- | CARMA_SSCONC || CARMA || kg m-3 || xyz || Seasalt Mass Concentration |- | CARMA_SUDP || CARMA || kg m-2 s-1 || xy || Sulfate deposition flux |- | CARMA_SUSD || CARMA || kg m-2 s-1 || xy || Sulfate sedimentation flux |- | CARMA_SUWT || CARMA || kg m-2 s-1 || xy || Sulfate wet-deposition flux |- | CARMA_SUSV || CARMA || kg m-2 s-1 || xy || Sulfate convective scavenging flux |- | CARMA_SUCMASS || CARMA || kg m-2 || xy || Sulfate column burden |- | CARMA_SUSMASS || CARMA || kg m-3 || xy || Sulfate surface mass concentration |- | CARMA_SUEXTTAU || CARMA || 1 || xy || Sulfate 550-nm extinction AOT |- | CARMA_SUSCATAU || CARMA || 1 || xy || Sulfate 550-nm scattering AOT |- | CARMA_SUANGSTR || CARMA || 1 || xy || Sulfate 470-870 nm Angstrom parameter |- | CARMA_SUFLUXU || CARMA || kg m-1 s-1 || xy || Sulfate column u-wind mass flux |- | CARMA_SUFLUXV || CARMA || kg m-1 s-1 || xy || Sulfate column v-wind mass flux |- | CARMA_SUMASS || CARMA || kg kg-1 || xyz || Sulfate Mass Mixing Ratio |- | CARMA_SUCONC || CARMA || kg m-3 || xyz || Sulfate Mass Concentration |- | CARMA_SUNUC || CARMA || m-3 s-1 || xyz || Sulfate Total Nucleation Rate |- | CARMA_SUSAREA || CARMA || m-2 m-3 || xyz || Sulfate Total Surace Area Density |- | CARMA_SUSAREAv || CARMA || m-2 m-3 || xyz || Sulfate Total Surace Area Density (zeroed volcanic) |- | CARMA_SUNUMD || CARMA || m-3 || xyz || Sulfate Total Number Density |- | CARMA_SUREFF || CARMA || m || xyz || Sulfate Particle Effective Radius |- | CARMA_SMEM || CARMA || kg m-2 s-1 || xy || Smoke emission flux |- | CARMA_SMDP || CARMA || kg m-2 s-1 || xy || Smoke deposition flux |- | CARMA_SMSD || CARMA || kg m-2 s-1 || xy || Smoke sedimentation flux |- | CARMA_SMWT || CARMA || kg m-2 s-1 || xy || Smoke wet-deposition flux |- | CARMA_SMSV || CARMA || kg m-2 s-1 || xy || Smoke convective scavenging flux |- | CARMA_SMCMASS || CARMA || kg m-2 || xy || Smoke column burden |- | CARMA_SMSMASS || CARMA || kg m-3 || xy || Smoke surface mass concentration |- | CARMA_SMEXTTAU || CARMA || 1 || xy || Smoke 550-nm extinction AOT |- | CARMA_SMSCATAU || CARMA || 1 || xy || Smoke 550-nm scattering AOT |- | CARMA_SMANGSTR || CARMA || 1 || xy || Smoke 470-870 nm Angstrom parameter |- | CARMA_SMFLUXU || CARMA || kg m-1 s-1 || xy || Smoke column u-wind mass flux |- | CARMA_SMFLUXV || CARMA || kg m-1 s-1 || xy || Smoke column v-wind mass flux |- | CARMA_SMMASS || CARMA || kg kg-1 || xyz || Smoke Mass Mixing Ratio |- | CARMA_SMCONC || CARMA || kg m-3 || xyz || Smoke Mass Concentration |- | CARMA_BCEM || CARMA || kg m-2 s-1 || xy || Black Carbon emission flux |- | CARMA_BCDP || CARMA || kg m-2 s-1 || xy || Black Carbon deposition flux |- | CARMA_BCSD || CARMA || kg m-2 s-1 || xy || Black Carbon sedimentation flux |- | CARMA_BCWT || CARMA || kg m-2 s-1 || xy || Black Carbon wet-deposition flux |- | CARMA_BCSV || CARMA || kg m-2 s-1 || xy || Black Carbon convective scavenging flux |- | CARMA_BCCMASS || CARMA || kg m-2 || xy || Black Carbon column burden |- | CARMA_BCSMASS || CARMA || kg m-3 || xy || Black Carbon surface mass concentration |- | CARMA_BCEXTTAU || CARMA || 1 || xy || Black Carbon 550-nm extinction AOT |- | CARMA_BCSCATAU || CARMA || 1 || xy || Black Carbon 550-nm scattering AOT |- | CARMA_BCANGSTR || CARMA || 1 || xy || Black Carbon 470-870 nm Angstrom parameter |- | CARMA_BCFLUXU || CARMA || kg m-1 s-1 || xy || Black Carbon column u-wind mass flux |- | CARMA_BCFLUXV || CARMA || kg m-1 s-1 || xy || Black Carbon column v-wind mass flux |- | CARMA_BCMASS || CARMA || kg kg-1 || xyz || Black Carbon Mass Mixing Ratio |- | CARMA_BCCONC || CARMA || kg m-3 || xyz || Black Carbon Mass Concentration |- | CARMA_TOTEXTTAU || CARMA || 1 || xy || Total 550-nm extinction AOT |- | CARMA_TOTSCATAU || CARMA || 1 || xy || Total 550-nm scattering AOT |- | CARMA_TOTANGSTR || CARMA || 1 || xy || Total 470-870 nm Angstrom parameter |- | CARMA_DUEXTCOEF || CARMA || m-1 || xyz || Dust 550 nm extinction coefficient |- | CARMA_DUSCACOEF || CARMA || m-1 || xyz || Dust 550 nm scattering coefficient |- | CARMA_BCEXTCOEF || CARMA || m-1 || xyz || Black Carbon 550 nm extinction coefficient |- | CARMA_BCSCACOEF || CARMA || m-1 || xyz || Black Carbon 550 nm scattering coefficient |- | CARMA_SSEXTCOEF || CARMA || m-1 || xyz || Seasalt 550 nm extinction coefficient |- | CARMA_SSSCACOEF || CARMA || m-1 || xyz || Seasalt 550 nm scattering coefficient |- | CARMA_SMEXTCOEF || CARMA || m-1 || xyz || Smoke 550 nm extinction coefficient |- | CARMA_SMSCACOEF || CARMA || m-1 || xyz || Smoke 550 nm scattering coefficient |- | CARMA_SUEXTCOEF || CARMA || m-1 || xyz || Sulfate 550 nm extinction coefficient |- | CARMA_SUSCACOEF || CARMA || m-1 || xyz || Sulfate 550 nm scattering coefficient |- | CARMA_ASHEXTCOEF || CARMA || m-1 || xyz || Ash 550 nm extinction coefficient |- | CARMA_ASHSCACOEF || CARMA || m-1 || xyz || Ash 550 nm scattering coefficient |- | AERO || CARMAchem || kg kg-1 || xyz || aerosol mass mixing ratios |- | AERO_ACI || CARMAchem || kg kg-1 || xyz || aerosol cloud interaction |- | AERO_DP || CARMAchem || kg m-2 s-1 || xy || aerosol deposition |- | CFC12S || CFC || mol mol-1 || xyz || Stratospheric CFC-12 (CCl2F2) |- | CFC12T || CFC || mol mol-1 || xyz || Tropospheric CFC-12 (CCl2F2) |- | CFC12EM || CFC || kg m-2 s-1 || xy || CFC-12 Emission |- | CFC12SLS || CFC || m-3 s-1 || xyz || Stratospheric CFC-12 Loss |- | CFC12TLS || CFC || m-3 s-1 || xyz || Tropospheric CFC-12 Loss |- | CFC12SCL || CFC || kg m-2 || xy || Stratospheric CFC-12 Column |- | CFC12TCL || CFC || kg m-2 || xy || Tropospheric CFC-12 Column |- | CFC12PH || CFC || s-1 || xyz || CFC-12 Photorate |- | CH4EM || CH4 || kg m-2 s-1 || xy || CH4 Emission ENSEMBLE |- | CH4EManimls || CH4 || kg m-2 s-1 || xy || CH4 Emission animals |- | CH4EMcoal || CH4 || kg m-2 s-1 || xy || CH4 Emission coal |- | CH4EMleak || CH4 || kg m-2 s-1 || xy || CH4 Emission leakage |- | CH4EMgasvnt || CH4 || kg m-2 s-1 || xy || CH4 Emission gas venting |- | CH4EMhydz || CH4 || kg m-2 s-1 || xy || CH4 Emission ocean HYDZ |- | CH4EMmsw || CH4 || kg m-2 s-1 || xy || CH4 Emission municipal sewers |- | CH4EMsoilab || CH4 || kg m-2 s-1 || xy || CH4 Emission soil absorption |- | CH4EMtrmite || CH4 || kg m-2 s-1 || xy || CH4 Emission termites |- | CH4EMbogs || CH4 || kg m-2 s-1 || xy || CH4 Emission bogs |- | CH4EMburn || CH4 || kg m-2 s-1 || xy || CH4 Emission biomass burning |- | CH4EMricec || CH4 || kg m-2 s-1 || xy || CH4 Emission rice cultivation |- | CH4EMswamps || CH4 || kg m-2 s-1 || xy || CH4 Emission swamps |- | CH4EMtundra || CH4 || kg m-2 s-1 || xy || CH4 Emission tundra |- | CH4EMbf || CH4 || kg m-2 s-1 || xy || CH4 Emission biofuel |- | CH4EMtot || CH4 || kg m-2 s-1 || xy || CH4 Emission total |- | CH4PD || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production ENSEMBLE |- | CH4PDanimls || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production animals |- | CH4PDcoal || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production coal |- | CH4PDleak || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production leakage |- | CH4PDgasvnt || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production gas venting |- | CH4PDhydz || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production ocean HYDZ |- | CH4PDmsw || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production municipal sewers |- | CH4PDsoilab || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production soil absorption |- | CH4PDtrmite || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production termites |- | CH4PDbogs || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production bogs |- | CH4PDburn || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production biomass burning |- | CH4PDricec || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production rice cultivation |- | CH4PDswamps || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production swamps |- | CH4PDtundra || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production tundra |- | CH4PDbf || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production biofuel |- | CH4PDtot || CH4 || kg m-2 s-1 || xy || CH4 Chemical Production total |- | CH4LS || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss ENSEMBLE |- | CH4LSanimls || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss animals |- | CH4LScoal || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss coal |- | CH4LSleak || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss leakage |- | CH4LSgasvnt || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss gas venting |- | CH4LShydz || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss ocean HYDZ |- | CH4LSmsw || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss municipal sewers |- | CH4LSsoilab || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss soil absorption |- | CH4LStrmite || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss termites |- | CH4LSbogs || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss bogs |- | CH4LSburn || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss biomass burning |- | CH4LSricec || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss rice cultivation |- | CH4LSswamps || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss swamps |- | CH4LStundra || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss tundra |- | CH4LSbf || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss biofuel |- | CH4LStot || CH4 || kg m-2 s-1 || xy || CH4 Chemical Loss total |- | CH4SC || CH4 || ppbv || xy || CH4 Surface Concentration ENSEMBLE |- | CH4SCanimls || CH4 || ppbv || xy || CH4 Surface Concentration animals |- | CH4SCcoal || CH4 || ppbv || xy || CH4 Surface Concentration coal |- | CH4SCleak || CH4 || ppbv || xy || CH4 Surface Concentration leakage |- | CH4SCgasvnt || CH4 || ppbv || xy || CH4 Surface Concentration gas venting |- | CH4SChydz || CH4 || ppbv || xy || CH4 Surface Concentration ocean HYDZ |- | CH4SCmsw || CH4 || ppbv || xy || CH4 Surface Concentration municipal sewers |- | CH4SCsoilab || CH4 || ppbv || xy || CH4 Surface Concentration soil absorption |- | CH4SCtrmite || CH4 || ppbv || xy || CH4 Surface Concentration termites |- | CH4SCbogs || CH4 || ppbv || xy || CH4 Surface Concentration bogs |- | CH4SCburn || CH4 || ppbv || xy || CH4 Surface Concentration biomass burning |- | CH4SCricec || CH4 || ppbv || xy || CH4 Surface Concentration rice cultivation |- | CH4SCswamps || CH4 || ppbv || xy || CH4 Surface Concentration swamps |- | CH4SCtundra || CH4 || ppbv || xy || CH4 Surface Concentration tundra |- | CH4SCbf || CH4 || ppbv || xy || CH4 Surface Concentration biofuel |- | CH4SCtot || CH4 || ppbv || xy || CH4 Surface Concentration total |- | CH4CL || CH4 || kg m-2 || xy || CH4 Column Burden ENSEMBLE |- | CH4CLanimls || CH4 || kg m-2 || xy || CH4 Column Burden animals |- | CH4CLcoal || CH4 || kg m-2 || xy || CH4 Column Burden coal |- | CH4CLleak || CH4 || kg m-2 || xy || CH4 Column Burden leakage |- | CH4CLgasvnt || CH4 || kg m-2 || xy || CH4 Column Burden gas venting |- | CH4CLhydz || CH4 || kg m-2 || xy || CH4 Column Burden ocean HYDZ |- | CH4CLmsw || CH4 || kg m-2 || xy || CH4 Column Burden municipal sewers |- | CH4CLsoilab || CH4 || kg m-2 || xy || CH4 Column Burden soil absorption |- | CH4CLtrmite || CH4 || kg m-2 || xy || CH4 Column Burden termites |- | CH4CLbogs || CH4 || kg m-2 || xy || CH4 Column Burden bogs |- | CH4CLburn || CH4 || kg m-2 || xy || CH4 Column Burden biomass burning |- | CH4CLricec || CH4 || kg m-2 || xy || CH4 Column Burden rice cultivation |- | CH4CLswamps || CH4 || kg m-2 || xy || CH4 Column Burden swamps |- | CH4CLtundra || CH4 || kg m-2 || xy || CH4 Column Burden tundra |- | CH4CLbf || CH4 || kg m-2 || xy || CH4 Column Burden biofuel |- | CH4CLtot || CH4 || kg m-2 || xy || CH4 Column Burden total |- | CH4JL || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss ENSEMBLE |- | CH4JLanimls || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss animals |- | CH4JLcoal || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss coal |- | CH4JLleak || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss leakage |- | CH4JLgasvnt || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss gas venting |- | CH4JLhydz || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss ocean HYDZ |- | CH4JLmsw || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss municipal sewers |- | CH4JLsoilab || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss soil absorption |- | CH4JLtrmite || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss termites |- | CH4JLbogs || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss bogs |- | CH4JLburn || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss biomass burning |- | CH4JLricec || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss rice cultivation |- | CH4JLswamps || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss swamps |- | CH4JLtundra || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss tundra |- | CH4JLbf || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss biofuel |- | CH4JLtot || CH4 || m-3 s-1 || xyz || CH4 Photolytic Loss total |- | CH4QP || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis ENSEMBLE |- | CH4QPanimls || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis animals |- | CH4QPcoal || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis coal |- | CH4QPleak || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis leakage |- | CH4QPgasvnt || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis gas venting |- | CH4QPhydz || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis ocean HYDZ |- | CH4QPmsw || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis municipal sewers |- | CH4QPsoilab || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis soil absorption |- | CH4QPtrmite || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis termites |- | CH4QPbogs || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis bogs |- | CH4QPburn || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis biomass burning |- | CH4QPricec || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis rice cultivation |- | CH4QPswamps || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis swamps |- | CH4QPtundra || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis tundra |- | CH4QPbf || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis biofuel |- | CH4QPtot || CH4 || kg kg-1 s-1 || xyz || H2O tendency from CH4 photolysis total |- | CH4DRY || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction ENSEMBLE |- | CH4DRYanimls || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction animals |- | CH4DRYcoal || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction coal |- | CH4DRYleak || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction leakage |- | CH4DRYgasvnt || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction gas venting |- | CH4DRYhydz || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction ocean HYDZ |- | CH4DRYmsw || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction municipal sewers |- | CH4DRYsoilab || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction soil absorption |- | CH4DRYtrmite || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction termites |- | CH4DRYbogs || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction bogs |- | CH4DRYburn || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction biomass burning |- | CH4DRYricec || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction rice cultivation |- | CH4DRYswamps || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction swamps |- | CH4DRYtundra || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction tundra |- | CH4DRYbf || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction biofuel |- | CH4DRYtot || CH4 || mol mol-1 || xyz || CH4 dry air mole fraction total |- | COEM || CO || kg m-2 s-1 || xy || CO Emission ENSEMBLE |- | COEMbbbo || CO || kg m-2 s-1 || xy || CO Emission (Boreal Biomass Burning) |- | COEMbbnb || CO || kg m-2 s-1 || xy || CO Emission (Non-Boreal Biomass Burning) |- | COEMffru || CO || kg m-2 s-1 || xy || CO Emission (Anthopogenic Emissions Northern Asia) |- | COEMffas || CO || kg m-2 s-1 || xy || CO Emission (Anthopogenic Emissions Southern Asia) |- | COEMffeu || CO || kg m-2 s-1 || xy || CO Emission (Anthopogenic Emissions Europe) |- | COEMffna || CO || kg m-2 s-1 || xy || CO Emission (Anthopogenic Emissions North America) |- | COEMbbae || CO || kg m-2 s-1 || xy || CO Emission (Asia and Europe Biomass Burning) |- | COEMbbna || CO || kg m-2 s-1 || xy || CO Emission (North America Biomass Burning) |- | COEMbbla || CO || kg m-2 s-1 || xy || CO Emission (Central and South America Biomass Burning) |- | COEMbbaf || CO || kg m-2 s-1 || xy || CO Emission (Africa Biomass Burning) |- | COEMbbgl || CO || kg m-2 s-1 || xy || CO Emission (Global Biomass Burning) |- | COEMnbas || CO || kg m-2 s-1 || xy || CO Emission (Asia Non-Biomass Burning) |- | COEMnbeu || CO || kg m-2 s-1 || xy || CO Emission (European Non-Biomass Burning) |- | COEMnbna || CO || kg m-2 s-1 || xy || CO Emission (North American Non-Biomass Burning) |- | COEMnbgl || CO || kg m-2 s-1 || xy || CO Emission (Global Non-Biomass Burning) |- | COPD || CO || kg m-2 s-1 || xy || CO Chemical Production ENSEMBLE |- | COPDbbbo || CO || kg m-2 s-1 || xy || CO Chemical Production (Boreal Biomass Burning) |- | COPDbbnb || CO || kg m-2 s-1 || xy || CO Chemical Production (Non-Boreal Biomass Burning) |- | COPDffru || CO || kg m-2 s-1 || xy || CO Chemical Production (Anthopogenic Emissions Northern Asia) |- | COPDffas || CO || kg m-2 s-1 || xy || CO Chemical Production (Anthopogenic Emissions Southern Asia) |- | COPDffeu || CO || kg m-2 s-1 || xy || CO Chemical Production (Anthopogenic Emissions Europe) |- | COPDffna || CO || kg m-2 s-1 || xy || CO Chemical Production (Anthopogenic Emissions North America) |- | COPDbbae || CO || kg m-2 s-1 || xy || CO Chemical Production (Asia and Europe Biomass Burning) |- | COPDbbna || CO || kg m-2 s-1 || xy || CO Chemical Production (North America Biomass Burning) |- | COPDbbla || CO || kg m-2 s-1 || xy || CO Chemical Production (Central and South America Biomass Burning) |- | COPDbbaf || CO || kg m-2 s-1 || xy || CO Chemical Production (Africa Biomass Burning) |- | COPDbbgl || CO || kg m-2 s-1 || xy || CO Chemical Production (Global Biomass Burning) |- | COPDnbas || CO || kg m-2 s-1 || xy || CO Chemical Production (Asia Non-Biomass Burning) |- | COPDnbeu || CO || kg m-2 s-1 || xy || CO Chemical Production (European Non-Biomass Burning) |- | COPDnbna || CO || kg m-2 s-1 || xy || CO Chemical Production (North American Non-Biomass Burning) |- | COPDnbgl || CO || kg m-2 s-1 || xy || CO Chemical Production (Global Non-Biomass Burning) |- | COLS || CO || kg m-2 s-1 || xy || CO Chemical Loss ENSEMBLE |- | COLSbbbo || CO || km m-2 s-1 || xy || CO Chemical Loss (Boreal Biomass Burning) |- | COLSbbnb || CO || km m-2 s-1 || xy || CO Chemical Loss (Non-Boreal Biomass Burning) |- | COLSffru || CO || km m-2 s-1 || xy || CO Chemical Loss (Anthopogenic Emissions Northern Asia) |- | COLSffas || CO || km m-2 s-1 || xy || CO Chemical Loss (Anthopogenic Emissions Southern Asia) |- | COLSffeu || CO || km m-2 s-1 || xy || CO Chemical Loss (Anthopogenic Emissions Europe) |- | COLSffna || CO || km m-2 s-1 || xy || CO Chemical Loss (Anthopogenic Emissions North America) |- | COLSbbae || CO || km m-2 s-1 || xy || CO Chemical Loss (Asia and Europe Biomass Burning) |- | COLSbbna || CO || km m-2 s-1 || xy || CO Chemical Loss (North America Biomass Burning) |- | COLSbbla || CO || km m-2 s-1 || xy || CO Chemical Loss (Central and South America Biomass Burning) |- | COLSbbaf || CO || km m-2 s-1 || xy || CO Chemical Loss (Africa Biomass Burning) |- | COLSbbgl || CO || km m-2 s-1 || xy || CO Chemical Loss (Global Biomass Burning) |- | COLSnbas || CO || kg m-2 s-1 || xy || CO Chemical Loss (Asia Non-Biomass Burning) |- | COLSnbeu || CO || kg m-2 s-1 || xy || CO Chemical Loss (European Non-Biomass Burning) |- | COLSnbna || CO || kg m-2 s-1 || xy || CO Chemical Loss (North American Non-Biomass Burning) |- | COLSnbgl || CO || kg m-2 s-1 || xy || CO Chemical Loss (Global Non-Biomass Burning) |- | COSC || CO || 1e-9 || xy || CO Surface Concentration in ppbv ENSEMBLE |- | COSCbbbo || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Boreal Biomass Burning) |- | COSCbbnb || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Non-Boreal Biomass Burning) |- | COSCffru || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Anthopogenic Emissions Northern Asia) |- | COSCffas || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Anthopogenic Emissions Southern Asia) |- | COSCffeu || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Anthopogenic Emissions Europe) |- | COSCffna || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Anthopogenic Emissions North America) |- | COSCbbae || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Asia and Europe Biomass Burning) |- | COSCbbna || CO || 1e-9 || xy || CO Surface Concentration in ppbv (North America Biomass Burning) |- | COSCbbla || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Central and South America Biomass Burning) |- | COSCbbaf || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Africa Biomass Burning) |- | COSCbbgl || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Global Biomass Burning) |- | COSCnbas || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Asia Non-Biomass Burning) |- | COSCnbeu || CO || 1e-9 || xy || CO Surface Concentration in ppbv (European Non-Biomass Burning) |- | COSCnbna || CO || 1e-9 || xy || CO Surface Concentration in ppbv (North American Non-Biomass Burning) |- | COSCnbgl || CO || 1e-9 || xy || CO Surface Concentration in ppbv (Global Non-Biomass Burning) |- | COCL || CO || kg m-2 || xy || CO Column Burden ENSEMBLE |- | COCLbbbo || CO || kg m-2 || xy || CO Column Burden (Boreal Biomass Burning) |- | COCLbbnb || CO || kg m-2 || xy || CO Column Burden (Non-Boreal Biomass Burning) |- | COCLffru || CO || kg m-2 || xy || CO Column Burden (Anthopogenic Emissions Northern Asia) |- | COCLffas || CO || kg m-2 || xy || CO Column Burden (Anthopogenic Emissions Southern Asia) |- | COCLffeu || CO || kg m-2 || xy || CO Column Burden (Anthopogenic Emissions Europe) |- | COCLffna || CO || kg m-2 || xy || CO Column Burden (Anthopogenic Emissions North America) |- | COCLbbae || CO || kg m-2 || xy || CO Column Burden (Asia and Europe Biomass Burning) |- | COCLbbna || CO || kg m-2 || xy || CO Column Burden (North America Biomass Burning) |- | COCLbbla || CO || kg m-2 || xy || CO Column Burden (Central and South America Biomass Burning) |- | COCLbbaf || CO || kg m-2 || xy || CO Column Burden (Africa Biomass Burning) |- | COCLbbgl || CO || kg m-2 || xy || CO Column Burden (Global Biomass Burning) |- | COCLnbas || CO || kg m-2 || xy || CO Column Burden (Asia Non-Biomass Burning) |- | COCLnbeu || CO || kg m-2 || xy || CO Column Burden (European Non-Biomass Burning) |- | COCLnbna || CO || kg m-2 || xy || CO Column Burden (North American Non-Biomass Burning) |- | COCLnbgl || CO || kg m-2 || xy || CO Column Burden (Global Non-Biomass Burning) |- | CO2 || CO2 || molmol || xyz || Carbon Dioxide |- | CO2NAMER || CO2 || molmol || xyz || North American Carbon Dioxide |- | CO2SAMER || CO2 || molmol || xyz || South American Carbon Dioxide |- | CO2AFRIC || CO2 || molmol || xyz || African Carbon Dioxide |- | CO2EM001 || CO2 || kg m-2 s-1 || xy || CO2 Emission Bin 001 |- | CO2EM002 || CO2 || kg m-2 s-1 || xy || CO2 Emission Bin 002 |- | CO2EM003 || CO2 || kg m-2 s-1 || xy || CO2 Emission Bin 003 |- | CO2EM004 || CO2 || kg m-2 s-1 || xy || CO2 Emission Bin 004 |- | CO2CL001 || CO2 || 1 || xy || CO2 Bulk Mixing Ratio (Column Massps) Bin 001 |- | CO2CL002 || CO2 || 1 || xy || CO2 Bulk Mixing Ratio (Column Massps) Bin 002 |- | CO2CL003 || CO2 || 1 || xy || CO2 Bulk Mixing Ratio (Column Massps) Bin 003 |- | CO2CL004 || CO2 || 1 || xy || CO2 Bulk Mixing Ratio (Column Massps) Bin 004 |- | CO2SC001 || CO2 || 1e-6 || xy || CO2 Surface Concentration Bin 001 |- | CO2SC002 || CO2 || 1e-6 || xy || CO2 Surface Concentration Bin 002 |- | CO2SC003 || CO2 || 1e-6 || xy || CO2 Surface Concentration Bin 003 |- | CO2SC004 || CO2 || 1e-6 || xy || CO2 Surface Concentration Bin 004 |- | EVAPOUT || Catch || kg m-2 s-1 || tile || evaporation |- | SUBLIM || Catch || kg m-2 s-1 || tile || sublimation |- | SHOUT || Catch || W m-2 || tile || upward sensible heat flux |- | RUNOFF || Catch || kg m-2 s-1 || tile || runoff flux |- | EVPINT || Catch || W m-2 || tile || interception loss energy flux |- | EVPSOI || Catch || W m-2 || tile || baresoil evap energy flux |- | EVPVEG || Catch || W m-2 || tile || transpiration energy flux |- | EVPICE || Catch || W m-2 || tile || snow ice evaporation energy flux |- | WAT10CM || Catch || kg m-2 || tile || soil moisture in Upper 10cm |- | WATSOI || Catch || kg m-2 || tile || totoal soil moisture |- | ICESOI || Catch || kg m-2 || tile || soil frozen water content |- | EVPSNO || Catch || W m-2 || tile || snowpack evaporation energy flux |- | BASEFLOW || Catch || kg m-2 s-1 || tile || baseflow flux |- | RUNSURF || Catch || kg m-2 s-1 || tile || overland runoff including throughflow |- | SMELT || Catch || kg m-2 s-1 || tile || snowmelt flux |- | HLWUP || Catch || W m-2 || tile || surface outgoing longwave flux |- | LWNDSRF || Catch || W m-2 || tile || surface net downward longwave flux |- | SWNDSRF || Catch || W m-2 || tile || surface net downward shortwave flux |- | HLATN || Catch || W m-2 || tile || total latent energy flux |- | QINFIL || Catch || kg m-2 s-1 || tile || rainwater infiltration flux |- | AR1 || Catch || 1 || tile || areal fraction saturated zone |- | AR2 || Catch || 1 || tile || areal fraction transpiration zone |- | RZEQ || Catch || kg m-2 || tile || root zone equilibrium moisture |- | GHFLX || Catch || W m-2 || tile || ground energy flux |- | TPSURF || Catch || K || tile || ave catchment temp incl snw |- | TPSNOW || Catch || K || tile || temperature top snow layer |- | TPUNST || Catch || K || tile || temperature unsaturated zone |- | TPSAT || Catch || K || tile || temperature saturated zone |- | TPWLT || Catch || K || tile || temperature wilted zone |- | ASNOW || Catch || 1 || tile || fractional area of land snowcover |- | SHSNOW || Catch || W m-2 || tile || downward heat flux into snow |- | AVETSNOW || Catch || K || tile || averaged snow temperature |- | FRSAT || Catch || 1 || tile || fractional area of saturated zone |- | FRUST || Catch || 1 || tile || fractional area of unsaturated zone |- | FRWLT || Catch || 1 || tile || fractional area of wilting zone |- | SNOWMASS || Catch || kg m-2 || tile || snow mass |- | SNOWDP || Catch || m || tile || snow depth |- | WET1 || Catch || 1 || tile || surface soil wetness |- | WET2 || Catch || 1 || tile || root zone soil wetness |- | WET3 || Catch || 1 || tile || ave prof soil moisture |- | WCSF || Catch || m3 m-3 || tile || water surface layer |- | WCRZ || Catch || m3 m-3 || tile || water root zone |- | WCPR || Catch || m3 m-3 || tile || water ave prof |- | TP1 || Catch || C || tile || soil temperatures layer 1 |- | TP2 || Catch || C || tile || soil temperatures layer 2 |- | TP3 || Catch || C || tile || soil temperatures layer 3 |- | TP4 || Catch || C || tile || soil temperatures layer 4 |- | TP5 || Catch || C || tile || soil temperatures layer 5 |- | TP6 || Catch || C || tile || soil temperatures layer 6 |- | EMIS || Catch || 1 || tile || surface emissivity |- | ALBVR || Catch || 1 || tile || surface albedo visible beam |- | ALBVF || Catch || 1 || tile || surface albedo visible diffuse |- | ALBNR || Catch || 1 || tile || surface albedo near infrared beam |- | ALBNF || Catch || 1 || tile || surface albedo near infrared diffuse |- | DELTS || Catch || K || tile || change surface skin temperature |- | DELQS || Catch || kg kg-1 || tile || change surface specific humidity |- | DELEVAP || Catch || kg m-2 s-1 || tile || change evaporation |- | DELSH || Catch || W m-2 || tile || change upward sensible energy flux |- | TST || Catch || K || tile || surface skin temperature |- | LST || Catch || K || tile || land surface skin temperature |- | QST || Catch || kg kg-1 || tile || surface specific humidity |- | TH || Catch || K || tile || turbulence surface skin temperature |- | QH || Catch || kg kg-1 || tile || turbulence surface skin specific hum |- | CHT || Catch || kg m-2 s-1 || tile || surface heat exchange coefficient |- | CMT || Catch || kg m-2 s-1 || tile || surface momentum exchange coefficient |- | CQT || Catch || kg m-2 s-1 || tile || surface moisture exchange coefficient |- | CNT || Catch || 1 || tile || neutral drag coefficient |- | RIT || Catch || 1 || tile || surface bulk richardson number |- | Z0 || Catch || m || tile || surface roughness |- | MOT2M || Catch || K || tile || temperature 2m wind from MO sfc |- | MOQ2M || Catch || kg kg-1 || tile || humidity 2m wind from MO sfc |- | MOU2M || Catch || m s-1 || tile || zonal 2m wind from MO sfc |- | MOV2M || Catch || m s-1 || tile || meridional 2m wind from MO sfc |- | MOT10M || Catch || K || tile || temperature 10m wind from MO sfc |- | MOQ10M || Catch || kg kg-1 || tile || humidity 10m wind from MO sfc |- | MOU10M || Catch || m s-1 || tile || zonal 10m wind from MO sfc |- | MOV10M || Catch || m s-1 || tile || meridional 10m wind from MO sfc |- | MOU50M || Catch || m s-1 || tile || zonal 50m wind from MO sfc |- | MOV50M || Catch || m s-1 || tile || meridional 50m wind from MO sfc |- | Z0H || Catch || m || tile || surface roughness for heat |- | D0 || Catch || m || tile || zero plane displacement height |- | GUST || Catch || m s-1 || tile || gustiness |- | VENT || Catch || m s-1 || tile || surface ventilation velocity |- | ACCUM || Catch || kg m-2 s-1 || tile || net ice accumulation rate |- | EVLAND || Catch || kg m-2 s-1 || tile || Evaporation land |- | PRLAND || Catch || kg m-2 s-1 || tile || Total precipitation land |- | SNOLAND || Catch || kg m-2 s-1 || tile || snowfall land |- | DRPARLAND || Catch || W m-2 || tile || surface downwelling par beam flux |- | DFPARLAND || Catch || W m-2 || tile || surface downwelling par diffuse flux |- | LHSNOW || Catch || W m-2 || tile || Latent heat flux snow |- | SWNETSNOW || Catch || W m-2 || tile || Net shortwave snow |- | LWUPSNOW || Catch || W m-2 || tile || Net longwave snow |- | LWDNSNOW || Catch || W m-2 || tile || Net longwave snow |- | TCSORIG || Catch || K || tile || Input tc for snow |- | TPSN1IN || Catch || K || tile || Input temp of top snow lev |- | TPSN1OUT || Catch || K || tile || Output temp of top snow lev |- | GHSNOW || Catch || W m-2 || tile || Ground heating snow |- | LHLAND || Catch || W m-2 || tile || Latent heat flux land |- | SHLAND || Catch || W m-2 || tile || Sensible heat flux land |- | SWLAND || Catch || W m-2 || tile || Net shortwave land |- | SWDOWNLAND || Catch || W m-2 || tile || Incident shortwave land |- | LWLAND || Catch || W m-2 || tile || Net longwave land |- | GHLAND || Catch || W m-2 || tile || Ground heating land |- | GHTSKIN || Catch || W m-2 || tile || Ground heating skin temp |- | SMLAND || Catch || kg m-2 s-1 || tile || Snowmelt flux land |- | TWLAND || Catch || kg m-2 || tile || Avail water storage land |- | TELAND || Catch || J m-2 || tile || Total energy storage land |- | TSLAND || Catch || kg m-2 || tile || Total snow storage land |- | DWLAND || Catch || kg m-2 s-1 || tile || rate of change of total land water |- | DHLAND || Catch || W m-2 || tile || rate of change of total land energy |- | SPLAND || Catch || W m-2 || tile || rate of spurious land energy source |- | SPWATR || Catch || kg m-2 s-1 || tile || rate of spurious land water source |- | SPSNOW || Catch || W m-2 || tile || rate of spurious snow energy |- | ITY || Catch || 1 || tile || vegetation type |- | EVAPOUT || CatchCN || kg m-2 s-1 || tile || evaporation |- | SUBLIM || CatchCN || kg m-2 s-1 || tile || sublimation |- | SHOUT || CatchCN || W m-2 || tile || upward sensible heat flux |- | RUNOFF || CatchCN || kg m-2 s-1 || tile || runoff flux |- | EVPINT || CatchCN || W m-2 || tile || interception loss energy flux |- | EVPSOI || CatchCN || W m-2 || tile || baresoil evap energy flux |- | EVPVEG || CatchCN || W m-2 || tile || transpiration energy flux |- | EVPICE || CatchCN || W m-2 || tile || snow ice evaporation energy flux |- | WAT10CM || CatchCN || kg m-2 || tile || soil moisture in Upper 10cm |- | WATSOI || CatchCN || kg m-2 || tile || totoal soil moisture |- | ICESOI || CatchCN || kg m-2 || tile || soil frozen water content |- | EVPSNO || CatchCN || W m-2 || tile || snowpack evaporation energy flux |- | BASEFLOW || CatchCN || kg m-2 s-1 || tile || baseflow flux |- | RUNSURF || CatchCN || kg m-2 s-1 || tile || overland runoff including throughflow |- | SMELT || CatchCN || kg m-2 s-1 || tile || snowmelt flux |- | HLWUP || CatchCN || W m-2 || tile || surface outgoing longwave flux |- | LWNDSRF || CatchCN || W m-2 || tile || surface net downward longwave flux |- | SWNDSRF || CatchCN || W m-2 || tile || surface net downward shortwave flux |- | HLATN || CatchCN || W m-2 || tile || total latent energy flux |- | QINFIL || CatchCN || kg m-2 s-1 || tile || rainwater infiltration flux |- | AR1 || CatchCN || 1 || tile || areal fraction saturated zone |- | AR2 || CatchCN || 1 || tile || areal fraction transpiration zone |- | RZEQ || CatchCN || kg m-2 || tile || root zone equilibrium moisture |- | GHFLX || CatchCN || W m-2 || tile || ground energy flux |- | TPSURF || CatchCN || K || tile || ave catchment temp incl snw |- | TPSNOW || CatchCN || K || tile || temperature top snow layer |- | TPUNST || CatchCN || K || tile || temperature unsaturated zone |- | TPSAT || CatchCN || K || tile || temperature saturated zone |- | TPWLT || CatchCN || K || tile || temperature wilted zone |- | ASNOW || CatchCN || 1 || tile || fractional area of land snowcover |- | SHSNOW || CatchCN || W m-2 || tile || downward heat flux into snow |- | AVETSNOW || CatchCN || K || tile || averaged snow temperature |- | FRSAT || CatchCN || 1 || tile || fractional area of saturated zone |- | FRUST || CatchCN || 1 || tile || fractional area of unsaturated zone |- | FRWLT || CatchCN || 1 || tile || fractional area of wilting zone |- | SNOWMASS || CatchCN || kg m-2 || tile || snow mass |- | SNOWDP || CatchCN || m || tile || snow depth in snow covered area |- | WET1 || CatchCN || 1 || tile || surface soil wetness |- | WET2 || CatchCN || 1 || tile || root zone soil wetness |- | WET3 || CatchCN || 1 || tile || ave prof soil moisture |- | WCSF || CatchCN || m3 m-3 || tile || water surface layer |- | WCRZ || CatchCN || m3 m-3 || tile || water root zone |- | WCPR || CatchCN || m3 m-3 || tile || water ave prof |- | TP1 || CatchCN || C || tile || soil temperatures layer 1 |- | TP2 || CatchCN || C || tile || soil temperatures layer 2 |- | TP3 || CatchCN || C || tile || soil temperatures layer 3 |- | TP4 || CatchCN || C || tile || soil temperatures layer 4 |- | TP5 || CatchCN || C || tile || soil temperatures layer 5 |- | TP6 || CatchCN || C || tile || soil temperatures layer 6 |- | EMIS || CatchCN || 1 || tile || surface emissivity |- | ALBVR || CatchCN || 1 || tile || surface albedo visible beam |- | ALBVF || CatchCN || 1 || tile || surface albedo visible diffuse |- | ALBNR || CatchCN || 1 || tile || surface albedo near infrared beam |- | ALBNF || CatchCN || 1 || tile || surface albedo near infrared diffuse |- | DELTS || CatchCN || K || tile || change surface skin temperature |- | DELQS || CatchCN || kg kg-1 || tile || change surface specific humidity |- | DELEVAP || CatchCN || kg m-2 s-1 || tile || change evaporation |- | DELSH || CatchCN || W m-2 || tile || change upward sensible energy flux |- | TST || CatchCN || K || tile || surface skin temperature |- | LST || CatchCN || K || tile || land surface skin temperature |- | QST || CatchCN || kg kg-1 || tile || surface specific humidity |- | TH || CatchCN || K || tile || turbulence surface skin temperature |- | QH || CatchCN || kg kg-1 || tile || turbulence surface skin specific hum |- | CHT || CatchCN || kg m-2 s-1 || tile || surface heat exchange coefficient |- | CMT || CatchCN || kg m-2 s-1 || tile || surface momentum exchange coefficient |- | CQT || CatchCN || kg m-2 s-1 || tile || surface moisture exchange coefficient |- | CNT || CatchCN || 1 || tile || neutral drag coefficient |- | RIT || CatchCN || 1 || tile || surface bulk richardson number |- | Z0 || CatchCN || m || tile || surface roughness |- | MOT2M || CatchCN || K || tile || temperature 2m wind from MO sfc |- | MOQ2M || CatchCN || kg kg-1 || tile || humidity 2m wind from MO sfc |- | MOU2M || CatchCN || m s-1 || tile || zonal 2m wind from MO sfc |- | MOV2M || CatchCN || m s-1 || tile || meridional 2m wind from MO sfc |- | MOT10M || CatchCN || K || tile || temperature 10m wind from MO sfc |- | MOQ10M || CatchCN || kg kg-1 || tile || humidity 10m wind from MO sfc |- | MOU10M || CatchCN || m s-1 || tile || zonal 10m wind from MO sfc |- | MOV10M || CatchCN || m s-1 || tile || meridional 10m wind from MO sfc |- | MOU50M || CatchCN || m s-1 || tile || zonal 50m wind from MO sfc |- | MOV50M || CatchCN || m s-1 || tile || meridional 50m wind from MO sfc |- | Z0H || CatchCN || m || tile || surface roughness for heat |- | D0 || CatchCN || m || tile || zero plane displacement height |- | GUST || CatchCN || m s-1 || tile || gustiness |- | VENT || CatchCN || m s-1 || tile || surface ventilation velocity |- | ACCUM || CatchCN || kg m-2 s-1 || tile || net ice accumulation rate |- | EVLAND || CatchCN || kg m-2 s-1 || tile || Evaporation land |- | PRLAND || CatchCN || kg m-2 s-1 || tile || Total precipitation land |- | SNOLAND || CatchCN || kg m-2 s-1 || tile || snowfall land |- | DRPARLAND || CatchCN || W m-2 || tile || surface downwelling par beam flux |- | DFPARLAND || CatchCN || W m-2 || tile || surface downwelling par diffuse flux |- | LHSNOW || CatchCN || W m-2 || tile || Latent heat flux snow |- | SWNETSNOW || CatchCN || W m-2 || tile || Net shortwave snow |- | LWUPSNOW || CatchCN || W m-2 || tile || Net longwave snow |- | LWDNSNOW || CatchCN || W m-2 || tile || Net longwave snow |- | TCSORIG || CatchCN || K || tile || Input tc for snow |- | TPSN1IN || CatchCN || K || tile || Input temp of top snow lev |- | TPSN1OUT || CatchCN || K || tile || Output temp of top snow lev |- | GHSNOW || CatchCN || W m-2 || tile || Ground heating snow |- | LHLAND || CatchCN || W m-2 || tile || Latent heat flux land |- | SHLAND || CatchCN || W m-2 || tile || Sensible heat flux land |- | SWLAND || CatchCN || W m-2 || tile || Net shortwave land |- | SWDOWNLAND || CatchCN || W m-2 || tile || Incident shortwave land |- | LWLAND || CatchCN || W m-2 || tile || Net longwave land |- | GHLAND || CatchCN || W m-2 || tile || Ground heating land |- | GHTSKIN || CatchCN || W m-2 || tile || Ground heating skin temp |- | SMLAND || CatchCN || kg m-2 s-1 || tile || Snowmelt flux land |- | TWLAND || CatchCN || kg m-2 || tile || Avail water storage land |- | TELAND || CatchCN || J m-2 || tile || Total energy storage land |- | TSLAND || CatchCN || kg m-2 || tile || Total snow storage land |- | DWLAND || CatchCN || kg m-2 s-1 || tile || rate of change of total land water |- | DHLAND || CatchCN || W m-2 || tile || rate of change of total land energy |- | SPLAND || CatchCN || W m-2 || tile || rate of spurious land energy source |- | SPWATR || CatchCN || kg m-2 s-1 || tile || rate of spurious land water source |- | SPSNOW || CatchCN || W m-2 || tile || rate of spurious snow energy |- | ITY || CatchCN || 1 || tile || vegetation type |- | CNLAI || CatchCN || 1 || tile || CN exposed leaf-area index |- | CNTLAI || CatchCN || 1 || tile || CN total leaf-area index |- | CNSAI || CatchCN || 1 || tile || CN exposed stem-area index |- | CNTOTC || CatchCN || kg m-2 || tile || CN total carbon |- | CNVEGC || CatchCN || kg m-2 || tile || CN total vegetation carbon |- | CNROOT || CatchCN || kg m-2 || tile || CN total root carbon |- | CNNPP || CatchCN || kg m-2 s-1 || tile || CN net primary production |- | CNGPP || CatchCN || kg m-2 s-1 || tile || CN gross primary production |- | CNSR || CatchCN || kg m-2 s-1 || tile || CN total soil respiration |- | CNNEE || CatchCN || kg m-2 s-1 || tile || CN net ecosystem exchange |- | CNXSMR || CatchCN || kg m-2 || tile || abstract C pool to meet excess MR demand |- | CNADD || CatchCN || kg m-2 s-1 || tile || CN added to maintain positive C |- | CNLOSS || CatchCN || kg m-2 s-1 || tile || CN carbon loss to fire |- | CNBURN || CatchCN || s-1 || tile || CN fractional area burn rate |- | PARABS || CatchCN || W m-2 || tile || absorbed PAR |- | PARINC || CatchCN || W m-2 || tile || incident PAR |- | SCSAT || CatchCN || m s-1 || tile || saturated stomatal conductance |- | SCUNS || CatchCN || m s-1 || tile || unstressed stomatal conductance |- | BTRANT || CatchCN || 1 || tile || transpiration coefficient |- | SIF || CatchCN || umol m-2 sm s-1 || tile || solar induced fluorescence |- | CNFSEL || CatchCN || days || tile || fire season length |- | CHEM_TRACERS || Chem || X || || chemistry friendly tracers |- | CHEM_TRACERS || Chem || X || || chemistry friendly tracers |- | CHEM_TRACERS || Chem || X || || chemistry friendly tracers |- | AERO || Chem || kg kg-1 || xyz || aerosol mass mixing ratios |- | AERO_ACI || Chem || kg kg-1 || xyz || aerosol cloud interaction |- | AERO_DP || Chem || kg m-2 s-1 || xy || aerosol deposition |- | AERO_DP || Chem || kg m-2 s-1 || xy || aerosol deposition |- | AERO_DP || Chem || kg m-2 s-1 || xy || aerosol deposition |- | AERO_DP || Chem || kg m-2 s-1 || xy || aerosol deposition |- | AERO_DP || Chem || kg m-2 s-1 || xy || aerosol deposition |- | AIRDENS || ChemEnv || kg m-3 || xyz || moist air density |- | AIRDENS_DRY || ChemEnv || kg m-3 || xyz || dry air density |- | DELP || ChemEnv || Pa || xyz || pressure thickness |- | TPREC || ChemEnv || kg m-2 s-1 || xy || total precipitation |- | CN_PRCP || ChemEnv || kg m-2 s-1 || xy || Convective precipitation |- | NCN_PRCP || ChemEnv || kg m-2 s-1 || xy || Non-convective precipitation |- | AERO || DNA || kg kg-1 || xyz || aerosol mixing ratios |- | AERO_DP || DNA || kg m-2 s-1 || xy || aerosol deposition |- | DUMASS || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio ENSEMBLE |- | DUMASS25 || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio - PM 2.5 ENSEMBLE |- | DUCONC || DU || kg m-3 || xyz || Dust Mass Concentration ENSEMBLE |- | DUEXTCOEF || DU || m-1 || xyz || Dust Extinction Coefficient [550 nm] ENSEMBLE |- | DUSCACOEF || DU || m-1 || xyz || Dust Scattering Coefficient [550 nm] ENSEMBLE |- | DUEM001 || DU || kg m-2 s-1 || xy || Dust Emission Bin 001 ENSEMBLE |- | DUEM002 || DU || kg m-2 s-1 || xy || Dust Emission Bin 002 ENSEMBLE |- | DUEM003 || DU || kg m-2 s-1 || xy || Dust Emission Bin 003 ENSEMBLE |- | DUEM004 || DU || kg m-2 s-1 || xy || Dust Emission Bin 004 ENSEMBLE |- | DUEM005 || DU || kg m-2 s-1 || xy || Dust Emission Bin 005 ENSEMBLE |- | DUSD001 || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 001 ENSEMBLE |- | DUSD002 || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 002 ENSEMBLE |- | DUSD003 || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 003 ENSEMBLE |- | DUSD004 || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 004 ENSEMBLE |- | DUSD005 || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 005 ENSEMBLE |- | DUDP001 || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 001 ENSEMBLE |- | DUDP002 || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 002 ENSEMBLE |- | DUDP003 || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 003 ENSEMBLE |- | DUDP004 || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 004 ENSEMBLE |- | DUDP005 || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 005 ENSEMBLE |- | DUWT001 || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 001 ENSEMBLE |- | DUWT002 || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 002 ENSEMBLE |- | DUWT003 || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 003 ENSEMBLE |- | DUWT004 || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 004 ENSEMBLE |- | DUWT005 || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 005 ENSEMBLE |- | DUSV001 || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 001 ENSEMBLE |- | DUSV002 || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 002 ENSEMBLE |- | DUSV003 || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 003 ENSEMBLE |- | DUSV004 || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 004 ENSEMBLE |- | DUSV005 || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 005 ENSEMBLE |- | DUSMASS || DU || kg m-3 || xy || Dust Surface Mass Concentration ENSEMBLE |- | DUCMASS || DU || kg m-2 || xy || Dust Column Mass Density ENSEMBLE |- | DUEXTTAU || DU || 1 || xy || Dust Extinction AOT [550 nm] ENSEMBLE |- | DUSCATAU || DU || 1 || xy || Dust Scattering AOT [550 nm] ENSEMBLE |- | DUSMASS25 || DU || kg m-3 || xy || Dust Surface Mass Concentration - PM 2.5 ENSEMBLE |- | DUCMASS25 || DU || kg m-2 || xy || Dust Column Mass Density - PM 2.5 ENSEMBLE |- | DUEXTT25 || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 2.5 ENSEMBLE |- | DUSCAT25 || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 2.5 ENSEMBLE |- | DUAERIDX || DU || 1 || xy || Dust TOMS UV Aerosol Index ENSEMBLE |- | DUFLUXU || DU || kg m-1 s-1 || xy || Dust column u-wind mass flux ENSEMBLE |- | DUFLUXV || DU || kg m-1 s-1 || xy || Dust column v-wind mass flux ENSEMBLE |- | DUEXTTFM || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 1.0 um ENSEMBLE |- | DUSCATFM || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 1.0 um ENSEMBLE |- | DUANGSTR || DU || 1 || xy || Dust Angstrom parameter [470-870 nm] ENSEMBLE |- | DUMASSafr || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio (Africa) |- | DUMASS25afr || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio - PM 2.5 (Africa) |- | DUCONCafr || DU || kg m-3 || xyz || Dust Mass Concentration (Africa) |- | DUEXTCOEFafr || DU || m-1 || xyz || Dust Extinction Coefficient [550 nm] (Africa) |- | DUSCACOEFafr || DU || m-1 || xyz || Dust Scattering Coefficient [550 nm] (Africa) |- | DUEM001afr || DU || kg m-2 s-1 || xy || Dust Emission Bin 001 (Africa) |- | DUEM002afr || DU || kg m-2 s-1 || xy || Dust Emission Bin 002 (Africa) |- | DUEM003afr || DU || kg m-2 s-1 || xy || Dust Emission Bin 003 (Africa) |- | DUEM004afr || DU || kg m-2 s-1 || xy || Dust Emission Bin 004 (Africa) |- | DUEM005afr || DU || kg m-2 s-1 || xy || Dust Emission Bin 005 (Africa) |- | DUSD001afr || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 001 (Africa) |- | DUSD002afr || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 002 (Africa) |- | DUSD003afr || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 003 (Africa) |- | DUSD004afr || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 004 (Africa) |- | DUSD005afr || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 005 (Africa) |- | DUDP001afr || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 001 (Africa) |- | DUDP002afr || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 002 (Africa) |- | DUDP003afr || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 003 (Africa) |- | DUDP004afr || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 004 (Africa) |- | DUDP005afr || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 005 (Africa) |- | DUWT001afr || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 001 (Africa) |- | DUWT002afr || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 002 (Africa) |- | DUWT003afr || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 003 (Africa) |- | DUWT004afr || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 004 (Africa) |- | DUWT005afr || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 005 (Africa) |- | DUSV001afr || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 001 (Africa) |- | DUSV002afr || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 002 (Africa) |- | DUSV003afr || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 003 (Africa) |- | DUSV004afr || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 004 (Africa) |- | DUSV005afr || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 005 (Africa) |- | DUSMASSafr || DU || kg m-3 || xy || Dust Surface Mass Concentration (Africa) |- | DUCMASSafr || DU || kg m-2 || xy || Dust Column Mass Density (Africa) |- | DUEXTTAUafr || DU || 1 || xy || Dust Extinction AOT [550 nm] (Africa) |- | DUSCATAUafr || DU || 1 || xy || Dust Scattering AOT [550 nm] (Africa) |- | DUSMASS25afr || DU || kg m-3 || xy || Dust Surface Mass Concentration - PM 2.5 (Africa) |- | DUCMASS25afr || DU || kg m-2 || xy || Dust Column Mass Density - PM 2.5 (Africa) |- | DUEXTT25afr || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 2.5 (Africa) |- | DUSCAT25afr || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 2.5 (Africa) |- | DUAERIDXafr || DU || 1 || xy || Dust TOMS UV Aerosol Index (Africa) |- | DUFLUXUafr || DU || kg m-1 s-1 || xy || Dust column u-wind mass flux (Africa) |- | DUFLUXVafr || DU || kg m-1 s-1 || xy || Dust column v-wind mass flux (Africa) |- | DUEXTTFMafr || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 1.0 um (Africa) |- | DUSCATFMafr || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 1.0 um (Africa) |- | DUANGSTRafr || DU || 1 || xy || Dust Angstrom parameter [470-870 nm] (Africa) |- | DUMASSsas || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio (South Asia) |- | DUMASS25sas || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio - PM 2.5 (South Asia) |- | DUCONCsas || DU || kg m-3 || xyz || Dust Mass Concentration (South Asia) |- | DUEXTCOEFsas || DU || m-1 || xyz || Dust Extinction Coefficient [550 nm] (South Asia) |- | DUSCACOEFsas || DU || m-1 || xyz || Dust Scattering Coefficient [550 nm] (South Asia) |- | DUEM001sas || DU || kg m-2 s-1 || xy || Dust Emission Bin 001 (South Asia) |- | DUEM002sas || DU || kg m-2 s-1 || xy || Dust Emission Bin 002 (South Asia) |- | DUEM003sas || DU || kg m-2 s-1 || xy || Dust Emission Bin 003 (South Asia) |- | DUEM004sas || DU || kg m-2 s-1 || xy || Dust Emission Bin 004 (South Asia) |- | DUEM005sas || DU || kg m-2 s-1 || xy || Dust Emission Bin 005 (South Asia) |- | DUSD001sas || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 001 (South Asia) |- | DUSD002sas || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 002 (South Asia) |- | DUSD003sas || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 003 (South Asia) |- | DUSD004sas || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 004 (South Asia) |- | DUSD005sas || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 005 (South Asia) |- | DUDP001sas || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 001 (South Asia) |- | DUDP002sas || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 002 (South Asia) |- | DUDP003sas || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 003 (South Asia) |- | DUDP004sas || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 004 (South Asia) |- | DUDP005sas || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 005 (South Asia) |- | DUWT001sas || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 001 (South Asia) |- | DUWT002sas || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 002 (South Asia) |- | DUWT003sas || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 003 (South Asia) |- | DUWT004sas || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 004 (South Asia) |- | DUWT005sas || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 005 (South Asia) |- | DUSV001sas || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 001 (South Asia) |- | DUSV002sas || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 002 (South Asia) |- | DUSV003sas || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 003 (South Asia) |- | DUSV004sas || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 004 (South Asia) |- | DUSV005sas || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 005 (South Asia) |- | DUSMASSsas || DU || kg m-3 || xy || Dust Surface Mass Concentration (South Asia) |- | DUCMASSsas || DU || kg m-2 || xy || Dust Column Mass Density (South Asia) |- | DUEXTTAUsas || DU || 1 || xy || Dust Extinction AOT [550 nm] (South Asia) |- | DUSCATAUsas || DU || 1 || xy || Dust Scattering AOT [550 nm] (South Asia) |- | DUSMASS25sas || DU || kg m-3 || xy || Dust Surface Mass Concentration - PM 2.5 (South Asia) |- | DUCMASS25sas || DU || kg m-2 || xy || Dust Column Mass Density - PM 2.5 (South Asia) |- | DUEXTT25sas || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 2.5 (South Asia) |- | DUSCAT25sas || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 2.5 (South Asia) |- | DUAERIDXsas || DU || 1 || xy || Dust TOMS UV Aerosol Index (South Asia) |- | DUFLUXUsas || DU || kg m-1 s-1 || xy || Dust column u-wind mass flux (South Asia) |- | DUFLUXVsas || DU || kg m-1 s-1 || xy || Dust column v-wind mass flux (South Asia) |- | DUEXTTFMsas || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 1.0 um (South Asia) |- | DUSCATFMsas || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 1.0 um (South Asia) |- | DUANGSTRsas || DU || 1 || xy || Dust Angstrom parameter [470-870 nm] (South Asia) |- | DUMASSaus || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio (Australia) |- | DUMASS25aus || DU || kg kg-1 || xyz || Dust Mass Mixing Ratio - PM 2.5 (Australia) |- | DUCONCaus || DU || kg m-3 || xyz || Dust Mass Concentration (Australia) |- | DUEXTCOEFaus || DU || m-1 || xyz || Dust Extinction Coefficient [550 nm] (Australia) |- | DUSCACOEFaus || DU || m-1 || xyz || Dust Scattering Coefficient [550 nm] (Australia) |- | DUEM001aus || DU || kg m-2 s-1 || xy || Dust Emission Bin 001 (Australia) |- | DUEM002aus || DU || kg m-2 s-1 || xy || Dust Emission Bin 002 (Australia) |- | DUEM003aus || DU || kg m-2 s-1 || xy || Dust Emission Bin 003 (Australia) |- | DUEM004aus || DU || kg m-2 s-1 || xy || Dust Emission Bin 004 (Australia) |- | DUEM005aus || DU || kg m-2 s-1 || xy || Dust Emission Bin 005 (Australia) |- | DUSD001aus || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 001 (Australia) |- | DUSD002aus || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 002 (Australia) |- | DUSD003aus || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 003 (Australia) |- | DUSD004aus || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 004 (Australia) |- | DUSD005aus || DU || kg m-2 s-1 || xy || Dust Sedimentation Bin 005 (Australia) |- | DUDP001aus || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 001 (Australia) |- | DUDP002aus || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 002 (Australia) |- | DUDP003aus || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 003 (Australia) |- | DUDP004aus || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 004 (Australia) |- | DUDP005aus || DU || kg m-2 s-1 || xy || Dust Dry Deposition Bin 005 (Australia) |- | DUWT001aus || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 001 (Australia) |- | DUWT002aus || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 002 (Australia) |- | DUWT003aus || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 003 (Australia) |- | DUWT004aus || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 004 (Australia) |- | DUWT005aus || DU || kg m-2 s-1 || xy || Dust Wet Deposition Bin 005 (Australia) |- | DUSV001aus || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 001 (Australia) |- | DUSV002aus || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 002 (Australia) |- | DUSV003aus || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 003 (Australia) |- | DUSV004aus || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 004 (Australia) |- | DUSV005aus || DU || kg m-2 s-1 || xy || Dust Convective Scavenging Bin 005 (Australia) |- | DUSMASSaus || DU || kg m-3 || xy || Dust Surface Mass Concentration (Australia) |- | DUCMASSaus || DU || kg m-2 || xy || Dust Column Mass Density (Australia) |- | DUEXTTAUaus || DU || 1 || xy || Dust Extinction AOT [550 nm] (Australia) |- | DUSCATAUaus || DU || 1 || xy || Dust Scattering AOT [550 nm] (Australia) |- | DUSMASS25aus || DU || kg m-3 || xy || Dust Surface Mass Concentration - PM 2.5 (Australia) |- | DUCMASS25aus || DU || kg m-2 || xy || Dust Column Mass Density - PM 2.5 (Australia) |- | DUEXTT25aus || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 2.5 (Australia) |- | DUSCAT25aus || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 2.5 (Australia) |- | DUAERIDXaus || DU || 1 || xy || Dust TOMS UV Aerosol Index (Australia) |- | DUFLUXUaus || DU || kg m-1 s-1 || xy || Dust column u-wind mass flux (Australia) |- | DUFLUXVaus || DU || kg m-1 s-1 || xy || Dust column v-wind mass flux (Australia) |- | DUEXTTFMaus || DU || 1 || xy || Dust Extinction AOT [550 nm] - PM 1.0 um (Australia) |- | DUSCATFMaus || DU || 1 || xy || Dust Scattering AOT [550 nm] - PM 1.0 um (Australia) |- | DUANGSTRaus || DU || 1 || xy || Dust Angstrom parameter [470-870 nm] (Australia) |- | UW || DataSea || m s-1 || xy || zonal velocity of surface water |- | VW || DataSea || m s-1 || xy || meridional velocity of surface water |- | TS_FOUND || DataSea || K || xy || foundation temperature for interface layer |- | TSCALE || DataSea || sec || xy || relaxation time scale |- | DEL_RHO || DataSea || kg m-3 || xy || density difference |- | USTAR_w || DataSea || m s-1 || xy || ustar over water |- | UI || DataSeaIce || m s-1 || xy || zonal velocity of surface seaice |- | VI || DataSeaIce || m s-1 || xy || meridional velocity of surface seaice |- | FRACICE || DataSeaIce || 1 || xy || fractional cover of seaice |- | FRACICE || DataSeaIce || 1 || xy || fractional cover of seaice |- | MELTQ || DataSeaIce || W m-2 || xy || heat of melting or freezing |- | TAUYBOT || DataSeaIce || N m-2 || xy || northward stress at base of ice |- | HICE || DataSeaIce || m || xy || mean ice thickness of grid cell |- | HSNO || DataSeaIce || m || xy || mean snow thickness of grid cell |- | PLE || DatmoDyn || Pascals || xyz || Pressure at the edges |- | T || DatmoDyn || K || xyz || air temperature |- | U || DatmoDyn || ms || xyz || Zonal wind |- | V || DatmoDyn || ms || xyz || meridional wind |- | Q || DatmoDyn || ms || xyz || meridional wind |- | OMEGA || DatmoDyn || Pas || xyz || pressure velocity |- | DIV || DatmoDyn || s-1 || xyz || divergence |- | LHOBS || DatmoDyn || W m-2 || xy || Obs. latent heat flux (surface) |- | SHOBS || DatmoDyn || W m-2 || xy || Obs. sensible heat flux (surface) |- | PCPOBS || DatmoDyn || mmd || xy || Obs. precipitation rate |- | TSAIROBS || DatmoDyn || K || xy || Obs. sfc(2m?) air temp. |- | TGSOILOBS || DatmoDyn || K || xy || Obs. Soil Temp. |- | PSFCOBS || DatmoDyn || [PahPa] || xy || Obs. Sfc. Pressure |- | TH || DatmoDyn || K || xyz || potential temperature |- | ZLE || DatmoDyn || m || xyz || Geop. height at the edges |- | QOBS || DatmoDyn || 1 || xyz || Obs. Spec. Humidity |- | TOBS || DatmoDyn || K || xyz || Obs. Temperature |- | TVATOBS || DatmoDyn || K s-1 || xyz || Obs. Temperature Tendency V adv |- | THATOBS || DatmoDyn || K s-1 || xyz || Obs. Temperature Tendency H adv |- | QVATOBS || DatmoDyn || K s-1 || xyz || Obs. Moisture Tendency V adv |- | QHATOBS || DatmoDyn || K s-1 || xyz || Obs. Moisture Tendency H adv |- | QTEST || DatmoDyn || 1 || xyz || test tracer |- | UE || DatmoDyn || m s-1 || xyz || Diagnosed Edge Winds |- | WWTG || DatmoDyn || m s-1 || xyz || weak T-gradient compensating W |- | WTOT || DatmoDyn || m s-1 || xyz || total vertical velocity |- | QLOBS || DatmoDyn || 1 || xyz || Obs. Cloud liquid |- | QIOBS || DatmoDyn || 1 || xyz || Obs. Cloud ice |- | PS || DatmoDyn || Pa || xy || Surface Pressure |- | TA || DatmoDyn || K || xy || Surface air temperature |- | SPEED || DatmoDyn || m s-1 || xy || Surface wind speed |- | DZ || DatmoDyn || m || xy || Surface layer height |- | QA || DatmoDyn || 1 || xy || Surface air spec humidity |- | QSKINOBS || DatmoDyn || 1 || xy || obs skin spec humidity whatever that means |- | TSKINOBS || DatmoDyn || K || xy || obs skin temperature |- | PHIS || DatmoDyn || K || xy || obs skin temperature |- | VARFLT || DatmoDyn || K || xy || obs skin temperature |- | PEANA || DatmoDyn || W m-2 || xy || total potential energy tendency due to analysis |- | PEPHY || DatmoDyn || W m-2 || xy || total potential energy tendency due to physics |- | DOXDTANAINT || DatmoDyn || kg m-2 s-1 || xy || vertically integrated ozone tendency due to analysis |- | DQVDTANAINT || DatmoDyn || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to analysis |- | DQLDTANAINT || DatmoDyn || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to analysis |- | DQIDTANAINT || DatmoDyn || kg m-2 s-1 || xy || vertically integrated ice water tendency due to analysis |- | DTHVDTANAINT || DatmoDyn || K kg m-2 s-1 || xy || vertically integrated THV tendency due to analysis |- | DTHVDTPHYINT || DatmoDyn || K kg m-2 s-1 || xy || vertically integrated THV tendency due to physics |- | DQVDTDYNINT || DatmoDyn || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to dynamics |- | PV || DatmoDyn || m+2 kg-1 sec-1 || xyz || ertels isentropic potential vorticity |- | EPV || DatmoDyn || K m+2 kg-1 sec-1 || xyz || ertels potential vorticity |- | TROPP_BLENDED || DatmoDyn || Pa || xy || tropopause pressure based on blended estimate |- | S || DatmoDyn || J kg-1 || xyz || static energy |- | TV || DatmoDyn || K || xyz || air virtual temperature |- | PLK || DatmoDyn || J kg-1 || xyz || Exner quantity |- | PL || DatmoDyn || Pa || xyz || midlevel pressures |- | DQVDTDYN || DatmoDyn || kgkgsec || xyz || tendency of specific humidity due to dynamics |- | DQLLSDTDYN || DatmoDyn || kgkgsec || xyz || tendency of large scale cloud water due to dynamics |- | DQILSDTDYN || DatmoDyn || kgkgsec || xyz || tendency of large scale cloud ice due to dynamics |- | DQLCNDTDYN || DatmoDyn || kgkgsec || xyz || tendency of convective cloud water due to dynamics |- | DQICNDTDYN || DatmoDyn || kgkgsec || xyz || tendency of convective cloud ice due to dynamics |- | DCLLSDTDYN || DatmoDyn || fraction || xyz || tendency of large scale cloud fraction due to dynamics |- | DCLCNDTDYN || DatmoDyn || fraction || xyz || tendency of convective cloud fraction due to dynamics |- | DTDTDYN || DatmoDyn || K sec-1 || xyz || tendency of air temperature due to dynamics |- | HDQDTDYN || DatmoDyn || kgkgsec || xyz || horiz tendency of specific humidity due to dynamics |- | VDQDTDYN || DatmoDyn || kgkgsec || xyz || vertical tendency of specific humidity due to dynamics |- | HDTDTDYN || DatmoDyn || K sec-1 || xyz || horiz tendency of air temperature due to dynamics |- | HDTHDTDYN || DatmoDyn || K sec-1 || xyz || horiz tendency of air pot temp due to dynamics |- | VDTDTDYN || DatmoDyn || K sec-1 || xyz || vertical tendency of air temperature due to dynamics |- | VDTHDTDYN || DatmoDyn || K sec-1 || xyz || vertical tendency of air pot temp due to dynamics |- | AREA || DatmoDyn || m+2 || xy || agrid cell area |- | AK || DatmoDyn || 1 || z || hybrid sigma pressure a |- | BK || DatmoDyn || 1 || z || hybrid sigma pressure b |- | U_CGRID || DatmoDyn || m s-1 || xyz || eastward wind on C-Grid |- | V_CGRID || DatmoDyn || m s-1 || xyz || northward wind on C-Grid |- | U_DGRID || DatmoDyn || m s-1 || xyz || eastward wind on native D-Grid |- | V_DGRID || DatmoDyn || m s-1 || xyz || northward wind on native D-Grid |- | PT || DatmoDyn || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || DatmoDyn || Pa || xyz || air pressure |- | DELP || DatmoDyn || Pa || xyz || pressure thickness |- | KE || DynCore || J m-2 || xy || vertically integrated kinetic energy |- | TAVE || DynCore || K || xy || vertically averaged dry temperature |- | UAVE || DynCore || m sec-1 || xy || vertically averaged zonal wind |- | KEPHY || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to physics |- | PEPHY || DynCore || W m-2 || xy || total potential energy tendency due to physics |- | TEPHY || DynCore || W m-2 || xy || mountain work tendency due to physics |- | KEANA || DynCore || W m-2 || xy || total kinetic energy tendency due to analysis |- | PEANA || DynCore || W m-2 || xy || total potential energy tendency due to analysis |- | TEANA || DynCore || W m-2 || xy || mountain work tendency due to analysis |- | KEHOT || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to HOT |- | KEDP || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to pressure change |- | KEADV || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to dynamics advection |- | KEPG || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to pressure gradient |- | KEDYN || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to dynamics |- | PEDYN || DynCore || W m-2 || xy || vertically integrated potential energy tendency due to dynamics |- | TEDYN || DynCore || W m-2 || xy || mountain work tendency due to dynamics |- | KECDCOR || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to cdcore |- | PECDCOR || DynCore || W m-2 || xy || vertically integrated potential energy tendency due to cdcore |- | TECDCOR || DynCore || W m-2 || xy || mountain work tendency due to cdcore |- | QFIXER || DynCore || W m-2 || xy || vertically integrated potential energy tendency due to CONSV |- | KEREMAP || DynCore || W m-2 || xy || vertically integrated kinetic energy tendency due to remap |- | PEREMAP || DynCore || W m-2 || xy || vertically integrated potential energy tendency due to remap |- | TEREMAP || DynCore || W m-2 || xy || mountain work tendency due to remap |- | KEGEN || DynCore || W m-2 || xy || vertically integrated generation of kinetic energy |- | DKERESIN || DynCore || W m-2 || xy || vertically integrated kinetic energy residual from inertial terms |- | DKERESPG || DynCore || W m-2 || xy || vertically integrated kinetic energy residual from PG terms |- | DMDTANA || DynCore || kg m-2 s-1 || xy || vertically integrated mass tendency due to analysis |- | DOXDTANAINT || DynCore || kg m-2 s-1 || xy || vertically integrated ozone tendency due to analysis |- | DQVDTANAINT || DynCore || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to analysis |- | DQLDTANAINT || DynCore || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to analysis |- | DQIDTANAINT || DynCore || kg m-2 s-1 || xy || vertically integrated ice water tendency due to analysis |- | DMDTDYN || DynCore || kg m-2 s-1 || xy || vertically integrated mass tendency due to dynamics |- | DOXDTDYNINT || DynCore || kg m-2 s-1 || xy || vertically integrated ozone tendency due to dynamics |- | DTHVDTDYNINT || DynCore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to dynamics |- | DTHVDTREMAP || DynCore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to vertical remapping |- | DTHVDTCONSV || DynCore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to TE conservation |- | DTHVDTPHYINT || DynCore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to physics |- | DTHVDTANAINT || DynCore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to analysis |- | DQVDTDYNINT || DynCore || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to dynamics |- | DQLDTDYNINT || DynCore || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to dynamics |- | DQIDTDYNINT || DynCore || kg m-2 s-1 || xy || vertically integrated ice water tendency due to dynamics |- | CONVKE || DynCore || W m-2 || xy || vertically integrated kinetic energy convergence |- | CONVTHV || DynCore || W m-2 || xy || vertically integrated thetav convergence |- | CONVCPT || DynCore || W m-2 || xy || vertically integrated enthalpy convergence |- | CONVPHI || DynCore || W m-2 || xy || vertically integrated geopotential convergence |- | U || DynCore || m s-1 || xyz || eastward wind |- | V || DynCore || m s-1 || xyz || northward wind |- | T || DynCore || K || xyz || air temperature |- | PL || DynCore || Pa || xyz || mid level pressure |- | ZLE || DynCore || m || xyz || edge heights |- | ZL || DynCore || m || xyz || mid layer heights |- | S || DynCore || m || xyz || mid layer dry static energy |- | PLE || DynCore || Pa || xyz || edge pressure |- | TH || DynCore || K || xyz || potential temperature |- | PLK || DynCore || Pa$^\kappa$ || xyz || mid-layer p$^\kappa$ |- | W || DynCore || m s-1 || xyz || vertical velocity |- | OMEGA || DynCore || Pa s-1 || xyz || vertical pressure velocity |- | CX || DynCore || || xyz || eastward accumulated courant number |- | CY || DynCore || || xyz || northward accumulated courant number |- | CU || DynCore || || xyz || eastward accumulated courant number |- | CV || DynCore || || xyz || northward accumulated courant number |- | MX || DynCore || Pa m+2 s-1 || xyz || pressure weighted accumulated eastward mass flux |- | MY || DynCore || Pa m+2 s-1 || xyz || pressure weighted accumulated northward mass flux |- | MFX || DynCore || Pa m+2 s-1 || xyz || pressure weighted accumulated eastward mass flux |- | MFY || DynCore || Pa m+2 s-1 || xyz || pressure weighted accumulated northward mass flux |- | MFZ || DynCore || kg m-2 s-1 || xyz || vertical mass flux |- | PV || DynCore || m+2 kg-1 s-1 || xyz || ertels isentropic potential vorticity |- | EPV || DynCore || K m+2 kg-1 s-1 || xyz || ertels potential vorticity |- | Q || DynCore || 1 || xyz || specific humidity |- | QC || DynCore || 1 || xyz || specific mass of condensate |- | DUDTANA || DynCore || mss || xyz || tendency of eastward wind due to analysis |- | DVDTANA || DynCore || mss || xyz || tendency of northward wind due to analysis |- | DTDTANA || DynCore || K s-1 || xyz || tendency of air temperature due to analysis |- | DDELPDTANA || DynCore || K s-1 || xyz || tendency of pressure thickness due to analysis |- | DUDTDYN || DynCore || mss || xyz || tendency of eastward wind due to dynamics |- | DVDTDYN || DynCore || mss || xyz || tendency of northward wind due to dynamics |- | DTDTDYN || DynCore || K s-1 || xyz || tendency of air temperature due to dynamics |- | DQVDTDYN || DynCore || kgkgs || xyz || tendency of specific humidity due to dynamics |- | DQIDTDYN || DynCore || kgkgs || xyz || tendency of ice water due to dynamics |- | DQLDTDYN || DynCore || kgkgs || xyz || tendency of liquid water due to dynamics |- | DOXDTDYN || DynCore || mol mol-1 s-1 || xyz || tendency of ozone due to dynamics |- | PREF || DynCore || Pa || z || reference air pressure |- | AK || DynCore || 1 || z || hybrid sigma pressure a |- | BK || DynCore || 1 || z || hybrid sigma pressure b |- | PHIS || DynCore || m || xy || surface height |- | PS || DynCore || Pa || xy || surface pressure |- | TA || DynCore || K || xy || surface air temperature |- | QA || DynCore || 1 || xy || surface specific humidity |- | US || DynCore || m s-1 || xy || surface eastward wind |- | VS || DynCore || m s-1 || xy || surface northward wind |- | SPEED || DynCore || m s-1 || xy || surface wind speed |- | DZ || DynCore || m || xy || surface layer height |- | SLP || DynCore || Pa || xy || sea level pressure |- | H1000 || DynCore || m || xy || height at 1000 mb |- | TROPP_EPV || DynCore || Pa || xy || tropopause pressure based on EPV estimate |- | TROPP_THERMAL || DynCore || Pa || xy || tropopause pressure based on thermal estimate |- | TROPP_BLENDED || DynCore || Pa || xy || tropopause pressure based on blended estimate |- | TROPT || DynCore || K || xy || tropopause temperature using blended TROPP estimate |- | TROPQ || DynCore || kgkg || xy || tropopause specific humidity using blended TROPP estimate |- | PLE0 || DynCore || Pa || xyz || pressure at layer edges before dynamics |- | PLE1 || DynCore || Pa || xyz || pressure at layer edges after dynamics |- | DELP || DynCore || Pa || xyz || pressure thickness |- | DELPTOP || DynCore || Pa || xy || pressure thickness at model top |- | U_AGRID || DynCore || m s-1 || xyz || eastward wind on A-Grid |- | V_AGRID || DynCore || m s-1 || xyz || northward wind on A-Grid |- | U_CGRID || DynCore || m s-1 || xyz || eastward wind on C-Grid |- | V_CGRID || DynCore || m s-1 || xyz || northward wind on C-Grid |- | U_DGRID || DynCore || m s-1 || xyz || eastward wind on native D-Grid |- | V_DGRID || DynCore || m s-1 || xyz || northward wind on native D-Grid |- | TV || DynCore || K || xyz || air virtual temperature |- | THV || DynCore || KPa$^\kappa$ || xyz || scaled virtual potential temperature |- | DDELPDTDYN || DynCore || Pa s-1 || xyz || tendency of pressure thickness due to dynamics |- | UKE || DynCore || J m-1 s-1 || xy || eastward flux of atmospheric kinetic energy |- | VKE || DynCore || J m-1 s-1 || xy || northward flux of atmospheric kinetic energy |- | UCPT || DynCore || J m-1 s-1 || xy || eastward flux of atmospheric enthalpy |- | VCPT || DynCore || J m-1 s-1 || xy || northward flux of atmospheric enthalpy |- | UPHI || DynCore || J m-1 s-1 || xy || eastward flux of atmospheric potential energy |- | VPHI || DynCore || J m-1 s-1 || xy || northward flux of atmospheric potential energy |- | UQV || DynCore || kg m-1 s-1 || xy || eastward flux of atmospheric water vapor |- | VQV || DynCore || kg m-1 s-1 || xy || northward flux of atmospheric water vapor |- | UQL || DynCore || kg m-1 s-1 || xy || eastward flux of atmospheric liquid water |- | VQL || DynCore || kg m-1 s-1 || xy || northward flux of atmospheric liquid water |- | UQI || DynCore || kg m-1 s-1 || xy || eastward flux of atmospheric ice |- | VQI || DynCore || kg m-1 s-1 || xy || northward flux of atmospheric ice |- | DKE || DynCore || W m-2 || xy || tendency of atmosphere kinetic energy content due to dynamics |- | DCPT || DynCore || W m-2 || xy || tendency of atmosphere dry energy content due to dynamics |- | DPET || DynCore || W m-2 || xy || tendency of atmosphere topographic potential energy due to dynamics |- | WRKT || DynCore || W m-2 || xy || work done by atmosphere at top |- | DQV || DynCore || kg m-2 s-1 || xy || tendency of atmosphere water vapor content due to dynamics |- | DQL || DynCore || kg m-2 s-1 || xy || tendency of atmosphere liquid water content due to dynamics |- | DQI || DynCore || kg m-2 s-1 || xy || tendency of atmosphere ice content due to dynamics |- | CNV || DynCore || W m-2 || xy || generation of atmosphere kinetic energy content |- | UNKNOWN || DynCore || 1 || xy || UNKNOWN |- | UNKNOWN || DynCore || 1 || xyz || UNKNOWN |- | VORT || DynCore || s-1 || xyz || vorticity at mid layer heights |- | VORT850 || DynCore || s-1 || xy || vorticity at 850 hPa |- | VORT700 || DynCore || s-1 || xy || vorticity at 700 hPa |- | VORT200 || DynCore || s-1 || xy || vorticity at 200 hPa |- | DIVG || DynCore || s-1 || xyz || divergence at mid layer heights |- | DIVG850 || DynCore || s-1 || xy || divergence at 850 hPa |- | DIVG700 || DynCore || s-1 || xy || divergence at 700 hPa |- | DIVG200 || DynCore || s-1 || xy || divergence at 200 hPa |- | U850 || DynCore || m s-1 || xy || eastward wind at 850 hPa |- | U700 || DynCore || m s-1 || xy || eastward wind at 700 hPa |- | U500 || DynCore || m s-1 || xy || eastward wind at 500 hPa |- | U250 || DynCore || m s-1 || xy || eastward wind at 250 hPa |- | U200 || DynCore || m s-1 || xy || eastward wind at 200 hPa |- | UTOP || DynCore || m s-1 || xy || eastward wind at model top |- | V850 || DynCore || m s-1 || xy || northward wind at 850 hPa |- | V700 || DynCore || m s-1 || xy || northward wind at 700 hPa |- | V500 || DynCore || m s-1 || xy || northward wind at 500 hPa |- | V250 || DynCore || m s-1 || xy || northward wind at 250 hPa |- | V200 || DynCore || m s-1 || xy || northward wind at 200 hPa |- | VTOP || DynCore || m s-1 || xy || northward wind at model top |- | T850 || DynCore || K || xy || air temperature at 850 hPa |- | T700 || DynCore || K || xy || air temperature at 700 hPa |- | T500 || DynCore || K || xy || air temperature at 500 hPa |- | T300 || DynCore || K || xy || air temperature at 300 hPa |- | T250 || DynCore || K || xy || air temperature at 250 hPa |- | TTOP || DynCore || K || xy || air temperature at model top |- | Q850 || DynCore || kg kg-1 || xy || specific humidity at 850 hPa |- | Q500 || DynCore || kg kg-1 || xy || specific humidity at 500 hPa |- | Q250 || DynCore || kg kg-1 || xy || specific humidity at 250 hPa |- | Z700 || DynCore || m || xy || geopotential height at 700 hPa |- | Z500 || DynCore || m || xy || geopotential height at 500 hPa |- | Z300 || DynCore || m || xy || geopotential height at 300 hPa |- | H850 || DynCore || m || xy || height at 850 hPa |- | H700 || DynCore || m || xy || height at 700 hPa |- | H500 || DynCore || m || xy || height at 500 hPa |- | H300 || DynCore || m || xy || height at 300 hPa |- | H250 || DynCore || m || xy || height at 250 hPa |- | OMEGA850 || DynCore || Pa s-1 || xy || omega at 850 hPa |- | OMEGA500 || DynCore || Pa s-1 || xy || omega at 500 hPa |- | OMEGA200 || DynCore || Pa s-1 || xy || omega at 200 hPa |- | OMEGA10 || DynCore || Pa s-1 || xy || omega at 10 hPa |- | W850 || DynCore || m s-1 || xy || w at 850 hPa |- | W500 || DynCore || m s-1 || xy || w at 500 hPa |- | W200 || DynCore || m s-1 || xy || w at 200 hPa |- | W10 || DynCore || m s-1 || xy || w at 10 hPa |- | U50M || DynCore || m s-1 || xy || eastward wind at 50 meters |- | V50M || DynCore || m s-1 || xy || northward wind at 50 meters |- | DXC || DynCore || m || xy || cgrid delta x |- | DYC || DynCore || m || xy || cgrid delta y |- | AREA || DynCore || m+2 || xy || agrid cell area |- | PT || DynCore || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || DynCore || Pa || xyz || air pressure |- | LONS || DynCore || radians || xy || Center longitudes |- | LATS || DynCore || radians || xy || Center latitudes |- | DYNTIMER || DynCore || seconds || xy || timer in the dynamics |- | COMMTIMER || DynCore || seconds || xy || communication timer in the dynamics |- | PID || DynCore || || xy || process id |- | AK || DynVec || Pa || z || hybrid sigma pressure a |- | BK || DynVec || 1 || z || hybrid sigma pressure b |- | U || DynVec || m s-1 || xyz || eastward wind |- | V || DynVec || m s-1 || xyz || northward wind |- | PT || DynVec || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || DynVec || Pa || xyz || air pressure |- | PKZ || DynVec || Pa$^\kappa$ || xyz || pressure to kappa |- | DZ || DynVec || m || xyz || height thickness |- | W || DynVec || m s-1 || xyz || vertical velocity |- | KE || FVdycore || J m-2 || xy || vertically integrated kinetic energy |- | TAVE || FVdycore || K || xy || vertically averaged dry temperature |- | UAVE || FVdycore || m sec-1 || xy || vertically averaged zonal wind |- | KEPHY || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to physics |- | PEPHY || FVdycore || W m-2 || xy || total potential energy tendency due to physics |- | TEPHY || FVdycore || W m-2 || xy || mountain work tendency due to physics |- | KEANA || FVdycore || W m-2 || xy || total kinetic energy tendency due to analysis |- | PEANA || FVdycore || W m-2 || xy || total potential energy tendency due to analysis |- | TEANA || FVdycore || W m-2 || xy || mountain work tendency due to analysis |- | KEHOT || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to HOT |- | KEDP || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to pressure change |- | KEADV || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to dynamics advection |- | KEPG || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to pressure gradient |- | KEDYN || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to dynamics |- | PEDYN || FVdycore || W m-2 || xy || vertically integrated potential energy tendency due to dynamics |- | TEDYN || FVdycore || W m-2 || xy || mountain work tendency due to dynamics |- | KECDCOR || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to cdcore |- | PECDCOR || FVdycore || W m-2 || xy || vertically integrated potential energy tendency due to cdcore |- | TECDCOR || FVdycore || W m-2 || xy || mountain work tendency due to cdcore |- | QFIXER || FVdycore || W m-2 || xy || vertically integrated potential energy tendency due to CONSV |- | KEREMAP || FVdycore || W m-2 || xy || vertically integrated kinetic energy tendency due to remap |- | PEREMAP || FVdycore || W m-2 || xy || vertically integrated potential energy tendency due to remap |- | TEREMAP || FVdycore || W m-2 || xy || mountain work tendency due to remap |- | KEGEN || FVdycore || W m-2 || xy || vertically integrated generation of kinetic energy |- | DKERESIN || FVdycore || W m-2 || xy || vertically integrated kinetic energy residual from inertial terms |- | DKERESPG || FVdycore || W m-2 || xy || vertically integrated kinetic energy residual from PG terms |- | DMDTANA || FVdycore || kg m-2 s-1 || xy || vertically integrated mass tendency due to analysis |- | DOXDTANAINT || FVdycore || kg m-2 s-1 || xy || vertically integrated ozone tendency due to analysis |- | DQVDTANAINT || FVdycore || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to analysis |- | DQLDTANAINT || FVdycore || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to analysis |- | DQIDTANAINT || FVdycore || kg m-2 s-1 || xy || vertically integrated ice water tendency due to analysis |- | DMDTDYN || FVdycore || kg m-2 s-1 || xy || vertically integrated mass tendency due to dynamics |- | DOXDTDYNINT || FVdycore || kg m-2 s-1 || xy || vertically integrated ozone tendency due to dynamics |- | DTHVDTDYNINT || FVdycore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to dynamics |- | DTHVDTREMAP || FVdycore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to vertical remapping |- | DTHVDTCONSV || FVdycore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to TE conservation |- | DTHVDTPHYINT || FVdycore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to physics |- | DTHVDTANAINT || FVdycore || K kg m-2 s-1 || xy || vertically integrated THV tendency due to analysis |- | DQVDTDYNINT || FVdycore || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to dynamics |- | DQLDTDYNINT || FVdycore || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to dynamics |- | DQIDTDYNINT || FVdycore || kg m-2 s-1 || xy || vertically integrated ice water tendency due to dynamics |- | CONVKE || FVdycore || W m-2 || xy || vertically integrated kinetic energy convergence |- | CONVTHV || FVdycore || W m-2 || xy || vertically integrated thetav convergence |- | CONVCPT || FVdycore || W m-2 || xy || vertically integrated enthalpy convergence |- | CONVPHI || FVdycore || W m-2 || xy || vertically integrated geopotential convergence |- | U || FVdycore || m s-1 || xyz || eastward wind |- | V || FVdycore || m s-1 || xyz || northward wind |- | T || FVdycore || K || xyz || air temperature |- | PL || FVdycore || Pa || xyz || mid level pressure |- | ZLE || FVdycore || m || xyz || edge heights |- | ZL || FVdycore || m || xyz || mid layer heights |- | S || FVdycore || m || xyz || mid layer dry static energy |- | PLE || FVdycore || Pa || xyz || edge pressure |- | TH || FVdycore || K || xyz || potential temperature |- | PLK || FVdycore || Pa$^\kappa$ || xyz || mid layer $p^\kappa$ |- | OMEGA || FVdycore || Pa s-1 || xyz || vertical pressure velocity |- | PTFX || FVdycore || K Pa m+2 s-1 || xyz || pressure weighted eastward potential temperature flux unremapped |- | PTFY || FVdycore || K Pa m+2 s-1 || xyz || pressure weighted northward potential temperature flux unremapped |- | MFX_UR || FVdycore || Pa m+2 s-1 || xyz || pressure weighted eastward wind unremapped |- | MFY_UR || FVdycore || Pa m+2 s-1 || xyz || pressure weighted northward wind unremapped |- | MFX || FVdycore || Pa m+2 s-1 || xyz || pressure weighted eastward wind |- | MFY || FVdycore || Pa m+2 s-1 || xyz || pressure weighted northward wind |- | MFZ || FVdycore || kg m-2 s-1 || xyz || vertical mass flux |- | MFX_A || FVdycore || Pa m+2 s-1 || xyz || zonal mass flux |- | MFY_A || FVdycore || Pa m+2 s-1 || xyz || meridional mass flux |- | PV || FVdycore || m+2 kg-1 s-1 || xyz || ertels isentropic potential vorticity |- | EPV || FVdycore || K m+2 kg-1 s-1 || xyz || ertels potential vorticity |- | Q || FVdycore || kg kg-1 || xyz || specific humidity |- | DUDTANA || FVdycore || m s-2 || xyz || tendency of eastward wind due to analysis |- | DVDTANA || FVdycore || m s-2 || xyz || tendency of northward wind due to analysis |- | DTDTANA || FVdycore || K s-1 || xyz || tendency of air temperature due to analysis |- | DDELPDTANA || FVdycore || K s-1 || xyz || tendency of pressure thickness due to analysis |- | DUDTDYN || FVdycore || m s-2 || xyz || tendency of eastward wind due to dynamics |- | DVDTDYN || FVdycore || m s-2 || xyz || tendency of northward wind due to dynamics |- | DTDTDYN || FVdycore || K s-1 || xyz || tendency of air temperature due to dynamics |- | DQVDTDYN || FVdycore || kg kg-1 s-1 || xyz || tendency of specific humidity due to dynamics |- | DQIDTDYN || FVdycore || kg kg-1 s-1 || xyz || tendency of ice water due to dynamics |- | DQLDTDYN || FVdycore || kg kg-1 s-1 || xyz || tendency of liquid water due to dynamics |- | DOXDTDYN || FVdycore || mol mol-1 s-1 || xyz || tendency of ozone due to dynamics |- | PREF || FVdycore || Pa || z || reference air pressure |- | AK || FVdycore || 1 || z || hybrid sigma pressure a |- | BK || FVdycore || 1 || z || hybrid sigma pressure b |- | PS || FVdycore || Pa || xy || surface pressure |- | TA || FVdycore || K || xy || surface air temperature |- | QA || FVdycore || kg kg-1 || xy || surface specific humidity |- | US || FVdycore || m s-1 || xy || surface eastward wind |- | VS || FVdycore || m s-1 || xy || surface northward wind |- | SPEED || FVdycore || m s-1 || xy || surface wind speed |- | DZ || FVdycore || m || xy || surface layer height |- | SLP || FVdycore || Pa || xy || sea level pressure |- | H1000 || FVdycore || m || xy || height at 1000 mb |- | TROPP_EPV || FVdycore || Pa || xy || tropopause pressure based on EPV estimate |- | TROPP_THERMAL || FVdycore || Pa || xy || tropopause pressure based on thermal estimate |- | TROPP_BLENDED || FVdycore || Pa || xy || tropopause pressure based on blended estimate |- | TROPT || FVdycore || K || xy || tropopause temperature using blended TROPP estimate |- | TROPQ || FVdycore || kg kg-1 || xy || tropopause specific humidity using blended TROPP estimate |- | DELP || FVdycore || Pa || xyz || pressure thickness |- | U_CGRID || FVdycore || m s-1 || xyz || eastward wind on C-Grid |- | V_CGRID || FVdycore || m s-1 || xyz || northward wind on C-Grid |- | U_DGRID || FVdycore || m s-1 || xyz || eastward wind on native D-Grid |- | V_DGRID || FVdycore || m s-1 || xyz || northward wind on native D-Grid |- | TV || FVdycore || K || xyz || air virtual temperature |- | THV || FVdycore || KPa$^\kappa$ || xyz || scaled virtual potential temperature |- | DDELPDTDYN || FVdycore || Pa s-1 || xyz || tendency of pressure thickness due to dynamics |- | UKE || FVdycore || J m-1 s-1 || xy || eastward flux of atmospheric kinetic energy |- | VKE || FVdycore || J m-1 s-1 || xy || northward flux of atmospheric kinetic energy |- | UCPT || FVdycore || J m-1 s-1 || xy || eastward flux of atmospheric enthalpy |- | VCPT || FVdycore || J m-1 s-1 || xy || northward flux of atmospheric enthalpy |- | UPHI || FVdycore || J m-1 s-1 || xy || eastward flux of atmospheric potential energy |- | VPHI || FVdycore || J m-1 s-1 || xy || northward flux of atmospheric potential energy |- | UQV || FVdycore || kg m-1 s-1 || xy || eastward flux of atmospheric water vapor |- | VQV || FVdycore || kg m-1 s-1 || xy || northward flux of atmospheric water vapor |- | UQL || FVdycore || kg m-1 s-1 || xy || eastward flux of atmospheric liquid water |- | VQL || FVdycore || kg m-1 s-1 || xy || northward flux of atmospheric liquid water |- | UQI || FVdycore || kg m-1 s-1 || xy || eastward flux of atmospheric ice |- | VQI || FVdycore || kg m-1 s-1 || xy || northward flux of atmospheric ice |- | DKE || FVdycore || W m-2 || xy || tendency of atmosphere kinetic energy content due to dynamics |- | DCPT || FVdycore || W m-2 || xy || tendency of atmosphere dry energy content due to dynamics |- | DPET || FVdycore || W m-2 || xy || tendency of atmosphere topographic potential energy due to dynamics |- | WRKT || FVdycore || W m-2 || xy || work done by atmosphere at top |- | DQV || FVdycore || kg m-2 s-1 || xy || tendency of atmosphere water vapor content due to dynamics |- | DQL || FVdycore || kg m-2 s-1 || xy || tendency of atmosphere liquid water content due to dynamics |- | DQI || FVdycore || kg m-2 s-1 || xy || tendency of atmosphere ice content due to dynamics |- | CNV || FVdycore || W m-2 || xy || generation of atmosphere kinetic energy content |- | U850 || FVdycore || m s-1 || xy || eastward wind at 850 hPa |- | U500 || FVdycore || m s-1 || xy || eastward wind at 500 hPa |- | U250 || FVdycore || m s-1 || xy || eastward wind at 250 hPa |- | V850 || FVdycore || m s-1 || xy || northward wind at 850 hPa |- | V500 || FVdycore || m s-1 || xy || northward wind at 500 hPa |- | V250 || FVdycore || m s-1 || xy || northward wind at 250 hPa |- | T850 || FVdycore || K || xy || air temperature at 850 hPa |- | T500 || FVdycore || K || xy || air temperature at 500 hPa |- | T250 || FVdycore || K || xy || air temperature at 250 hPa |- | Q850 || FVdycore || kg kg-1 || xy || specific humidity at 850 hPa |- | Q500 || FVdycore || kg kg-1 || xy || specific humidity at 500 hPa |- | Q250 || FVdycore || kg kg-1 || xy || specific humidity at 250 hPa |- | H850 || FVdycore || m || xy || height at 850 hPa |- | H500 || FVdycore || m || xy || height at 500 hPa |- | H250 || FVdycore || m || xy || height at 250 hPa |- | OMEGA500 || FVdycore || Pa s-1 || xy || omega at 500 hPa |- | U50M || FVdycore || m s-1 || xy || eastward wind at 50 meters |- | V50M || FVdycore || m s-1 || xy || northward wind at 50 meters |- | AREA || FVdycore || m+2 || xy || agrid cell area |- | PT || FVdycore || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || FVdycore || Pa || xyz || air pressure |- | AODANA || GAAS || 1 || xy || Aerosol Optical Depth Analysis |- | AODINC || GAAS || 1 || xy || Aerosol Optical Depth Analysis Increment |- | DUANA || GAAS || kgkg || xyz || Dust Mixing Ratio Analysis |- | SSANA || GAAS || kgkg || xyz || Sea-salt Mixing Ratio Analysis |- | NIANA || GAAS || kgkg || xyz || Nitrate Mixing Ratio Analysis |- | SUANA || GAAS || kgkg || xyz || Sulfate Mixing Ratio Analysis |- | BCANA || GAAS || kgkg || xyz || Black Carbon Mixing Ratio Analysis |- | OCANA || GAAS || kgkg || xyz || Organic Carbon Mixing Ratio Analysis |- | DUINC || GAAS || kgkg || xyz || Dust Mixing Ratio Analysis Increments |- | SSINC || GAAS || kgkg || xyz || Sea-salt Mixing Ratio Analysis Increments |- | NIINC || GAAS || kgkg || xyz || Nitrate Mixing Ratio Analysis Increments |- | SUINC || GAAS || kgkg || xyz || Sulfate Mixing Ratio Analysis Increments |- | BCINC || GAAS || kgkg || xyz || Black Carbon Mixing Ratio Analysis Increments |- | OCINC || GAAS || kgkg || xyz || Organic Carbon Mixing Ratio Analysis Increments |- | GMICHEMBCphobic || GMICHEM || kg kg-1 || xyz || prescribed hydrophobic black carbon from GMICHEM |- | GMICHEMBCphilic || GMICHEM || kg kg-1 || xyz || prescribed hydrophylic black carbon from GMICHEM |- | GMICHEMdu001 || GMICHEM || kg kg-1 || xyz || prescribed dust bin 1 from GMICHEM |- | GMICHEMdu002 || GMICHEM || kg kg-1 || xyz || prescribed dust bin 2 from GMICHEM |- | GMICHEMdu003 || GMICHEM || kg kg-1 || xyz || prescribed dust bin 3 from GMICHEM |- | GMICHEMdu004 || GMICHEM || kg kg-1 || xyz || prescribed dust bin 4 from GMICHEM |- | GMICHEMOCphobic || GMICHEM || kg kg-1 || xyz || prescribed hydrophobic organic carbon from GMICHEM |- | GMICHEMOCphilic || GMICHEM || kg kg-1 || xyz || prescribed hydrophylic organic carbon from GMICHEM |- | GMICHEMss001 || GMICHEM || kg kg-1 || xyz || prescribed sea salt bin 1 from GMICHEM |- | GMICHEMss003 || GMICHEM || kg kg-1 || xyz || prescribed sea salt bin 3 from GMICHEM |- | GMICHEMss004 || GMICHEM || kg kg-1 || xyz || prescribed sea salt bin 4 from GMICHEM |- | GMICHEMss005 || GMICHEM || kg kg-1 || xyz || prescribed sea salt bin 5 from GMICHEM |- | GMICHEMSO4 || GMICHEM || kg kg-1 || xyz || prescribed sulfate from GMICHEM |- | REFFICE || GMICHEM || cm || xyz || ice aerosol effective radius |- | REFFSTS || GMICHEM || cm || xyz || STS aerosol effective radius |- | VFALL || GMICHEM || cm s-1 || xyz || effective aerosol fall velocity |- | HO2PBLFLAG || GMICHEM || 0-1 || xyz || PBL flag for HO2 loss in aerosols |- | EMISOPSFC || GMICHEM || kg m-2 s-1 || xy || surface emission of isoprene |- | EMNOX || GMICHEM || kg m-2 s-1 || xy || surface emission of odd nitrogen |- | EMMONOT || GMICHEM || kg m-2 s-1 || xy || surface emission of monoterpenes |- | EMBIOCOMETH || GMICHEM || kg m-2 s-1 || xy || biogenic source of CO from oxidation of methanol |- | EMBIOCOMONOT || GMICHEM || kg m-2 s-1 || xy || biogenic source of CO from oxidation of monoterpenes |- | EMBIOPROPENE || GMICHEM || kg m-2 s-1 || xy || biogenic source of propene |- | EMSOILNOX || GMICHEM || kg m-2 s-1 || xy || soil source of odd nitrogen |- | EMSHIPHNO3 || GMICHEM || kg m-2 s-1 || xy || surface ship source of nitric acid |- | EMSHIPO3 || GMICHEM || kg m-2 s-1 || xy || surface ship source of ozone |- | EM_NO || GMICHEM || mol mol-1 s-1 || xyz || nitrous oxide emissions |- | EM_CO || GMICHEM || mol mol-1 s-1 || xyz || carbon monoxide emissions |- | EM_MEK || GMICHEM || mol mol-1 s-1 || xyz || methyl ethyl ketone (C4H8O) emissions |- | EM_PRPE || GMICHEM || mol mol-1 s-1 || xyz || propene (C3H6) emissions |- | EM_C2H6 || GMICHEM || mol mol-1 s-1 || xyz || ethane emissions |- | EM_C3H8 || GMICHEM || mol mol-1 s-1 || xyz || propane emissions |- | EM_ALK4 || GMICHEM || mol mol-1 s-1 || xyz || C45 alkanes (C4H10) emissions |- | EM_ALD2 || GMICHEM || mol mol-1 s-1 || xyz || acetaldehyde (C2H4O) emissions |- | EM_CH2O || GMICHEM || mol mol-1 s-1 || xyz || formaldehyde emissions |- | EM_ACET || GMICHEM || mol mol-1 s-1 || xyz || acetone emissions |- | EM_CH4 || GMICHEM || mol mol-1 s-1 || xyz || methane emissions |- | EM_LGTNO || GMICHEM || mol mol-1 s-1 || xyz || NO emissions from lightning |- | SZAPHOT || GMICHEM || deg || xy || solar zenith angle for GMIchem photolysis |- | DUSTOD || GMICHEM || 1 || xyz || dust optical depth (400 nm) |- | DUSTSA || GMICHEM || cm+2 cm-3 || xyz || dust surface area |- | SO4OD || GMICHEM || 1 || xyz || sulfate optical depth (400 nm) |- | SO4HYGRO || GMICHEM || 1 || xyz || hygroscopic growth of sulfate |- | SO4SA || GMICHEM || cm+2 cm-3 || xyz || sulfate surface area |- | BCOD || GMICHEM || 1 || xyz || black carbon optical depth (400 nm) |- | BCHYGRO || GMICHEM || 1 || xyz || hygroscopic growth of black carbon |- | BCSA || GMICHEM || cm+2 cm-3 || xyz || black carbon surface area |- | OCOD || GMICHEM || 1 || xyz || organic carbon optical depth (400 nm) |- | OCHYGRO || GMICHEM || 1 || xyz || hygroscopic growth of organic carbon |- | OCSA || GMICHEM || cm+2 cm-3 || xyz || organic carbon surface area |- | SSAOD || GMICHEM || 1 || xyz || accumulated sea salt optical depth (400 nm) |- | SSAHYGRO || GMICHEM || 1 || xyz || hygroscopic growth of accumulated sea salt |- | SSASA || GMICHEM || cm+2 cm-3 || xyz || accumulated sea salt surface area |- | SSCOD || GMICHEM || 1 || xyz || coarse sea salt optical depth (400 nm) |- | SSCHYGRO || GMICHEM || 1 || xyz || hygroscopic growth of coarse sea salt |- | SSCSA || GMICHEM || cm+2 cm-3 || xyz || coarse sea salt surface area |- | O3 || GMICHEM || kg kg-1 || xyz || ozone mass mixing ratio |- | O3PPMV || GMICHEM || ppmv || xyz || ozone mass mixing ratio in ppm |- | OX_TEND || GMICHEM || kg kg-1 s-1 || xyz || tendency of odd oxygen mixing ratio due to chemistry |- | H2O_TEND || GMICHEM || kg kg-1 s-1 || xyz || tendency of water vapor mixing ratio due to chemistry |- | GMITO3 || GMICHEM || dobsons || xy || total ozone |- | GMITTO3 || GMICHEM || dobsons || xy || total tropospheric ozone |- | GMITROPP || GMICHEM || Pa || xy || tropopause pressure used in GMICHEM |- | AGCMTROPP || GMICHEM || Pa || xy || tropopause pressure imported into GMICHEM |- | GMIH2O || GMICHEM || mol mol-1 || xyz || gas phase water from GMICHEM |- | BOX_HEIGHT || GMICHEM || m || xyz || Height of GridBox |- | NATSAD || GMICHEM || cm+2 cm-3 || xyz || NAT surface area density |- | ICESAD || GMICHEM || cm+2 cm-3 || xyz || ice surface area density |- | LBSSAD || GMICHEM || cm+2 cm-3 || xyz || LBS surface area density |- | AIRMASS || GMICHEM || kg m-2 || xyz || mass of air in layer |- | AERO || GMIchem || kg kg-1 || xyz || aerosol mass mixing ratios |- | AERO_DP || GMIchem || kg m-2 s-1 || xy || aerosol deposition |- | HNO3CONDsad || GMIchem || mixing_ratio || xyz || condensed phase hno3 |- | HNO3GASsad || GMIchem || mixing_ratio || xyz || gas phase-hno3 |- | jNO2val || GMIchem || s^-1 || xy || photolysis rate constants for NO |- | surfEmissForChem || GMIchem || kg m-2 s-1 || xy || surface emission for chemistry |- | gmiSAD || GMIchem || cm^2cm^3 || xyz || surface area densities |- | gmiQJ || GMIchem || cm3 s-1 || xyz || photolysis rate constants |- | gmiQQJ || GMIchem || cm-3 s-1 || xyz || photolysis reaction rates |- | gmiQK || GMIchem || 2-3body_varies || xyz || thermal rate constants |- | gmiQQK || GMIchem || cm-3 s-1 || xyz || thermal reaction rates |- | gmiERADIUS || GMIchem || cm || xyz || Aerosol Dust Radii |- | gmiTAREA || GMIchem || cm^2cm^3 || xyz || surface area aerosol dust |- | AERO || GOCART || kg kg-1 || xyz || aerosol mass mixing ratios |- | AERO_ACI || GOCART || kg kg-1 || xyz || aerosol cloud interaction |- | AERO_DP || GOCART || kg m-2 s-1 || xy || aerosol deposition |- | RH2 || GOCART || 1 || xyz || relative humidity after moist |- | DELP || GOCART || Pa || xyz || pressure thickness |- | TOTEXTTAU || GOCART || 1 || xy || Total Aerosol Extinction AOT [550 nm] |- | TOTSCATAU || GOCART || 1 || xy || Total Aerosol Scattering AOT [550 nm] |- | TOTEXTT25 || GOCART || 1 || xy || Total Aerosol Extinction AOT [550 nm] - PM2.5 |- | TOTSCAT25 || GOCART || 1 || xy || Total Aerosol Scattering AOT [550 nm] - PM2.5 |- | TOTEXTTFM || GOCART || 1 || xy || Total Aerosol Extinction AOT [550 nm] - PM1.0 |- | TOTSCATFM || GOCART || 1 || xy || Total Aerosol Scattering AOT [550 nm] - PM1.0 |- | TOTANGSTR || GOCART || 1 || xy || Total Aerosol Angstrom parameter [470-870 nm] |- | PM || GOCART || kg m-3 || xy || Total reconstructed PM |- | PM25 || GOCART || kg m-3 || xy || Total reconstructed PM2.5 |- | MOM_3D_MASK || Gcm || || || |- | skin_T || Gcm || || || |- | skin_S || Gcm || || || |- | T || Gcm || || || |- | S || Gcm || || || |- | U || Gcm || || || |- | V || Gcm || || || |- | Z || Gcm || || || |- | RHO || Gcm || || || |- | SLV || Gcm || || || |- | SSH || Gcm || || || |- | PBO || Gcm || || || |- | TX || Gcm || || || |- | TY || Gcm || || || |- | MLD || Gcm || || || |- | PSI || Gcm || || || |- | AICE || Gcm || || || |- | HICE || Gcm || || || |- | CHLOROPHYLL || Gcm || || || |- | AK || Gcm || || || |- | BK || Gcm || || || |- | PS || Gcm || || || |- | DELP || Gcm || || || |- | TV || Gcm || || || |- | U || Gcm || || || |- | V || Gcm || || || |- | PHIS || Gcm || || || |- | Q || Gcm || || || |- | QCTOT || Gcm || || || |- | QITOT || Gcm || || || |- | QLTOT || Gcm || || || |- | O3PPMV || Gcm || || || |- | U10N || Gcm || || || |- | V10N || Gcm || || || |- | SNOMAS || Gcm || || || |- | WET1 || Gcm || || || |- | TSOIL1 || Gcm || || || |- | LWI || Gcm || || || |- | TS || Gcm || || || |- | Z0 || Gcm || || || |- | FRLAND || Gcm || || || |- | FRLANDICE& || Gcm || || || |- | FRLAKE || Gcm || || || |- | FROCEAN || Gcm || || || |- | FRACI || Gcm || || || |- | PLE || Gwd || Pa || xyz || air pressure |- | T || Gwd || K || xyz || air temperature |- | Q || Gwd || kg kg-1 || xyz || specific humidity |- | U || Gwd || m s-1 || xyz || eastward wind |- | V || Gwd || m s-1 || xyz || northward wind |- | SGH || Gwd || m || xy || standard deviation of topography |- | PREF || Gwd || Pa || z || reference air pressure |- | DTDT || Gwd || Pa K s-1 || xyz || mass weighted air temperature tendency due to GWD |- | TTMGW || Gwd || K s-1 || xyz || air temperature tendency due to GWD |- | DUDT || Gwd || m s-2 || xyz || tendency of eastward wind due to GWD |- | DVDT || Gwd || m s-2 || xyz || tendency of northward wind due to GWD |- | DTDT_ORO || Gwd || K s-1 || xyz || air temperature tendency due to orographic GWD |- | DUDT_ORO || Gwd || m s-2 || xyz || tendency of eastward wind due to orographic GWD |- | DVDT_ORO || Gwd || m s-2 || xyz || tendency of northward wind due to orographic GWD |- | DTDT_BKG || Gwd || K s-1 || xyz || air temperature tendency due to background GWD |- | DUDT_BKG || Gwd || m s-2 || xyz || tendency of eastward wind due to background GWD |- | DVDT_BKG || Gwd || m s-2 || xyz || tendency of northward wind due to background GWD |- | DTDT_RAY || Gwd || K s-1 || xyz || air temperature tendency due to Rayleigh friction |- | DUDT_RAY || Gwd || m s-2 || xyz || tendency of eastward wind due to Rayleigh friction |- | DVDT_RAY || Gwd || m s-2 || xyz || tendency of northward wind due to Rayleigh friction |- | TAUGWX || Gwd || N m-2 || xy || surface eastward gravity wave stress |- | TAUGWY || Gwd || N m-2 || xy || surface northward gravity wave stress |- | TAUOROX || Gwd || N m-2 || xy || surface eastward orographic gravity wave stress |- | TAUOROY || Gwd || N m-2 || xy || surface northward orographic gravity wave stress |- | TAUBKGX || Gwd || N m-2 || xy || surface eastward background gravity wave stress |- | TAUBKGY || Gwd || N m-2 || xy || surface northward background gravity wave stress |- | TAUMSTX || Gwd || N m-2 || xy || surface eastward gravity wave stress due to Moist Processes |- | TAUMSTY || Gwd || N m-2 || xy || surface northward gravity wave stress due to Moist Processes |- | CLDSTD || Gwd || m || xy || gravity wave drag standard deviation due to clouds |- | UBASE || Gwd || m s-1 || xy || eastward component of base level wind |- | VBASE || Gwd || m s-1 || xy || northward component of base level wind |- | UBAR || Gwd || m s-1 || xy || eastward component of mean level wind |- | VBAR || Gwd || m s-1 || xy || northward component of mean level wind |- | PEGWD || Gwd || W m-2 || xy || vertically integrated potential energy tendency across gwd |- | PEORO || Gwd || W m-2 || xy || vertically integrated potential energy tendency due to orographic gravity waves |- | PEBKG || Gwd || W m-2 || xy || vertically integrated potential energy tendency due to gravity wave background |- | PERAY || Gwd || W m-2 || xy || vertically integrated potential energy tendency due to Rayleigh friction |- | KEGWD || Gwd || W m-2 || xy || vertically integrated kinetic energy tendency across gwd |- | KEORO || Gwd || W m-2 || xy || vertically integrated kinetic energy dissipation due to orographic gravity waves |- | KERAY || Gwd || W m-2 || xy || vertically integrated kinetic energy dissipation due to Rayleigh friction |- | KEBKG || Gwd || W m-2 || xy || vertically integrated kinetic energy dissipation due to gravity wave background |- | KERES || Gwd || W m-2 || xy || vertically integrated kinetic energy residual for total energy conservation |- | BKGERR || Gwd || W m-2 || xy || vertically integrated kinetic energy residual for BKG energy conservation |- | ADJUSTL(cName) || HCOI_ESMF_MOD || ADJUSTL(UnitName) || unk || ADJUSTL(lName) |- | SNAME || HCOI_ESMF_MOD || UNITS || unk || LNAME |- | DUDT || IAU || m s-1 || xyz || eastward wind analysis increment |- | DVDT || IAU || m s-1 || xyz || northward wind analysis increment |- | DTDT || IAU || K || xyz || temperature analysis increment |- | DPEDT || IAU || Pa || xyz || edge pressure analysis increment |- | DQVDT || IAU || kg kg-1 || xyz || specific humidity analysis increment |- | DO3DT || IAU || ppmv || xyz || ozone analysis increment |- | DTSDT || IAU || K || xy || skin temparature increment |- | FLX || Irrad || W m-2 || xyz || net downward longwave flux in air |- | FLXA || Irrad || W m-2 || xyz || net downward longwave flux in air and no aerosol |- | FLXD || Irrad || W m-2 || xyz || downward longwave flux in air |- | FLXAD || Irrad || W m-2 || xyz || downward longwave flux in air and no aerosol |- | FLXU || Irrad || W m-2 || xyz || upward longwave flux in air |- | FLXAU || Irrad || W m-2 || xyz || upward longwave flux in air and no aerosol |- | FLC || Irrad || W m-2 || xyz || net downward longwave flux in air assuming clear sky |- | FLCD || Irrad || W m-2 || xyz || downward longwave flux in air assuming clear sky |- | FLCU || Irrad || W m-2 || xyz || upward longwave flux in air assuming clear sky |- | FLA || Irrad || W m-2 || xyz || net downward longwave flux in air assuming clear sky and no aerosol |- | FLAD || Irrad || W m-2 || xyz || downward longwave flux in air assuming clear sky and no aerosol |- | FLAU || Irrad || W m-2 || xyz || upward longwave flux in air assuming clear sky and no aerosol |- | SFCEM || Irrad || W m-2 || xy || longwave flux emitted from surface |- | SFCEM0 || Irrad || W m-2 || xy || longwave flux emitted from surface at reference time |- | LWS0 || Irrad || W m-2 || xy || surface absorbed longwave radiation at reference time |- | DSFDTS || Irrad || W m-2 K-1 || xy || sensitivity of longwave flux emitted from surface to surface temperature |- | DSFDTS0 || Irrad || W m-2 K-1 || xy || sensitivity of longwave flux emitted from surface to surface temperature at reference time |- | TSREFF || Irrad || K || xy || surface temperature |- | OLR || Irrad || W m-2 || xy || upwelling longwave flux at toa |- | OLRA || Irrad || W m-2 || xy || upwelling longwave flux at toa and no aerosol |- | OLC || Irrad || W m-2 || xy || upwelling longwave flux at toa assuming clear sky |- | OLA || Irrad || W m-2 || xy || upwelling longwave flux at toa assuming clear sky and no aerosol |- | FLNS || Irrad || W m-2 || xy || surface net downward longwave flux |- | FLNSNA || Irrad || W m-2 || xy || surface net downward longwave flux and no aerosol |- | FLNSC || Irrad || W m-2 || xy || surface net downward longwave flux assuming clear sky |- | FLNSA || Irrad || W m-2 || xy || surface net downward longwave flux assuming clear sky and no aerosol |- | LWS || Irrad || W m-2 || xy || surface absorbed longwave radiation |- | LWSA || Irrad || W m-2 || xy || surface absorbed longwave radiation and no aerosol |- | LCS || Irrad || W m-2 || xy || surface absorbed longwave radiation assuming clear sky |- | LAS || Irrad || W m-2 || xy || surface absorbed longwave radiation assuming clear sky and no aerosol |- | CLDTMP || Irrad || K || xy || cloud top temperature |- | CLDPRS || Irrad || Pa || xy || cloud top pressure |- | TAUIR || Irrad || W m-2 || xyz || longwave cloud optical thickness at 800 cm-1 |- | CLDTTLW || Irrad || 1 || xy || total cloud area fraction lw |- | CLDHILW || Irrad || 1 || xy || total cloud area fraction lw |- | CLDMDLW || Irrad || 1 || xy || total cloud area fraction lw |- | CLDLOLW || Irrad || 1 || xy || total cloud area fraction lw |- | EMIS || Lake || 1 || tile || surface emissivity |- | ALBVR || Lake || 1 || tile || surface albedo for visible beam |- | ALBVF || Lake || 1 || tile || surface albedo for visible diffuse |- | ALBNR || Lake || 1 || tile || surface albedo for near infrared beam |- | ALBNF || Lake || 1 || tile || surface albedo for near infrared diffuse |- | EVAPOUT || Lake || kg m-2 s-1 || tile || evaporation |- | SUBLIM || Lake || kg m-2 s-1 || tile || sublimation |- | RUNOFF || Lake || kg m-2 s-1 || tile || runoff flux |- | SHOUT || Lake || W m-2 || tile || upward sensible heat flux |- | HLWUP || Lake || W m-2 || tile || surface outgoing longwave flux |- | LWNDSRF || Lake || W m-2 || tile || surface net downward longwave flux |- | SWNDSRF || Lake || W m-2 || tile || surface net downward shortwave flux |- | HLATN || Lake || W m-2 || tile || total latent energy flux |- | TST || Lake || K || tile || surface skin temperature |- | QST || Lake || kg kg-1 || tile || surface specific humidity |- | TH || Lake || K || tile || turbulence surface skin temperature |- | QH || Lake || kg kg-1 || tile || turbulence surface specific humidity |- | UH || Lake || m s-1 || tile || turbulence surface zonal velocity |- | VH || Lake || m s-1 || tile || turbulence surface meridional velocity |- | DELTS || Lake || K || tile || change of surface skin temperature |- | DELQS || Lake || kg kg-1 || tile || change of surface specific humidity |- | CHT || Lake || kg m-2 s-1 || tile || surface heat exchange coefficient |- | CMT || Lake || kg m-2 s-1 || tile || surface momentum exchange coefficient |- | CQT || Lake || kg m-2 s-1 || tile || surface moisture exchange coefficient |- | CNT || Lake || 1 || tile || neutral drag coefficient |- | RIT || Lake || 1 || tile || surface bulk richardson number |- | PS || Lake || Pa || tile || surface pressure |- | GUST || Lake || m s-1 || tile || gustiness |- | VENT || Lake || m s-1 || tile || surface ventilation velocity |- | Z0 || Lake || m || tile || surface roughness |- | Z0H || Lake || m || tile || surface roughness for heat |- | MOT10M || Lake || K || tile || temperature 10m wind from MO sfc |- | MOQ10M || Lake || kg kg-1 || tile || humidity 10m wind from MO sfc |- | MOU10M || Lake || m s-1 || tile || zonal 10m wind from MO sfc |- | MOV10M || Lake || m s-1 || tile || meridional 10m wind from MO sfc |- | MOT2M || Lake || K || tile || temperature 2m wind from MO sfc |- | MOQ2M || Lake || kg kg-1 || tile || humidity 2m wind from MO sfc |- | MOU2M || Lake || m s-1 || tile || zonal 2m wind from MO sfc |- | MOV2M || Lake || m s-1 || tile || meridional 2m wind from MO sfc |- | MOU50M || Lake || m s-1 || tile || zonal 50m wind from MO sfc |- | MOV50M || Lake || m s-1 || tile || meridional 50m wind from MO sfc |- | OUSTAR3 || Lake || m+3 s-3 || tile || ocean ustar cubed |- | PENUVF || Lake || W m-2 || tile || downwelling uvr diffuse flux at skin base |- | PENUVR || Lake || W m-2 || tile || downwelling uvr direct flux at skin base |- | PENPAF || Lake || W m-2 || tile || downwelling par diffuse flux at skin base |- | PENPAR || Lake || W m-2 || tile || downwelling par direct flux at skin base |- | LST || Land || || || |- | TST || Land || || || |- | QST || Land || || || |- | DELTS || Land || || || |- | DELQS || Land || || || |- | ALBVR || Land || || || |- | ALBVF || Land || || || |- | ALBNR || Land || || || |- | ALBNF || Land || || || |- | EMIS || Land || || || |- | SNOWMASS || Land || || || |- | SNOWDP || Land || || || |- | GHFLX || Land || || || |- | TPUNST || Land || || || |- | TPSURF || Land || || || |- | TPSNOW || Land || || || |- | TPWLT || Land || || || |- | TPSAT || Land || || || |- | ASNOW || Land || || || |- | SHSNOW || Land || || || |- | AVETSNOW || Land || || || |- | FRSAT || Land || || || |- | FRUST || Land || || || |- | FRWLT || Land || || || |- | WET1 || Land || || || |- | WET2 || Land || || || |- | WET3 || Land || || || |- | WCSF || Land || || || |- | WCRZ || Land || || || |- | WCPR || Land || || || |- | TP1 || Land || || || |- | TP2 || Land || || || |- | TP3 || Land || || || |- | TP4 || Land || || || |- | TP5 || Land || || || |- | TP6 || Land || || || |- | EVAPOUT || Land || || || |- | SUBLIM || Land || || || |- | SHOUT || Land || || || |- | RUNOFF || Land || || || |- | EVPINT || Land || || || |- | EVPSOI || Land || || || |- | EVPVEG || Land || || || |- | EVPICE || Land || || || |- | WAT10CM || Land || || || |- | WATSOI || Land || || || |- | ICESOI || Land || || || |- | EVPSNO || Land || || || |- | BASEFLOW || Land || || || |- | RUNSURF || Land || || || |- | SMELT || Land || || || |- | HLWUP& || Land || || || |- | SWNDSRF || Land || || || |- | LWNDSRF || Land || || || |- | HLATN || Land || || || |- | QINFIL || Land || || || |- | ACCUM || Land || || || |- | EVLAND || Land || || || |- | PRLAND || Land || || || |- | SNOLAND || Land || || || |- | DRPARLAND || Land || || || |- | DFPARLAND || Land || || || |- | LHSNOW || Land || || || |- | SWNETSNOW || Land || || || |- | LWUPSNOW || Land || || || |- | LWDNSNOW || Land || || || |- | TCSORIG || Land || || || |- | TPSN1IN || Land || || || |- | TPSN1OUT || Land || || || |- | LHLAND || Land || || || |- | SHLAND || Land || || || |- | SWLAND || Land || || || |- | SWDOWNLAND || Land || || || |- | LWLAND || Land || || || |- | GHLAND || Land || || || |- | GHSNOW || Land || || || |- | GHTSKIN || Land || || || |- | SMLAND || Land || || || |- | TWLAND || Land || || || |- | TELAND || Land || || || |- | TSLAND || Land || || || |- | DWLAND || Land || || || |- | DHLAND || Land || || || |- | SPLAND || Land || || || |- | SPWATR || Land || || || |- | SPSNOW || Land || || || |- | WESNN1 || Land || || || |- | WESNN2 || Land || || || |- | WESNN3 || Land || || || |- | CAPAC& || Land || || || |- | CDCR2& || Land || || || |- | TH || Land || || || |- | QH || Land || || || |- | CHT || Land || || || |- | CQT || Land || || || |- | CMT || Land || || || |- | CNT || Land || || || |- | RIT || Land || || || |- | Z0 || Land || || || |- | D0 || Land || || || |- | Z0H || Land || || || |- | VENT || Land || || || |- | GUST || Land || || || |- | MOU50M || Land || || || |- | MOV50M || Land || || || |- | MOT10M || Land || || || |- | MOQ10M || Land || || || |- | MOU10M || Land || || || |- | MOV10M || Land || || || |- | MOT2M || Land || || || |- | MOQ2M || Land || || || |- | MOU2M || Land || || || |- | MOV2M || Land || || || |- | ITY || Land || || || |- | LAI || Land || || || |- | GRN || Land || || || |- | ROOTL || Land || || || |- | Z2CH || Land || || || |- | EMIS || Landice || 1 || tile || surface emissivity |- | ALBVR || Landice || 1 || tile || surface albedo for visible beam |- | ALBVF || Landice || 1 || tile || surface albedo for visible diffuse |- | ALBNR || Landice || 1 || tile || surface albedo for near infrared beam |- | ALBNF || Landice || 1 || tile || surface albedo for near infrared diffuse |- | TST || Landice || K || tile || surface skin temperature |- | LST || Landice || K || tile || land surface skin temperature |- | QST || Landice || kg kg-1 || tile || surface specific humidity |- | TH || Landice || K || tile || turbulence surface skin temperature |- | QH || Landice || kg kg-1 || tile || turbulence surface specific humidity |- | DELTS || Landice || K || tile || change of surface skin temperature |- | DELQS || Landice || kg kg-1 || tile || change of surface specific humidity |- | CHT || Landice || kg m-2 s-1 || tile || surface heat exchange coefficient |- | CMT || Landice || kg m-2 s-1 || tile || surface momentum exchange coefficient |- | CQT || Landice || kg m-2 s-1 || tile || surface moisture exchange coefficient |- | CNT || Landice || 1 || tile || neutral drag coefficient |- | RIT || Landice || 1 || tile || surface bulk richardson number |- | ACCUM || Landice || kg m-2 s-1 || tile || net ice accumulation rate |- | EVPICE_GL || Landice || W m-2 || tile || snow ice evaporation energy flux over glaciated surface |- | SUBLIM || Landice || kg m-2 s-1 || tile || sublimation |- | SNOMAS_GL || Landice || kg m-2 || tile || snow mass over glaciated surface |- | SNOWMASS || Landice || kg m-2 || tile || snow mass over glaciated surface |- | SNOWDP_GL || Landice || m || tile || snow depth over glaciated surface |- | ASNOW_GL || Landice || 1 || tile || fractional area of glaciated surface snowcover |- | RHOSNOW || Landice || kg m-3 || tile || snow layer density |- | TSNOW || Landice || deg C || tile || snow layer temperature |- | TICE0 || Landice || deg C || tile || aggregated ice layer temperature |- | WSNOW || Landice || kg m-2 || tile || snow layer water content |- | ZSNOW || Landice || m || tile || snow layer thickness |- | DRHOS0 || Landice || kg m-3 || tile || snow layer density change due to densification |- | WESNEX || Landice || kg m-2 s-1 || tile || snow layer mass residual due to densification |- | WESNEXT || Landice || kg m-2 s-1 || tile || total snow mass residual due to densification |- | WESNSC || Landice || kg m-2 s-1 || tile || top snow layer mass change due to sub con |- | SNDZSC || Landice || m s-1 || tile || top snow layer thickness change due to sub con |- | WESNPREC || Landice || kg m-2 s-1 || tile || top snow layer mass change due to precip |- | SNDZPREC || Landice || m s-1 || tile || top snow layer thickness change due to precip |- | SNDZ1PERC || Landice || m s-1 || tile || top snow layer thickness change due to percolation |- | WESNPERC || Landice || kg m-2 s-1 || tile || snow layer mass change due to percolation |- | WESNDENS || Landice || kg m-2 s-1 || tile || snow layer mass change due to densification |- | WESNREPAR || Landice || kg m-2 s-1 || tile || snow layer mass change due to repartition |- | WESNBOT || Landice || kg m-2 s-1 || tile || frozen runoff due to fixed max depth |- | RAINRFZ || Landice || kg m-2 s-1 || tile || contribution to smb from refreezed rain over bare ice |- | SMELT || Landice || kg m-2 s-1 || tile || snowmelt flux |- | IMELT || Landice || kg m-2 s-1 || tile || icemelt flux |- | SNOWALB || Landice || 1 || tile || snow broadband albedo |- | SNICEALB || Landice || 1 || tile || aggregated snow ice broadband albedo |- | MELTWTR || Landice || kg m-2 s-1 || tile || melt water production |- | MELTWTRCONT || Landice || kg m-2 || tile || melt water content |- | LWC || Landice || 1 || tile || liquid water content in top x m |- | RUNOFF || Landice || kg m-2 s-1 || tile || runoff flux |- | GUST || Landice || m s-1 || tile || gustiness |- | VENT || Landice || m s-1 || tile || surface ventilation velocity |- | Z0 || Landice || m || tile || surface roughness |- | Z0H || Landice || m || tile || surface roughness for heat |- | MOT2M || Landice || K || tile || temperature 2m wind from MO sfc |- | MOQ2M || Landice || kg kg-1 || tile || humidity 2m wind from MO sfc |- | MOU2M || Landice || m s-1 || tile || zonal 2m wind from MO sfc |- | MOV2M || Landice || m s-1 || tile || meridional 2m wind from MO sfc |- | MOT10M || Landice || K || tile || temperature 10m wind from MO sfc |- | MOQ10M || Landice || kg kg-1 || tile || humidity 10m wind from MO sfc |- | MOU10M || Landice || m s-1 || tile || zonal 10m wind from MO sfc |- | MOV10M || Landice || m s-1 || tile || meridional 10m wind from MO sfc |- | MOU50M || Landice || m s-1 || tile || zonal 50m wind from MO sfc |- | MOV50M || Landice || m s-1 || tile || meridional 50m wind from MO sfc |- | EVAPOUT || Landice || kg m-2 s-1 || tile || evaporation |- | SHOUT || Landice || W m-2 || tile || upward sensible heat flux |- | HLWUP || Landice || W m-2 || tile || surface outgoing longwave flux |- | LWNDSRF || Landice || W m-2 || tile || surface net downward longwave flux |- | SWNDSRF || Landice || W m-2 || tile || surface net downward shortwave flux |- | HLATN || Landice || W m-2 || tile || total latent energy flux |- | DNICFLX || Landice || W m-2 || tile || downward heat flux in ice |- | GHSNOW || Landice || W m-2 || tile || Ground heating snow |- | GHTSKIN || Landice || W m-2 || tile || Ground heating for tskin |- | ITY || Landice || 1 || tile || vegetation type |- | || MAMchem || kg kg-1 || xyz || aerosol mixing ratios |- | || MAMchem || kg kg-1 || xyz || aerosol cloud interaction |- | || MAMchem || # m-2 s-1 || xy || UNKNOWN |- | || MAMchem || kg m-2 s-1 || xy || UNKNOWN |- | || MAMchem || # m-2 s-1 || xy || UNKNOWN |- | || MAMchem || kg m-2 s-1 || xy || UNKNOWN |- | || MAMchem || kg m-2 s-1 || xy || aerosol deposition |- | SSMASS || MAMchem || kg kg-1 || xyz || Sea Salt Mass Mixing Ratio |- | SSMASS25 || MAMchem || kg kg-1 || xyz || Sea Salt Mass Mixing Ratio - PM 2.5 |- | SSCONC || MAMchem || kg m-3 || xyz || Sea Salt Mass Concentration |- | SSSMASS || MAMchem || kg m-3 || xy || Sea Salt Surface Mass Concentration |- | SSCMASS || MAMchem || kg m-2 || xy || Sea Salt Column Mass Density |- | SSSMASS25 || MAMchem || kg m-3 || xy || Sea Salt Surface Mass Concentration - PM 2.5 |- | SSCMASS25 || MAMchem || kg m-2 || xy || Sea Salt Column Mass Density - PM 2.5 |- | SSEMAIT || MAMchem || kg m-2 s-1 || xy || Sea Salt Emission Aitken mode |- | SSEMACC || MAMchem || kg m-2 s-1 || xy || Sea Salt Emission Accumulation mode |- | SSEMFSS || MAMchem || kg m-2 s-1 || xy || Sea Salt Emission Fine Seasalt mode |- | SSEMCSS || MAMchem || kg m-2 s-1 || xy || Sea Salt Emission Coarse Seasalt mode |- | DP_SS_AIT || MAMchem || kg m-2 s-1 || xy || Sea Salt Dry Deposition Aitken mode |- | DP_SS_ACC || MAMchem || kg m-2 s-1 || xy || Sea Salt Dry Deposition Accumulation mode |- | DP_SS_FSS || MAMchem || kg m-2 s-1 || xy || Sea Salt Dry Deposition Fine Seasalt mode |- | DP_SS_CSS || MAMchem || kg m-2 s-1 || xy || Sea Salt Dry Deposition Coarse Seasalt mode |- | SSFLUXU || MAMchem || kg m-1 s-1 || xy || Sea Salt column u-wind mass flux |- | SSFLUXV || MAMchem || kg m-1 s-1 || xy || Sea Salt column v-wind mass flux |- | DUMASS || MAMchem || kg kg-1 || xyz || Dust Mass Mixing Ratio |- | DUMASS25 || MAMchem || kg kg-1 || xyz || Dust Mass Mixing Ratio - PM 2.5 |- | DUCONC || MAMchem || kg m-3 || xyz || Dust Mass Concentration |- | DUSMASS || MAMchem || kg m-3 || xy || Dust Surface Mass Concentration |- | DUCMASS || MAMchem || kg m-2 || xy || Dust Column Mass Density |- | DUSMASS25 || MAMchem || kg m-3 || xy || Dust Surface Mass Concentration - PM 2.5 |- | DUCMASS25 || MAMchem || kg m-2 || xy || Dust Column Mass Density - PM 2.5 |- | DUEMFDU || MAMchem || kg m-2 s-1 || xy || Dust Emission Fine Dust mode |- | DUEMCDU || MAMchem || kg m-2 s-1 || xy || Dust Emission Coarse Dust mode |- | DP_DU_FDU || MAMchem || kg m-2 s-1 || xy || Dust Dry Deposition Fine Seasalt mode |- | DP_DU_CDU || MAMchem || kg m-2 s-1 || xy || Dust Dry Deposition Coarse Seasalt mode |- | DUFLUXU || MAMchem || kg m-1 s-1 || xy || Dust column u-wind mass flux |- | DUFLUXV || MAMchem || kg m-1 s-1 || xy || Dust column v-wind mass flux |- | DP_SU_AIT || MAMchem || kg m-2 s-1 || xy || Sulfate Sedimentation Aitken mode |- | DP_SU_ACC || MAMchem || kg m-2 s-1 || xy || Sulfate Sedimentation Accumulation mode |- | DP_SU_FSS || MAMchem || kg m-2 s-1 || xy || Sulfate Sedimentation Fine Seasalt mode |- | DP_SU_FDU || MAMchem || kg m-2 s-1 || xy || Sulfate Sedimentation Fine Dust mode |- | DP_SU_CSS || MAMchem || kg m-2 s-1 || xy || Sulfate Sedimentation Coarse Seasalt mode |- | DP_SU_CDU || MAMchem || kg m-2 s-1 || xy || Sulfate Sedimentation Coarse Dust mode |- | DP_AMM_AIT || MAMchem || kg m-2 s-1 || xy || Ammonium Sedimentation Aitken mode |- | DP_AMM_ACC || MAMchem || kg m-2 s-1 || xy || Ammonium Sedimentation Accumulation mode |- | DP_AMM_FSS || MAMchem || kg m-2 s-1 || xy || Ammonium Sedimentation Fine Seasalt mode |- | DP_AMM_FDU || MAMchem || kg m-2 s-1 || xy || Ammonium Sedimentation Fine Dust mode |- | DP_AMM_CSS || MAMchem || kg m-2 s-1 || xy || Ammonium Sedimentation Coarse Seasalt mode |- | DP_AMM_CDU || MAMchem || kg m-2 s-1 || xy || Ammonium Sedimentation Coarse Dust mode |- | DP_SOA_AIT || MAMchem || kg m-2 s-1 || xy || SOA Sedimentation Aitken mode |- | DP_SOA_ACC || MAMchem || kg m-2 s-1 || xy || SOA Sedimentation Accumulation mode |- | POMEMPCM || MAMchem || kg m-2 s-1 || xy || POM Emission Primary Carbon mode |- | DP_POM_ACC || MAMchem || kg m-2 s-1 || xy || POM Sedimentation Accumulation mode |- | DP_POM_PCM || MAMchem || kg m-2 s-1 || xy || POM Sedimentation Primary Carbon mode |- | BCEMPCM || MAMchem || kg m-2 s-1 || xy || Black Carbon Emission Primary Carbon mode |- | DP_BC_ACC || MAMchem || kg m-2 s-1 || xy || Black Carbon Sedimentation Accumulation mode |- | DP_BC_PCM || MAMchem || kg m-2 s-1 || xy || Black Carbon Sedimentation Primary Carbon mode |- | SUEMACC || MAMchem || kg m-2 s-1 || xy || SO4 Emission Accumulation mode |- | AITCMASS || MAMchem || kg m-2 || xy || Column Mass Density Aitken mode |- | ACCCMASS || MAMchem || kg m-2 || xy || Column Mass Density Accumulation mode |- | PCMCMASS || MAMchem || kg m-2 || xy || Column Mass Density Primary Carbon mode |- | FSSCMASS || MAMchem || kg m-2 || xy || Column Mass Density Fine Seasalt mode |- | CSSCMASS || MAMchem || kg m-2 || xy || Column Mass Density Coarse Seasalt mode |- | FDUCMASS || MAMchem || kg m-2 || xy || Column Mass Density Fine Dust mode |- | CDUCMASS || MAMchem || kg m-2 || xy || Column Mass Density Coarse Dust mode |- | TOTEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness |- | TOTSCATAU || MAMchem || 1 || xy || Aerosol Scattering Optical Thickness |- | AITEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness Aitken mode |- | AITSCATAU || MAMchem || 1 || xy || Scattering Optical Thickness Aitken mode |- | ACCEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness Accumulation mode |- | ACCSCATAU || MAMchem || 1 || xy || Aerosol Scattering Optical Thickness Accumulation mode |- | PCMEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness Primary Carbon mode |- | PCMSCATAU || MAMchem || 1 || xy || Aerosol Scattering Optical Thickness Primary Carbon mode |- | FSSEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness Fine Seasalt mode |- | FSSSCATAU || MAMchem || 1 || xy || Aerosol Scattering Optical Thickness Fine Seasalt mode |- | CSSEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness Coarse Seasalt mode |- | CSSSCATAU || MAMchem || 1 || xy || Aerosol Scattering Optical Thickness Coarse Seasalt mode |- | FDUEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness Fine Dust mode |- | FDUSCATAU || MAMchem || 1 || xy || Aerosol Scattering Optical Thickness Fine Dust mode |- | CDUEXTTAU || MAMchem || 1 || xy || Aerosol Optical Thickness Coarse Dust mode |- | CDUSCATAU || MAMchem || 1 || xy || Aerosol Scattering Optical Thickness Coarse Dust mode |- | SFC_NUM_AIT || MAMchem || m-3 || xy || Number of particles in Aitken mode in the surface model layer |- | SFC_WTR_AIT || MAMchem || kg m-3 || xy || Aerosol water in Aitken mode in the surface model layer |- | SFC_DGN_DRY_AIT || MAMchem || m || xy || Dry size of Aitken mode number size distribution in the surface model layer |- | SFC_DGN_WET_AIT || MAMchem || m || xy || Wet size of Aitken mode number size distribution in the surface model layer |- | SFC_NUM_ACC || MAMchem || m-3 || xy || Number of particles in Accumulation mode in the surface model layer |- | SFC_WTR_ACC || MAMchem || kg m-3 || xy || Aerosol water in Accumulation mode in the surface model layer |- | SFC_DGN_DRY_ACC || MAMchem || m || xy || Dry size of Accumulation mode number size distribution in the surface model layer |- | SFC_DGN_WET_ACC || MAMchem || m || xy || Wet size of Accumulation mode number size distribution in the surface model layer |- | SFC_NUM_PCM || MAMchem || m-3 || xy || Number of particles in Primary Carbon mode in the surface model layer |- | SFC_WTR_PCM || MAMchem || kg m-3 || xy || Aerosol water in Primary Carbon mode in the surface model layer |- | SFC_DGN_DRY_PCM || MAMchem || m || xy || Dry size of Primary Carbon mode number size distribution in the surface model layer |- | SFC_DGN_WET_PCM || MAMchem || m || xy || Wet size of Primary Carbon mode number size distribution in the surface model layer |- | SFC_NUM_FSS || MAMchem || m-3 || xy || Number of particles in Fine Sea Salt mode in the surface model layer |- | SFC_WTR_FSS || MAMchem || kg m-3 || xy || Aerosol water in Fine Sea Salt mode in the surface model layer |- | SFC_DGN_DRY_FSS || MAMchem || m || xy || Dry size of Fine Sea Salt mode number size distribution in the surface model layer |- | SFC_DGN_WET_FSS || MAMchem || m || xy || Wet size of Fine Sea Salt mode number size distribution in the surface model layer |- | SFC_NUM_FDU || MAMchem || m-3 || xy || Number of particles in Fine Dust mode in the surface model layer |- | SFC_WTR_FDU || MAMchem || kg m-3 || xy || Aerosol water in Fine Dust mode in the surface model layer |- | SFC_DGN_DRY_FDU || MAMchem || m || xy || Dry size of Fine Dust mode number size distribution in the surface model layer |- | SFC_DGN_WET_FDU || MAMchem || m || xy || Wet size of Fine Dust mode number size distribution in the surface model layer |- | SFC_NUM_CSS || MAMchem || m-3 || xy || Number of particles in Coarse Sea Salt mode in the surface model layer |- | SFC_WTR_CSS || MAMchem || kg m-3 || xy || Aerosol water in Coarse Sea Salt mode in the surface model layer |- | SFC_DGN_DRY_CSS || MAMchem || m || xy || Dry size of Coarse Sea Salt mode number size distribution in the surface model layer |- | SFC_DGN_WET_CSS || MAMchem || m || xy || Wet size of Coarse Sea Salt mode number size distribution in the surface model layer |- | SFC_NUM_CDU || MAMchem || m-3 || xy || Number of particles in Coarse Dust mode in the surface model layer |- | SFC_WTR_CDU || MAMchem || kg m-3 || xy || Aerosol water in Coarse Dust mode in the surface model layer |- | SFC_DGN_DRY_CDU || MAMchem || m || xy || Dry size of Coarse Dust mode number size distribution in the surface model layer |- | SFC_DGN_WET_CDU || MAMchem || m || xy || Wet size of Coarse Dust mode number size distribution in the surface model layer |- | TOTAL_SU || MATRIXchem || ug m-3 || xyz || |- | TOTAL_DU || MATRIXchem || ug m-3 || xyz || |- | TOTAL_SS || MATRIXchem || ug m-3 || xyz || |- | TOTAL_OC || MATRIXchem || ug m-3 || xyz || |- | TOTAL_BC || MATRIXchem || ug m-3 || xyz || |- | EMISS_SSA || MATRIXchem || ug m-3 || xy || aitken seasalt emissions |- | EMISS_SSC || MATRIXchem || ug m-3 || xy || coarse seasalt emissions |- | EMISS_SS || MATRIXchem || ug m-3 || xy || seasalt emissions |- | EMISS_DUF || MATRIXchem || ug m-3 || xy || fine dust emissions |- | EMISS_DUC || MATRIXchem || ug m-3 || xy || coarse dust emissions |- | EMISS_DU || MATRIXchem || ug m-3 || xy || dust emissions |- | QCTOT || Moist || kg kg-1 || xyz || mass fraction of total cloud water |- | QLTOT || Moist || kg kg-1 || xyz || grid box mass fraction of cloud liquid water |- | QITOT || Moist || kg kg-1 || xyz || grid box mass fraction of cloud ice water |- | QRTOT || Moist || kg kg-1 || xyz || mass fraction of falling rain |- | QSTOT || Moist || kg kg-1 || xyz || mass fraction of falling snow |- | QPTOTLS || Moist || kg kg-1 || xyz || mass fraction of large scale falling precip |- | MTRI || Moist || X s-1 || xyz || tracer tendencies due to moist |- | DTHDT || Moist || Pa K s-1 || xyz || pressure weighted potential temperature tendency due to moist |- | DTDTFRIC || Moist || Pa K s-1 || xyz || pressure weighted temperature tendency due to moist friction |- | DQDT || Moist || kg kg-1 s-1 || xyz || specific humidity tendency due to moist |- | DUDT || Moist || m s-2 || xyz || zonal wind tendency due to moist |- | DVDT || Moist || m s-2 || xyz || meridional wind tendency due to moist |- | DTHDTCN || Moist || K s-1 || xyz || potential temperature tendency due to convection |- | DQDTCN || Moist || kg kg-1 s-1 || xyz || specific humidity tendency due to convection |- | DQLDT || Moist || kg kg-1 s-1 || xyz || total liq water tendency due to moist |- | DQIDT || Moist || kg kg-1 s-1 || xyz || total ice water tendency due to moist |- | DQCDTCN || Moist || kg kg-1 s-1 || xyz || condensate tendency due to convection |- | CNV_DQLDT || Moist || kg m-2 s-1 || xyz || convective condensate source |- | CNV_PRC3 || Moist || kg m-2 s-1 || xyz || convective precipitation from RAS |- | DQRL || Moist || kg kg-1 s-1 || xyz || large scale rainwater source |- | DQRC || Moist || kg kg-1 s-1 || xyz || convective rainwater source |- | CNV_MF0 || Moist || kg m-2 s-1 || xyz || cloud base mass flux |- | CNV_MFD || Moist || kg m-2 s-1 || xyz || detraining mass flux |- | CNV_MFC || Moist || kg m-2 s-1 || xyz || cumulative mass flux |- | CNV_FREQ || Moist || fraction || xy || convective frequency |- | CNV_BASEP || Moist || Pa || xy || pressure at convective cloud base |- | CNV_TOPP || Moist || Pa || xy || pressure at convective cloud top |- | CNV_UPDF || Moist || 1 || xyz || updraft areal fraction |- | CNV_CVW || Moist || hPa s-1 || xyz || updraft vertical velocity |- | CNV_QC || Moist || kg kg-1 || xyz || grid mean convective condensate |- | RL || Moist || m || xyz || liquid cloud particle effective radius |- | RI || Moist || m || xyz || ice phase cloud particle effective radius |- | RR || Moist || m || xyz || falling rain particle effective radius |- | RS || Moist || m || xyz || falling ice particle effective radius |- | CLDNCCN || Moist || m-3 || xyz || number concentration of cloud particles |- | QSATI || Moist || kg kg-1 || xyz || saturation spec hum over ice |- | QSATL || Moist || kg kg-1 || xyz || saturation spec hum over liquid |- | ALPHT || Moist || 1 || xyz || pdf spread for condensation over qsat total |- | ALPH1 || Moist || 1 || xyz || pdf spread for condensation over qsat term1 |- | ALPH2 || Moist || 1 || xyz || pdf spread for condensation over qsat term2 |- | CFPDFX || Moist || 1 || xyz || cloud fraction internal in PDF scheme |- | RHCLR || Moist || 1 || xyz || RH clear sky |- | CFPDF || Moist || 1 || xyz || cloud fraction after PDF |- | FCLD || Moist || 1 || xyz || cloud fraction for radiation |- | QV || Moist || kg kg-1 || xyz || water vapor for radiation |- | QL || Moist || kg kg-1 || xyz || in cloud cloud liquid for radiation |- | QI || Moist || kg kg-1 || xyz || in cloud cloud ice for radiation |- | QR || Moist || kg kg-1 || xyz || Falling rain for radiation |- | QS || Moist || kg kg-1 || xyz || Falling snow for radiation |- | DBZ || Moist || dBZ || xyz || Simulated radar reflectivity |- | DBZ_MAX || Moist || dBZ || xy || Maximum simulated radar reflectivity |- | LS_PRCP || Moist || kg m-2 s-1 || xy || nonanvil large scale precipitation |- | AN_PRCP || Moist || kg m-2 s-1 || xy || anvil precipitation |- | CN_PRCP || Moist || kg m-2 s-1 || xy || convective precipitation |- | ER_PRCP || Moist || kg m-2 s-1 || xy || spurious rain from RH cleanup |- | FILLNQV || Moist || kg m-2 s-1 || xy || filling of negative Q |- | PGENTOT || Moist || kg m-2 s-1 || xy || Total column production of precipitation |- | PREVTOT || Moist || kg m-2 s-1 || xy || Total column re-evapsubl of precipitation |- | LS_ARF || Moist || 1 || xy || areal fraction of nonanvil large scale showers |- | AN_ARF || Moist || 1 || xy || areal fraction of anvil showers |- | CN_ARF || Moist || 1 || xy || areal fraction of convective showers |- | SNO || Moist || kg m-2 s-1 || xy || snowfall |- | PCU || Moist || kg m-2 s-1 || xy || convective rainfall |- | PLS || Moist || kg m-2 s-1 || xy || large scale rainfall |- | TPREC || Moist || kg m-2 s-1 || xy || total precipitation |- | HOURNORAIN || Moist || s || xy || time-during an hour with no precipitation |- | TPW || Moist || kg m-2 || xy || total precipitable water |- | CCWP || Moist || kg m-2 || xy || grid mean conv cond water path diagnostic |- | CWP || Moist || kg m-2 || xy || condensed water path |- | LWP || Moist || kg m-2 || xy || liquid water path |- | IWP || Moist || kg m-2 || xy || ice water path |- | BYNCY || Moist || m s-2 || xyz || buoyancy of surface parcel |- | CAPE || Moist || J kg-1 || xy || cape for surface parcel |- | INHB || Moist || J kg-1 || xy || inhibition for surface parcel |- | TVQ0 || Moist || kg m-2 || xy || Total Water Substance Before |- | TVQ1 || Moist || kg m-2 || xy || Total Water Substance After |- | DCPTE || Moist || J m-2 || xy || Total VI DcpT |- | TVE0 || Moist || J m-2 || xy || Total VI MSE Before |- | TVE1 || Moist || J m-2 || xy || Total VI MSE After |- | TVEX || Moist || J m-2 || xy || Total VI MSE Somewhere |- | ZPBLCN || Moist || m || xy || boundary layer depth |- | ZLCL || Moist || m || xy || lifting condensation level |- | ZLFC || Moist || m || xy || level of free convection |- | ZCBL || Moist || m || xy || height of cloud base layer |- | MXDIAM || Moist || m || xy || diameter of largest RAS plume |- | RH600 || Moist || kgkg || xy || rh at 600mb |- | Q600 || Moist || kgkg || xy || q at 600mb |- | CNV_FRC || Moist || || xy || convective fraction |- | RASTIME || Moist || s || xy || timescale for deep RAS plumes |- | RASPBLQ || Moist || (m+3 s-1)+12 || xy || sqrt of integral KH dz |- | ENTLAM || Moist || m-1 || xyz || entrainment parameter |- | QLCN || Moist || 1 || xyz || mass fraction of convective cloud liquid water |- | QICN || Moist || 1 || xyz || mass fraction of convective cloud ice water |- | CLLS || Moist || 1 || xyz || large scale cloud volume fraction |- | CLCN || Moist || 1 || xyz || convective cloud volume fraction |- | RH1 || Moist || 1 || xyz || relative humidity before moist |- | RH2 || Moist || 1 || xyz || relative humidity after moist |- | TH_moist || Moist || K || xyz || potential temp before moist |- | Q_moist || Moist || kg kg-1 || xyz || specific humidity before moist |- | KCBL_moist || Moist || 1 || xy || KCBL before moist |- | ctop_moist || Moist || 1 || xy || ctop after ras |- | TS_moist || Moist || K || xy || surface temp before moist |- | KHu_moist || Moist || 1 || xy || upper index where Kh greater than 2 |- | KHl_moist || Moist || 1 || xy || lower index where Kh greater than 2 |- | RHX || Moist || 1 || xyz || relative humidity after PDF |- | REVSU_CN || Moist || kg kg-1 s-1 || xyz || evap subl of convective precipitation |- | REVSU_LSAN || Moist || kg kg-1 s-1 || xyz || evap subl of non convective precipitation |- | REV_CN || Moist || kg kg-1 s-1 || xyz || evaporation of convective precipitation |- | REV_AN || Moist || kg kg-1 s-1 || xyz || evaporation of anvil precipitation |- | REV_LS || Moist || kg kg-1 s-1 || xyz || evaporation of nonanvil large scale precipitation |- | RSU_CN || Moist || kg kg-1 s-1 || xyz || sublimation of convective precipitation |- | RSU_AN || Moist || kg kg-1 s-1 || xyz || sublimation of anvil precipitation |- | RSU_LS || Moist || kg kg-1 s-1 || xyz || sublimation of nonanvil large scale precipitation |- | ACR_TOT || Moist || kg kg-1 s-1 || xyz || total accretion of precipitation |- | ACRLL_CN || Moist || kg kg-1 s-1 || xyz || liq liq accretion of convective precipitation |- | ACRLL_AN || Moist || kg kg-1 s-1 || xyz || liq liq accretion of anvil precipitation |- | ACRLL_LS || Moist || kg kg-1 s-1 || xyz || liq liq accretion of nonanvil large scale precipitation |- | ACRIL_CN || Moist || kg kg-1 s-1 || xyz || ice liq accretion of convective precipitation |- | ACRIL_AN || Moist || kg kg-1 s-1 || xyz || ice liq accretion of anvil precipitation |- | ACRIL_LS || Moist || kg kg-1 s-1 || xyz || ice liq accretion of nonanvil large scale precipitation |- | PFI_CN || Moist || kg m-2 s-1 || xyz || 3D flux of ice convective precipitation |- | PFI_AN || Moist || kg m-2 s-1 || xyz || 3D flux of ice anvil precipitation |- | PFI_LS || Moist || kg m-2 s-1 || xyz || 3D flux of ice nonanvil large scale precipitation |- | PFI_LSAN || Moist || kg m-2 s-1 || xyz || 3D flux of ice nonconvective precipitation |- | PFL_CN || Moist || kg m-2 s-1 || xyz || 3D flux of liquid convective precipitation |- | PFL_AN || Moist || kg m-2 s-1 || xyz || 3D flux of liquid anvil precipitation |- | PFL_LS || Moist || kg m-2 s-1 || xyz || 3D flux of liquid nonanvil large scale precipitation |- | PFL_LSAN || Moist || kg m-2 s-1 || xyz || 3D flux of liquid nonconvective precipitation |- | DPDTMST || Moist || Pa s-1 || xyz || layer pressure thickness tendency from moist |- | DCNVL || Moist || kg kg-1 s-1 || xyz || convective source of cloud liq |- | DCNVI || Moist || kg kg-1 s-1 || xyz || convective source of cloud ice |- | DLPDF || Moist || kg kg-1 s-1 || xyz || pdf source sink of cloud liq |- | DIPDF || Moist || kg kg-1 s-1 || xyz || pdf source sink of cloud ice |- | DLFIX || Moist || kg kg-1 s-1 || xyz || fix source sink of cloud liq |- | DIFIX || Moist || kg kg-1 s-1 || xyz || fix source sink of cloud ice |- | AUT || Moist || kg kg-1 s-1 || xyz || autoconv sink of cloud liq |- | EVAPC || Moist || kg kg-1 s-1 || xyz || evaporation of cloud liq |- | SDM || Moist || kg kg-1 s-1 || xyz || sedimentation sink of cloud ice |- | VFALLICE_AN || Moist || m s-1 || xyz || autoconversion fall velocity of anvil snow |- | VFALLICE_LS || Moist || m s-1 || xyz || autoconversion fall velocity of largescale snow |- | VFALLWAT_AN || Moist || m s-1 || xyz || autoconversion fall velocity of anvil rain |- | VFALLWAT_LS || Moist || m s-1 || xyz || autoconversion fall velocity of largescale rain |- | VFALLRN_AN || Moist || m s-1 || xyz || reevaporation fall velocity of anvil rain |- | VFALLRN_LS || Moist || m s-1 || xyz || reevaporation fall velocity of largescale rain |- | VFALLRN_CN || Moist || m s-1 || xyz || reevaporation fall velocity of convective rain |- | VFALLSN_AN || Moist || m s-1 || xyz || reevaporation fall velocity of anvil snow |- | VFALLSN_LS || Moist || m s-1 || xyz || reevaporation fall velocity of largescale snow |- | VFALLSN_CN || Moist || m s-1 || xyz || reevaporation fall velocity of convective snow |- | SUBLC || Moist || kg kg-1 s-1 || xyz || sublimation of cloud ice |- | FRZ_TT || Moist || kg kg-1 s-1 || xyz || freezing of cloud condensate |- | FRZ_PP || Moist || kg kg-1 s-1 || xyz || freezing of precip condensate |- | PFRZ || Moist || 1 || xyz || Probability of freezing of aerosol part |- | PFLCNMOVE || Moist || kg kg-1 s-1 || xyz || moved source of cnv rain |- | PFICNMOVE || Moist || kg kg-1 s-1 || xyz || moved source of cnv snow |- | CU2DRAINMOVE || Moist || kg kg-1 s-1 || xy || moved 2d source of cnv rain |- | CU2DSNOWMOVE || Moist || kg kg-1 s-1 || xy || moved 2d source of cnv snow |- | PDFLZ || Moist || kg m-2 s-1 || xy || statistical source of cloud water |- | PDFIZ || Moist || kg m-2 s-1 || xy || statistical source of cloud ice |- | CNVRNZ || Moist || kg m-2 s-1 || xy || convective production of rain water |- | CNVLZ || Moist || kg m-2 s-1 || xy || convective source of cloud water |- | CNVIZ || Moist || kg m-2 s-1 || xy || convective source of cloud ice |- | EVPCZ || Moist || kg m-2 s-1 || xy || evaporation loss of cloud water |- | SUBCZ || Moist || kg m-2 s-1 || xy || sublimation loss of cloud ice |- | EVPPZ || Moist || kg m-2 s-1 || xy || evaporation loss of precip water |- | SUBPZ || Moist || kg m-2 s-1 || xy || sublimation loss of precip ice |- | AUTZ || Moist || kg m-2 s-1 || xy || autoconversion loss of cloud water |- | SDMZ || Moist || kg m-2 s-1 || xy || sedimentation loss of cloud ice |- | COLLLZ || Moist || kg m-2 s-1 || xy || accretion loss of cloud water to rain |- | COLLIZ || Moist || kg m-2 s-1 || xy || accretion loss of cloud water to snow |- | FRZCZ || Moist || kg m-2 s-1 || xy || net freezing of cloud condensate |- | FRZPZ || Moist || kg m-2 s-1 || xy || net freezing of precip condensate |- | RCCODE || Moist || codes || xyz || Convection return codes |- | TRIEDLV || Moist || 0 or 1 || xyz || Tested for convection at this level |- | QVRAS || Moist || kg kg-1 || xyz || water vapor after ras |- | THRAS || Moist || K || xyz || potential temperature after ras |- | URAS || Moist || m s-1 || xyz || eastward wind after ras |- | VRAS || Moist || m s-1 || xyz || northward wind after ras |- | THOI || Moist || K || xyz || potential temperature before ras |- | QHOI || Moist || kg kg-1 || xyz || specific humidity before ras |- | QSSI || Moist || kg kg-1 || xyz || saturation specific humidity before ras |- | DQSI || Moist || kg kg-1 K-1 || xyz || deriv sat specific humidity wrt t before ras |- | PLEI || Moist || Pa || xyz || air pressure before ras |- | TPERTI || Moist || K || xy || temperature perturbation before ras |- | KCBLI || Moist || 1 || xy || cloud base layer before ras |- | QX0 || Moist || kg kg-1 || xyz || specific humidity |- | QLLSX0 || Moist || kg kg-1 || xyz || initial mass fraction of large scale cloud liquid water |- | QLLSX1 || Moist || kg kg-1 || xyz || final mass fraction of large scale cloud liquid water |- | QLCNX0 || Moist || kg kg-1 || xyz || initial mass fraction of convective cloud liquid water |- | QLCNX1 || Moist || kg kg-1 || xyz || final mass fraction of convective cloud liquid water |- | CLLSX0 || Moist || 1 || xyz || large scale cloud area fraction |- | CLCNX0 || Moist || 1 || xyz || convective cloud area fraction |- | QILSX0 || Moist || kg kg-1 || xyz || initial mass fraction of large scale cloud ice water |- | QILSX1 || Moist || kg kg-1 || xyz || final mass fraction of large scale cloud ice water |- | QICNX0 || Moist || kg kg-1 || xyz || initial mass fraction of convective cloud ice water |- | QICNX1 || Moist || kg kg-1 || xyz || final mass fraction of convective cloud ice water |- | QCCNX0 || Moist || kg kg-1 || xyz || initial mass fraction of convective cloud condensate |- | QCLSX0 || Moist || kg kg-1 || xyz || initial mass fraction of large scale cloud condensate |- | KHX0 || Moist || m+2 s-1 || xyz || scalar diffusivity |- | THX0 || Moist || K || xyz || potential temperature |- | UX0 || Moist || m s-1 || xyz || eastward wind |- | VX0 || Moist || m s-1 || xyz || northward wind |- | TSX0 || Moist || K || xy || surface temperature |- | FRLANDX0 || Moist || 1 || xy || areal land fraction |- | DDF_MFC || Moist || kg m-2 s-1 || xyz || Downdraft mass flux |- | DDF_RH1 || Moist || 1 || xyz || Downdraft in cloud RH before |- | DDF_RH2 || Moist || 1 || xyz || Downdraft in cloud RH after |- | DDF_TC || Moist || K || xyz || Temperature excess in DDF |- | DDF_QVC || Moist || kg kg-1 || xyz || Spec hum excess in DDF |- | DDF_BYNC || Moist || m s-2 || xyz || Buoyancy of DDF |- | DDF_MUPH || Moist || kg kg-1 s-1 || xyz || Downdraft moistening from evap subl |- | DDF_DQDT || Moist || kg kg-1 s-1 || xyz || Total Downdraft moistening |- | DDF_DTDT || Moist || K s-1 || xyz || Total Downdraft heating |- | DDF_ZSCALE || Moist || m || xy || vertical scale for downdraft |- | KEDISS || Moist || W m-2 || xyz || kinetic energy diss in RAS |- | KEMST || Moist || W m-2 || xy || vertically integrated kinetic energy tendency across moist |- | KEMST2 || Moist || W m-2 || xy || vertically integrated KE dissipation in RAS |- | DDUDT || Moist || kg m-2 s-1 || xy || dust tendency due to conv scav |- | DSSDT || Moist || kg m-2 s-1 || xy || sea salt tendency due to conv scav |- | DOCDT || Moist || kg m-2 s-1 || xy || organic carbon tendency due to conv scav |- | DBCDT || Moist || kg m-2 s-1 || xy || black carbon tendency due to conv scav |- | DSUDT || Moist || kg m-2 s-1 || xy || sulfate tendency due to conv scav |- | DDUDTcarma || Moist || kg m-2 s-1 || xy || carma dust tendency due to conv scav |- | DSSDTcarma || Moist || kg m-2 s-1 || xy || carma seasalt tendency due to conv scav |- | LFR || Moist || km-2 s-1 || xy || lightning flash rate |- | A1X1 || Moist || km-2 s-1 || xy || LFR Term number 1 |- | A2X2 || Moist || km-2 s-1 || xy || LFR Term number 2 |- | A3X3 || Moist || km-2 s-1 || xy || LFR Term number 3 |- | A4X4 || Moist || km-2 s-1 || xy || LFR Term number 4 |- | A5X5 || Moist || km-2 s-1 || xy || LFR Term number 5 |- | THMOIST || Moist || K || xyz || potential temperature after all of moist |- | SMOIST || Moist || m+2 s-2 || xyz || dry static energy after all of moist |- | SMAX_LIQ || Moist || % || xyz || Maximum incloud supersaturation for liquid |- | WSUB || Moist || m s-1 || xyz || Subgrid Scale in-cloud vertical velocity |- | CCN01 || Moist || m-3 || xyz || CCN conc at 0.1 % supersaturation (grid avg) |- | CCN04 || Moist || m-3 || xyz || CCN conc at 0.4 % supersaturation (grid avg) |- | CCN1 || Moist || m-3 || xyz || CCN conc at 1.0 % supersaturation (grid avg) |- | SMAX_ICE || Moist || % || xyz || Maximum incloud supersaturation for ice |- | CDNC_NUC || Moist || m-3 || xyz || Nucleated cloud droplet concentration (grid avg) |- | INC_NUC || Moist || m-3 || xyz || Nucleated ice crystal concentration (grid avg) |- | NCPL_VOL || Moist || m-3 || xyz || particle number for liquid cloud |- | NCPI_VOL || Moist || m-3 || xyz || particle number for ice cloud |- | SO4 || Moist || m-3 || xyz || Sulfate number conc. |- | ORG || Moist || m-3 || xyz || Organic number conc. (hydrophilic) |- | BCARBON || Moist || m-3 || xyz || Black carbon number conc. (hydrophilic) |- | DUST || Moist || m-3 || xyz || Total dust number conc |- | SEASALT || Moist || m-3 || xyz || Total sea number conc |- | NHET_NUC || Moist || m-3 || xyz || Nucleated ice crystal concentration by het freezing (grid avg) |- | NLIM_NUC || Moist || m-3 || xyz || Limiting IN concentration allowing hom freezing |- | SAT_RAT || Moist || 1 || xyz || saturation ratio after moist |- | NSNOW || Moist || m-3 || xyz || Snow number concentration |- | NRAIN || Moist || m-3 || xyz || Rain number concentration |- | DQVDT_micro || Moist || kg kg-1 s-1 || xyz || Q tendency due to microphysics |- | DQLDT_micro || Moist || kg kg-1 s-1 || xyz || QL tendency due to microphysics |- | DQIDT_micro || Moist || kg kg-1 s-1 || xyz || QI tendency due to microphysics |- | DTDT_micro || Moist || K s-1 || xyz || T tendency due to microphysics |- | TVQX1 || Moist || kg m-2 || xy || Total Water Substance bef macro |- | TVQX2 || Moist || kg m-2 || xy || Total Water Substance bef micro |- | RL_MASK || Moist || m || xyz || volumetric liquid cloud particle volume radius |- | RI_MASK || Moist || m || xyz || volumetric ice cloud particle volume radius |- | KAPPA || Moist || 1 || xyz || kappa parameter for activation |- | CFLIQ || Moist || 1 || xyz || liquid cloud area fraction (LS) |- | CFICE || Moist || 1 || xyz || ice cloud area fraction (LS) |- | RHICE || Moist || 1 || xyz || Relative humidity wrt ice |- | RHLIQ || Moist || 1 || xyz || Relative humidity wrt liquid |- | SC_ICE || Moist || 1 || xyz || Effective Freezing RHi |- | NHET_IMM || Moist || m-3 || xyz || Immersion IN |- | NHET_DEP || Moist || m-3 || xyz || Deposition IN |- | NHET_DHF || Moist || m-3 || xyz || Deliquesced IN |- | DUST_IMM || Moist || m-3 || xyz || Immersion IN from dust |- | DUST_DEP || Moist || m-3 || xyz || deposition IN from dust |- | DUST_DHF || Moist || m-3 || xyz || DHF IN from dust |- | SCF || Moist || 1 || xyz || Supercooled cloud fraction |- | SCF_ALL || Moist || 1 || xyz || Supercooled cloud fraction including snow and rain |- | SIGW_GW || Moist || m2 s-2 || xyz || Subgrid Scale vertical velocity variance from GW |- | SIGW_CNV || Moist || m2 s-2 || xyz || Subgrid Scale vertical velocity variance from convection |- | SIGW_TURB || Moist || m2 s-2 || xyz || Subgrid Scale vertical velocity variance from turbulence |- | SIGW_RC || Moist || m s-1 || xyz || Mean subgrid Scale vertical velocity from rad cooling |- | CNV_FICE || Moist || 1 || xyz || Ice fraction in convective tower |- | CNV_NDROP || Moist || m-3 || xyz || Droplet number conc. in conv. detrainment |- | CNV_NICE || Moist || m-3 || xyz || Ice crystal number conc. in conv. detrainment |- | RHCmicro || Moist || 1 || xyz || Corrected RHc after micro |- | CCNCOLUMN || Moist || m-2 || xy || Vertically integrated CCN at 1% ssat |- | NDCOLUMN || Moist || m-2 || xy || Vertically integrated NCPL |- | NCCOLUMN || Moist || m-2 || xy || Vertically integrated NCPI |- | NONDUST_IMM || Moist || m-3 || xyz || Nondust Immersion IN |- | NONDUST_DEP || Moist || m-3 || xyz || Nondust deposition IN |- | BERG || Moist || Kg Kg-1 s-1 || xyz || ice mixing ration tendency due to Bergeron process |- | BERGS || Moist || Kg Kg-1 s-1 || xyz || Snow mixing ration tendency due to Bergeron process |- | MELT || Moist || Kg Kg-1 s-1 || xyz || Melting of cloud ice |- | QCRES || Moist || Kg Kg-1 s-1 || xyz || Residual cloud tendency in micro |- | QIRES || Moist || Kg Kg-1 s-1 || xyz || Residual ice cloud tendency in micro |- | AUTICE || Moist || kg kg-1 s-1 || xyz || autoconv sink of cloud ice |- | DT_RASP || Moist || K s-1 || xyz || T tendency from ras precip |- | DNHET_IMM || Moist || Kg-1 s-1 || xyz || Ice number tendency due to immersion freezing |- | DNHET_CT || Moist || Kg-1 s-1 || xyz || Ice number tendency due to contact freezing |- | DTDT_macro || Moist || K s-1 || xyz || T tendency due to macrophysics |- | DTDT_moist || Moist || K s-1 || xyz || T tendency due to moist |- | DTDTCN || Moist || K s-1 || xyz || T tendency due to convection |- | FRZPP_LS || Moist || K s-1 || xyz || Tendency in T from micro precip freezing |- | SNOWMELT_LS || Moist || K s-1 || xyz || Tendency in T from micro snow melting |- | DNCNUC || Moist || m-3 s-1 || xyz || Ice number tendency due to nucleation on aerosol |- | DNCHMSPLIT || Moist || m-3 s-1 || xyz || Ice number tendency due to H-M splittering |- | DNCSUBL || Moist || m-3 s-1 || xyz || Ice number tendency due to sublimation |- | DNCAUTICE || Moist || m-3 s-1 || xyz || Ice number tendency due to autoconversion to snow |- | DNCACRIS || Moist || m-3 s-1 || xyz || Ice number tendency due to accretion by snow |- | DNCCNV || Moist || m-3 s-1 || xyz || Ice crystal number tendency from convective detrainment |- | DNDCCN || Moist || m-3 s-1 || xyz || Cloud droplet number tendency due to activation |- | DNDACRLS || Moist || m-3 s-1 || xyz || Cloud droplet number tendency due to accretion by snow |- | DNDEVAPC || Moist || m-3 s-1 || xyz || Cloud droplet number tendency due to evaporation |- | DNDACRLR || Moist || m-3 s-1 || xyz || Cloud droplet number tendency due to accretion by rain |- | DNDAUTLIQ || Moist || m-3 s-1 || xyz || Cloud droplet number tendency due to autoconversion |- | DNDCNV || Moist || m-3 s-1 || xyz || Cloud droplet number tendency from convective detrainment |- | CLDREFFL_TOP || Moist || m || xy || Droplet effective radius at cloud top |- | CLDREFFI_TOP || Moist || m || xy || ice crystal effective radius at cloud top |- | NCPL_TOP || Moist || m-3 || xy || Grid-averaged NCPL at cloud top |- | NCPI_TOP || Moist || m-3 || xy || Grid-averaged NCPI at cloud top |- | LWC || Moist || kg m-3 || xyz || liquid water content |- | IWC || Moist || kg m-3 || xyz || ice water content |- | QCVAR_EXP || Moist || 1 || xy || inverse relative variance of cloud water |- | LTS || Moist || K || xy || Lower tropospheric stability |- | EIS || Moist || K || xy || Estimated Inversion Strength |- | NH3MASS || NI || kgkg || xyz || Ammonia Mass Mixing Ratio ENSEMBLE |- | NH4MASS || NI || kgkg || xyz || Ammonium Aerosol Mass Mixing Ratio ENSEMBLE |- | NIMASS || NI || kgkg || xyz || Nitrate Mass Mixing Ratio ENSEMBLE |- | NIMASS25 || NI || kgkg || xyz || Nitrate Mass Mixing Ratio [PM2.5] ENSEMBLE |- | HNO3CONC || NI || kg m-3 || xyz || Nitric Acid Mass Concentration ENSEMBLE |- | NH3CONC || NI || kg m-3 || xyz || Ammonia Mass Concentration ENSEMBLE |- | NH4CONC || NI || kg m-3 || xyz || Ammonium Mass Concentration ENSEMBLE |- | NICONC || NI || kg m-3 || xyz || Nitrate Mass Concentration ENSEMBLE |- | NICONC25 || NI || kg m-3 || xyz || Nitrate Mass Concentration [PM2.5] ENSEMBLE |- | NIEXTCOEF || NI || m-1 || xyz || Nitrate Extinction Coefficient [550 nm] ENSEMBLE |- | NISCACOEF || NI || m-1 || xyz || Nitrate Scattering Coefficient [550 nm] ENSEMBLE |- | NIPNO3AQ || NI || kg m-2 s-1 || xy || Nitrate Production from Aqueous Chemistry ENSEMBLE |- | NIPNH4AQ || NI || kg m-2 s-1 || xy || Ammonium Production from Aqueous Chemistry ENSEMBLE |- | NIPNH3AQ || NI || kg m-2 s-1 || xy || Ammonia Change from Aqueous Chemistry ENSEMBLE |- | NIHT001 || NI || kg m-2 s-1 || xy || Nitrate Production from Het Chem Bin 001 ENSEMBLE |- | NIHT002 || NI || kg m-2 s-1 || xy || Nitrate Production from Het Chem Bin 002 ENSEMBLE |- | NIHT003 || NI || kg m-2 s-1 || xy || Nitrate Production from Het Chem Bin 003 ENSEMBLE |- | NISD001 || NI || kg m-2 s-1 || xy || Nitrate Sedimentation Bin 001 ENSEMBLE |- | NISD002 || NI || kg m-2 s-1 || xy || Nitrate Sedimentation Bin 002 ENSEMBLE |- | NISD003 || NI || kg m-2 s-1 || xy || Nitrate Sedimentation Bin 003 ENSEMBLE |- | NIDP001 || NI || kg m-2 s-1 || xy || Nitrate Dry Deposition Bin 001 ENSEMBLE |- | NIDP002 || NI || kg m-2 s-1 || xy || Nitrate Dry Deposition Bin 002 ENSEMBLE |- | NIDP003 || NI || kg m-2 s-1 || xy || Nitrate Dry Deposition Bin 003 ENSEMBLE |- | NIWT001 || NI || kg m-2 s-1 || xy || Nitrate Wet Deposition Bin 001 ENSEMBLE |- | NIWT002 || NI || kg m-2 s-1 || xy || Nitrate Wet Deposition Bin 002 ENSEMBLE |- | NIWT003 || NI || kg m-2 s-1 || xy || Nitrate Wet Deposition Bin 003 ENSEMBLE |- | NISV001 || NI || kg m-2 s-1 || xy || Nitrate Convective Scavenging Bin 001 ENSEMBLE |- | NISV002 || NI || kg m-2 s-1 || xy || Nitrate Convective Scavenging Bin 002 ENSEMBLE |- | NISV003 || NI || kg m-2 s-1 || xy || Nitrate Convective Scavenging Bin 003 ENSEMBLE |- | NH3EM || NI || kg m-2 s-1 || xy || Ammonia Emission ENSEMBLE |- | NH3DP || NI || kg m-2 s-1 || xy || Ammonia Dry Deposition ENSEMBLE |- | NH3WT || NI || kg m-2 s-1 || xy || Ammonia Wet Deposition ENSEMBLE |- | NH3SV || NI || kg m-2 s-1 || xy || Ammonia Convective Scavenging ENSEMBLE |- | NH4SD || NI || kg m-2 s-1 || xy || Ammonium Settling ENSEMBLE |- | NH4DP || NI || kg m-2 s-1 || xy || Ammonium Dry Deposition ENSEMBLE |- | NH4WT || NI || kg m-2 s-1 || xy || Ammonium Wet Deposition ENSEMBLE |- | NH4SV || NI || kg m-2 s-1 || xy || Ammonium Convective Scavenging ENSEMBLE |- | HNO3SMASS || NI || kg m-3 || xy || Nitric Acid Surface Mass Concentration ENSEMBLE |- | NH3SMASS || NI || kg m-3 || xy || Ammonia Surface Mass Concentration ENSEMBLE |- | NH4SMASS || NI || kg m-3 || xy || Ammonium Surface Mass Concentration ENSEMBLE |- | NISMASS || NI || kg m-3 || xy || Nitrate Surface Mass Concentration ENSEMBLE |- | NISMASS25 || NI || kg m-3 || xy || Nitrate Surface Mass Concentration [PM2.5] ENSEMBLE |- | HNO3CMASS || NI || kg m-3 || xy || Nitric Acid Column Mass Density ENSEMBLE |- | NH3CMASS || NI || kg m-3 || xy || Ammonia Column Mass Density ENSEMBLE |- | NH4CMASS || NI || kg m-3 || xy || Ammonium Column Mass Density ENSEMBLE |- | NICMASS || NI || kg m-2 || xy || Nitrate Column Mass Density ENSEMBLE |- | NICMASS25 || NI || kg m-2 || xy || Nitrate Column Mass Density [PM2.5] ENSEMBLE |- | NIEXTTFM || NI || 1 || xy || Nitrate Extinction AOT [550 nm] - PM 1.0 um ENSEMBLE |- | NISCATFM || NI || 1 || xy || Nitrate Scattering AOT [550 nm] - PM 1.0 um ENSEMBLE |- | NIEXTT25 || NI || 1 || xy || Nitrate Extinction AOT [550 nm] - PM 2.5 um ENSEMBLE |- | NISCAT25 || NI || 1 || xy || Nitrate Scattering AOT [550 nm] - PM 2.5 um ENSEMBLE |- | NIEXTTAU || NI || 1 || xy || Nitrate Extinction AOT [550 nm] ENSEMBLE |- | NISCATAU || NI || 1 || xy || Nitrate Scattering AOT [550 nm] ENSEMBLE |- | NIANGSTR || NI || 1 || xy || Nitrate Angstrom parameter [470-870 nm] ENSEMBLE |- | NIFLUXU || NI || kg m-1 s-1 || xy || Nitrate column u-wind mass flux ENSEMBLE |- | NIFLUXV || NI || kg m-1 s-1 || xy || Nitrate column v-wind mass flux ENSEMBLE |- | O3 || O3 || kg kg-1 || xyz || Ozone mass mixing ratio |- | OX || O3 || mol mol-1 || xyz || Ozone volume mixing ratio |- | O3DDV || O3 || m s-1 || xy || Dry deposition speed |- | O3PPMV || O3 || ppmv || xyz || Ozone |- | O3TOT || O3 || Dobsons || xy || Total ozone |- | O3DDP || O3 || kg m-2 s-1 || xy || Ozone dry deposition |- | DO3DT || O3 || kg kg-1 s-1 || xyz || Ozone tendency |- | OX_TEND || O3 || mol mol-1 s-1 || xyz || tendency of odd oxygen mixing ratio due to chemistry |- | OCMASS || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio ENSEMBLE |- | OCCONC || OC || kg m-3 || xyz || Organic Carbon Mass Concentration ENSEMBLE |- | OCEXTCOEF || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] ENSEMBLE |- | OCSCACOEF || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] ENSEMBLE |- | OCEM001 || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 ENSEMBLE |- | OCEM002 || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 ENSEMBLE |- | OCSD001 || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 ENSEMBLE |- | OCSD002 || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 ENSEMBLE |- | OCDP001 || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 ENSEMBLE |- | OCDP002 || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 ENSEMBLE |- | OCWT001 || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 ENSEMBLE |- | OCWT002 || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 ENSEMBLE |- | OCSV001 || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 ENSEMBLE |- | OCSV002 || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 ENSEMBLE |- | OCHYPHIL || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic ENSEMBLE |- | OCEMAN || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions ENSEMBLE |- | OCEMBB || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions ENSEMBLE |- | OCEMBF || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions ENSEMBLE |- | OCEMBG || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions ENSEMBLE |- | OCSMASS || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration ENSEMBLE |- | OCCMASS || OC || kg m-2 || xy || Organic Carbon Column Mass Density ENSEMBLE |- | OCEXTTAU || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] ENSEMBLE |- | OCSCATAU || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] ENSEMBLE |- | OCANGSTR || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] ENSEMBLE |- | OCFLUXU || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux ENSEMBLE |- | OCFLUXV || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux ENSEMBLE |- | OCMASSbiob || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio biob |- | OCCONCbiob || OC || kg m-3 || xyz || Organic Carbon Mass Concentration biob |- | OCEXTCOEFbiob || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] biob |- | OCSCACOEFbiob || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] biob |- | OCEM001biob || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 biob |- | OCEM002biob || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 biob |- | OCSD001biob || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 biob |- | OCSD002biob || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 biob |- | OCDP001biob || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 biob |- | OCDP002biob || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 biob |- | OCWT001biob || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 biob |- | OCWT002biob || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 biob |- | OCSV001biob || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 biob |- | OCSV002biob || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 biob |- | OCHYPHILbiob || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic biob |- | OCEMANbiob || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions biob |- | OCEMBBbiob || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions biob |- | OCEMBFbiob || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions biob |- | OCEMBGbiob || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions biob |- | OCSMASSbiob || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration biob |- | OCCMASSbiob || OC || kg m-2 || xy || Organic Carbon Column Mass Density biob |- | OCEXTTAUbiob || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] biob |- | OCSCATAUbiob || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] biob |- | OCANGSTRbiob || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] biob |- | OCFLUXUbiob || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux biob |- | OCFLUXVbiob || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux biob |- | OCMASSanth || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio anth |- | OCCONCanth || OC || kg m-3 || xyz || Organic Carbon Mass Concentration anth |- | OCEXTCOEFanth || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] anth |- | OCSCACOEFanth || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] anth |- | OCEM001anth || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 anth |- | OCEM002anth || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 anth |- | OCSD001anth || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 anth |- | OCSD002anth || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 anth |- | OCDP001anth || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 anth |- | OCDP002anth || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 anth |- | OCWT001anth || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 anth |- | OCWT002anth || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 anth |- | OCSV001anth || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 anth |- | OCSV002anth || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 anth |- | OCHYPHILanth || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic anth |- | OCEMANanth || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions anth |- | OCEMBBanth || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions anth |- | OCEMBFanth || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions anth |- | OCEMBGanth || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions anth |- | OCSMASSanth || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration anth |- | OCCMASSanth || OC || kg m-2 || xy || Organic Carbon Column Mass Density anth |- | OCEXTTAUanth || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] anth |- | OCSCATAUanth || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] anth |- | OCANGSTRanth || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] anth |- | OCFLUXUanth || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux anth |- | OCFLUXVanth || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux anth |- | OCMASSbsun || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio bsun |- | OCCONCbsun || OC || kg m-3 || xyz || Organic Carbon Mass Concentration bsun |- | OCEXTCOEFbsun || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] bsun |- | OCSCACOEFbsun || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] bsun |- | OCEM001bsun || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 bsun |- | OCEM002bsun || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 bsun |- | OCSD001bsun || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 bsun |- | OCSD002bsun || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 bsun |- | OCDP001bsun || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 bsun |- | OCDP002bsun || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 bsun |- | OCWT001bsun || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 bsun |- | OCWT002bsun || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 bsun |- | OCSV001bsun || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 bsun |- | OCSV002bsun || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 bsun |- | OCHYPHILbsun || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic bsun |- | OCEMANbsun || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions bsun |- | OCEMBBbsun || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions bsun |- | OCEMBFbsun || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions bsun |- | OCEMBGbsun || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions bsun |- | OCSMASSbsun || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration bsun |- | OCCMASSbsun || OC || kg m-2 || xy || Organic Carbon Column Mass Density bsun |- | OCEXTTAUbsun || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] bsun |- | OCSCATAUbsun || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] bsun |- | OCANGSTRbsun || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] bsun |- | OCFLUXUbsun || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux bsun |- | OCFLUXVbsun || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux bsun |- | OCMASSbmon || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio bmon |- | OCCONCbmon || OC || kg m-3 || xyz || Organic Carbon Mass Concentration bmon |- | OCEXTCOEFbmon || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] bmon |- | OCSCACOEFbmon || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] bmon |- | OCEM001bmon || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 bmon |- | OCEM002bmon || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 bmon |- | OCSD001bmon || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 bmon |- | OCSD002bmon || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 bmon |- | OCDP001bmon || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 bmon |- | OCDP002bmon || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 bmon |- | OCWT001bmon || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 bmon |- | OCWT002bmon || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 bmon |- | OCSV001bmon || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 bmon |- | OCSV002bmon || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 bmon |- | OCHYPHILbmon || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic bmon |- | OCEMANbmon || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions bmon |- | OCEMBBbmon || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions bmon |- | OCEMBFbmon || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions bmon |- | OCEMBGbmon || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions bmon |- | OCSMASSbmon || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration bmon |- | OCCMASSbmon || OC || kg m-2 || xy || Organic Carbon Column Mass Density bmon |- | OCEXTTAUbmon || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] bmon |- | OCSCATAUbmon || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] bmon |- | OCANGSTRbmon || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] bmon |- | OCFLUXUbmon || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux bmon |- | OCFLUXVbmon || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux bmon |- | OCMASSbtue || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio btue |- | OCCONCbtue || OC || kg m-3 || xyz || Organic Carbon Mass Concentration btue |- | OCEXTCOEFbtue || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] btue |- | OCSCACOEFbtue || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] btue |- | OCEM001btue || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 btue |- | OCEM002btue || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 btue |- | OCSD001btue || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 btue |- | OCSD002btue || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 btue |- | OCDP001btue || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 btue |- | OCDP002btue || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 btue |- | OCWT001btue || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 btue |- | OCWT002btue || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 btue |- | OCSV001btue || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 btue |- | OCSV002btue || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 btue |- | OCHYPHILbtue || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic btue |- | OCEMANbtue || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions btue |- | OCEMBBbtue || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions btue |- | OCEMBFbtue || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions btue |- | OCEMBGbtue || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions btue |- | OCSMASSbtue || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration btue |- | OCCMASSbtue || OC || kg m-2 || xy || Organic Carbon Column Mass Density btue |- | OCEXTTAUbtue || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] btue |- | OCSCATAUbtue || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] btue |- | OCANGSTRbtue || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] btue |- | OCFLUXUbtue || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux btue |- | OCFLUXVbtue || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux btue |- | OCMASSbwed || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio bwed |- | OCCONCbwed || OC || kg m-3 || xyz || Organic Carbon Mass Concentration bwed |- | OCEXTCOEFbwed || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] bwed |- | OCSCACOEFbwed || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] bwed |- | OCEM001bwed || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 bwed |- | OCEM002bwed || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 bwed |- | OCSD001bwed || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 bwed |- | OCSD002bwed || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 bwed |- | OCDP001bwed || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 bwed |- | OCDP002bwed || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 bwed |- | OCWT001bwed || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 bwed |- | OCWT002bwed || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 bwed |- | OCSV001bwed || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 bwed |- | OCSV002bwed || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 bwed |- | OCHYPHILbwed || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic bwed |- | OCEMANbwed || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions bwed |- | OCEMBBbwed || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions bwed |- | OCEMBFbwed || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions bwed |- | OCEMBGbwed || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions bwed |- | OCSMASSbwed || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration bwed |- | OCCMASSbwed || OC || kg m-2 || xy || Organic Carbon Column Mass Density bwed |- | OCEXTTAUbwed || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] bwed |- | OCSCATAUbwed || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] bwed |- | OCANGSTRbwed || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] bwed |- | OCFLUXUbwed || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux bwed |- | OCFLUXVbwed || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux bwed |- | OCMASSbthu || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio bthu |- | OCCONCbthu || OC || kg m-3 || xyz || Organic Carbon Mass Concentration bthu |- | OCEXTCOEFbthu || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] bthu |- | OCSCACOEFbthu || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] bthu |- | OCEM001bthu || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 bthu |- | OCEM002bthu || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 bthu |- | OCSD001bthu || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 bthu |- | OCSD002bthu || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 bthu |- | OCDP001bthu || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 bthu |- | OCDP002bthu || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 bthu |- | OCWT001bthu || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 bthu |- | OCWT002bthu || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 bthu |- | OCSV001bthu || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 bthu |- | OCSV002bthu || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 bthu |- | OCHYPHILbthu || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic bthu |- | OCEMANbthu || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions bthu |- | OCEMBBbthu || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions bthu |- | OCEMBFbthu || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions bthu |- | OCEMBGbthu || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions bthu |- | OCSMASSbthu || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration bthu |- | OCCMASSbthu || OC || kg m-2 || xy || Organic Carbon Column Mass Density bthu |- | OCEXTTAUbthu || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] bthu |- | OCSCATAUbthu || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] bthu |- | OCANGSTRbthu || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] bthu |- | OCFLUXUbthu || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux bthu |- | OCFLUXVbthu || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux bthu |- | OCMASSbfri || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio bfri |- | OCCONCbfri || OC || kg m-3 || xyz || Organic Carbon Mass Concentration bfri |- | OCEXTCOEFbfri || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] bfri |- | OCSCACOEFbfri || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] bfri |- | OCEM001bfri || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 bfri |- | OCEM002bfri || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 bfri |- | OCSD001bfri || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 bfri |- | OCSD002bfri || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 bfri |- | OCDP001bfri || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 bfri |- | OCDP002bfri || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 bfri |- | OCWT001bfri || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 bfri |- | OCWT002bfri || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 bfri |- | OCSV001bfri || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 bfri |- | OCSV002bfri || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 bfri |- | OCHYPHILbfri || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic bfri |- | OCEMANbfri || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions bfri |- | OCEMBBbfri || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions bfri |- | OCEMBFbfri || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions bfri |- | OCEMBGbfri || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions bfri |- | OCSMASSbfri || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration bfri |- | OCCMASSbfri || OC || kg m-2 || xy || Organic Carbon Column Mass Density bfri |- | OCEXTTAUbfri || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] bfri |- | OCSCATAUbfri || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] bfri |- | OCANGSTRbfri || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] bfri |- | OCFLUXUbfri || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux bfri |- | OCFLUXVbfri || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux bfri |- | OCMASSbsat || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio bsat |- | OCCONCbsat || OC || kg m-3 || xyz || Organic Carbon Mass Concentration bsat |- | OCEXTCOEFbsat || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] bsat |- | OCSCACOEFbsat || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] bsat |- | OCEM001bsat || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 bsat |- | OCEM002bsat || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 bsat |- | OCSD001bsat || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 bsat |- | OCSD002bsat || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 bsat |- | OCDP001bsat || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 bsat |- | OCDP002bsat || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 bsat |- | OCWT001bsat || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 bsat |- | OCWT002bsat || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 bsat |- | OCSV001bsat || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 bsat |- | OCSV002bsat || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 bsat |- | OCHYPHILbsat || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic bsat |- | OCEMANbsat || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions bsat |- | OCEMBBbsat || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions bsat |- | OCEMBFbsat || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions bsat |- | OCEMBGbsat || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions bsat |- | OCSMASSbsat || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration bsat |- | OCCMASSbsat || OC || kg m-2 || xy || Organic Carbon Column Mass Density bsat |- | OCEXTTAUbsat || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] bsat |- | OCSCATAUbsat || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] bsat |- | OCANGSTRbsat || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] bsat |- | OCFLUXUbsat || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux bsat |- | OCFLUXVbsat || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux bsat |- | OCMASSbbgl || OC || kg kg-1 || xyz || Organic Carbon Mass Mixing Ratio bbgl |- | OCCONCbbgl || OC || kg m-3 || xyz || Organic Carbon Mass Concentration bbgl |- | OCEXTCOEFbbgl || OC || m-1 || xyz || Organic Carbon Ext. Coefficient [550 nm] bbgl |- | OCSCACOEFbbgl || OC || m-1 || xyz || Organic Carbon Scatt. Coefficient [550 nm] bbgl |- | OCEM001bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 001 bbgl |- | OCEM002bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Emission Bin 002 bbgl |- | OCSD001bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 001 bbgl |- | OCSD002bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Sedimentation Bin 002 bbgl |- | OCDP001bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 001 bbgl |- | OCDP002bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Dry Deposition Bin 002 bbgl |- | OCWT001bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 001 bbgl |- | OCWT002bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Wet Deposition Bin 002 bbgl |- | OCSV001bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 001 bbgl |- | OCSV002bbgl || OC || kg m-2 s-1 || xy || Organic Carbon Convective Scavenging Bin 002 bbgl |- | OCHYPHILbbgl || OC || kg m-2 s-1 || xy || Organic Carbon Hydrophobic to Hydrophilic bbgl |- | OCEMANbbgl || OC || kg m-2 s-1 || xy || Organic Carbon Anthropogenic Emissions bbgl |- | OCEMBBbbgl || OC || kg m-2 s-1 || xy || Organic Carbon Biomass Burning Emissions bbgl |- | OCEMBFbbgl || OC || kg m-2 s-1 || xy || Organic Carbon Biofuel Emissions bbgl |- | OCEMBGbbgl || OC || kg m-2 s-1 || xy || Organic Carbon Biogenic Emissions bbgl |- | OCSMASSbbgl || OC || kg m-3 || xy || Organic Carbon Surface Mass Concentration bbgl |- | OCCMASSbbgl || OC || kg m-2 || xy || Organic Carbon Column Mass Density bbgl |- | OCEXTTAUbbgl || OC || 1 || xy || Organic Carbon Extinction AOT [550 nm] bbgl |- | OCSCATAUbbgl || OC || 1 || xy || Organic Carbon Scattering AOT [550 nm] bbgl |- | OCANGSTRbbgl || OC || 1 || xy || Organic Carbon Angstrom parameter [470-870 nm] bbgl |- | OCFLUXUbbgl || OC || kg m-1 s-1 || xy || Organic Carbon column u-wind mass flux bbgl |- | OCFLUXVbbgl || OC || kg m-1 s-1 || xy || Organic Carbon column v-wind mass flux bbgl |- | UW || Ogcm || m s-1 || tile || zonal velocity of surface water |- | VW || Ogcm || m s-1 || tile || meridional velocity of surface water |- | UI || Ogcm || m s-1 || tile || zonal velocity of surface seaice |- | VI || Ogcm || m s-1 || tile || meridional velocity of surface seaice |- | TILELONS || Ogcm || degrees || tile || longitude |- | TILELATS || Ogcm || degrees || tile || latitude |- | KPAR || Ogcm || m-1 || tile || PAR extinction coefficient |- | TS_FOUND || Ogcm || K || tile || foundation temperature for interface layer |- | FRACICE || Ogcm || 1 || tile || fractional cover of seaice |- | TAUXIBOT || Ogcm || N m-2 || tile || eastward stress at base of ice |- | TAUYIBOT || Ogcm || N m-2 || tile || northward stress at base of ice |- | MOM_3D_MASK || Ogcm || N m-2 || tile || northward stress at base of ice |- | skin_T || Ogcm || N m-2 || tile || northward stress at base of ice |- | skin_S || Ogcm || N m-2 || tile || northward stress at base of ice |- | T || Ogcm || N m-2 || tile || northward stress at base of ice |- | S || Ogcm || N m-2 || tile || northward stress at base of ice |- | U || Ogcm || N m-2 || tile || northward stress at base of ice |- | V || Ogcm || N m-2 || tile || northward stress at base of ice |- | Z || Ogcm || N m-2 || tile || northward stress at base of ice |- | RHO || Ogcm || N m-2 || tile || northward stress at base of ice |- | SLV || Ogcm || N m-2 || tile || northward stress at base of ice |- | SSH || Ogcm || N m-2 || tile || northward stress at base of ice |- | PBO || Ogcm || N m-2 || tile || northward stress at base of ice |- | TX || Ogcm || N m-2 || tile || northward stress at base of ice |- | TY || Ogcm || N m-2 || tile || northward stress at base of ice |- | MLD || Ogcm || N m-2 || tile || northward stress at base of ice |- | PSI || Ogcm || N m-2 || tile || northward stress at base of ice |- | AICE || Ogcm || N m-2 || tile || northward stress at base of ice |- | HICE || Ogcm || N m-2 || tile || northward stress at base of ice |- | OCEANCOLOR || Ogcm || N m-2 || tile || northward stress at base of ice |- | CHLOROPHYLL || Ogcm || N m-2 || tile || northward stress at base of ice |- | SWHEAT || Orad || W m-2 || xyz || solar heating rate |- | KPAR || Orad || m-1 || xy || PAR extinction coefficient |- | PENUVR || Orad || W m-2 || xy || net downward penetrating direct UV flux |- | PENPAR || Orad || W m-2 || xy || net downward penetrating direct PAR flux |- | PENUVF || Orad || W m-2 || xy || net downward penetrating diffuse UV flux |- | PENPAF || Orad || W m-2 || xy || net downward penetrating diffuse PAR flux |- | FROCEAN || Orad || 1 || xy || ocean fraction of grid cell |- | DH || Orad || dyn-m || xyz || Layer mass |- | OX_TEND || PChem || mol mol-1 s-1 || xyz || tendency of odd oxygen mixing ratio due to chemistry |- | H2O_TEND || PChem || kg kg-1 s-1 || xyz || tendency of water vapor mixing ratio due to chemistry |- | OX_PROD || PChem || mol mol-1 s-1 || xyz || tendency of odd oxygen volume mixing ratio due to production |- | OX_LOSS || PChem || mol mol-1 s-1 || xyz || tendency of odd oxygen volume mixing ratio due to loss |- | N2O_PROD || PChem || mol mol-1 s-1 || xyz || tendency of nitrous oxide volume mixing ratio due to production |- | N2O_LOSS || PChem || mol mol-1 s-1 || xyz || tendency of nitrous oxide volume mixing ratio due to loss |- | CFC11_PROD || PChem || mol mol-1 s-1 || xyz || tendency of CFC11 volume mixing ratio due to production |- | CFC11_LOSS || PChem || mol mol-1 s-1 || xyz || tendency of CFC11 volume mixing ratio due to loss |- | CFC12_PROD || PChem || mol mol-1 s-1 || xyz || tendency of CFC12 volume mixing ratio due to production |- | CFC12_LOSS || PChem || mol mol-1 s-1 || xyz || tendency of CFC12 volume mixing ratio due to loss |- | HCFC22_PROD || PChem || mol mol-1 s-1 || xyz || tendency of HCFC22 volume mixing ratio due to production |- | HCFC22_LOSS || PChem || mol mol-1 s-1 || xyz || tendency of HCFC22 volume mixing ratio due to loss |- | CH4_PROD || PChem || mol mol-1 s-1 || xyz || tendency of methane volume mixing ratio due to production |- | CH4_LOSS || PChem || mol mol-1 s-1 || xyz || tendency of methane volume mixing ratio due to loss |- | H2O_PROD || PChem || s-1 || xyz || tendency of specific humidity due to production |- | H2O_LOSS || PChem || s-1 || xyz || tendency of specific humidity due to loss |- | O3 || PChem || kg kg-1 || xyz || ozone mass mixing ratio |- | O3PPMV || PChem || ppmv || xyz || ozone volume mixing ratio |- | TO3 || PChem || Dobsons || xy || total column ozone |- | TTO3 || PChem || Dobsons || xy || tropospheric column ozone |- | DTDT || Physics || Pa K s-1 || xyz || pressure weighted tendency of air temperature due to physics |- | DTDTTOT || Physics || K s-1 || xyz || tendency of air temperature due to physics |- | DTDTRAD || Physics || K s-1 || xyz || tendency of air temperature due to radiation |- | DUDT || Physics || m s-2 || xyz || tendency of eastward wind due to physics |- | DVDT || Physics || m s-2 || xyz || tendency of northward wind due to physics |- | DPDTPHY || Physics || Pa s-1 || xyz || tendency of pressure at bottom edges levels due to physics |- | DPEDT || Physics || Pa s-1 || xyz || tendency of pressure at layer edges due to physics |- | DMDT || Physics || kg m-2 s-1 || xy || vertically integrated mass tendency due to physics |- | THIM || Physics || Pa K s-1 || xyz || pressure weighted tendency of potential temperature due to moist processes |- | TIM || Physics || K s-1 || xyz || tendency of air temperature due to moist processes |- | TIMFRIC || Physics || K s-1 || xyz || tendency of air temperature due to moist processes friction |- | SIT || Physics || Pa m+2 s-3 || xyz || pressure weighted tendency of dry static energy due to turbulence |- | TIT || Physics || K s-1 || xyz || tendency of air temperature due to turbulence |- | UIT || Physics || m s-2 || xyz || tendency of eastward wind due to turbulence |- | VIT || Physics || m s-2 || xyz || tendency of northward wind due to turbulence |- | QVIT || Physics || kg kg-1 s-1 || xyz || tendency of specific humidity due to turbulence |- | QLLSIT || Physics || kg kg-1 s-1 || xyz || tendency of liquid condensate due to turbulence |- | QILSIT || Physics || kg kg-1 s-1 || xyz || tendency of frozen condensate due to turbulence |- | OXIT || Physics || mol mol-1 s-1 || xyz || tendency of odd oxygen due to turbulence |- | OXIM || Physics || mol mol-1 s-1 || xyz || tendency of odd oxygen due to moist processes |- | TIF || Physics || K s-1 || xyz || tendency of air temperature due to friction |- | TRADV || Physics || X || xyz || advected quantities |- | FTB || Physics || W m-2 || xyz || upward net turbulence heat flux |- | FTU || Physics || m+2 s-2 || xyz || upward net turbulence eastward momentum flux |- | FTV || Physics || m+2 s-2 || xyz || upward net turbulence northward momentum flux |- | TRANA || Physics || X || xyz || analyzed quantities |- | KEPHY || Physics || W m-2 || xy || vertically integrated kinetic energy tendency across physics |- | PEPHY || Physics || W m-2 || xy || vertically integrated potential energy tendency across physics |- | PERAD || Physics || W m-2 || xy || vertically integrated potential energy tendency across radiation |- | PETRB || Physics || W m-2 || xy || vertically integrated potential energy tendency across turbulence |- | PEMST || Physics || W m-2 || xy || vertically integrated potential energy tendency across moist |- | PEFRI || Physics || W m-2 || xy || vertically integrated potential energy tendency due to friction |- | PEGWD || Physics || W m-2 || xy || vertically integrated potential energy tendency across gwd |- | PECUF || Physics || W m-2 || xy || vertically integrated potential energy tendency due to cumulus friction |- | DQVDTTRBINT || Physics || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to turbulence |- | DQVDTMSTINT || Physics || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to moist processes |- | DQVDTCHMINT || Physics || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to chemistry |- | DQLDTMSTINT || Physics || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to moist processes |- | DQIDTMSTINT || Physics || kg m-2 s-1 || xy || vertically integrated ice tendency due to moist processes |- | DOXDTCHMINT || Physics || kg m-2 s-1 || xy || vertically integrated odd oxygen tendency due to chemistry |- | DQVDTPHYINT || Physics || kg m-2 s-1 || xy || vertically integrated water vapor tendency due to physics |- | DQLDTPHYINT || Physics || kg m-2 s-1 || xy || vertically integrated liquid water tendency due to physics |- | DQIDTPHYINT || Physics || kg m-2 s-1 || xy || vertically integrated ice tendency due to physics |- | DOXDTPHYINT || Physics || kg m-2 s-1 || xy || vertically integrated odd oxygen tendency due to physics |- | DQVDTSCL || Physics || kg m-2 s-1 || xyz || tendency of water vapor due to mass scaling |- | DQLDTSCL || Physics || kg m-2 s-1 || xyz || tendency of cloud water due to mass scaling |- | DQIDTSCL || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | O3PPMV || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | OX || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | Q || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | QCTOT || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | U10M || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | V10M || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | U10N || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | V10N || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | SNOMAS || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | WET1 || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | TSOIL1 || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | LWI || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | TS || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | FRLAND || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | FRLANDICE || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | FRLAKE || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | FROCEAN || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | FRACI || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | Z0 || Physics || kg m-2 s-1 || xyz || tendency of cloud ice due to mass scaling |- | DTDT || Radiation || Pa K s-1 || xyz || pressure weighted air temperature tendency due to radiation |- | RADLW || Radiation || K s-1 || xyz || air temperature tendency due to longwave |- | RADSW || Radiation || K s-1 || xyz || air temperature tendency due to shortwave |- | RADLWC || Radiation || K s-1 || xyz || air temperature tendency due to longwave for clear skies |- | RADSWC || Radiation || K s-1 || xyz || air temperature tendency due to shortwave for clear skies |- | RADSWNA || Radiation || K s-1 || xyz || air temperature tendency due to shortwave no aerosol |- | RADLWCNA || Radiation || K s-1 || xyz || air temperature tendency due to longwave for clear skies no aerosol |- | RADSWCNA || Radiation || K s-1 || xyz || air temperature tendency due to shortwave for clear skies no aerosol |- | RADSRF || Radiation || W m-2 || xy || net downwelling radiation at surface |- | ALW || Radiation || W m-2 || xy || linearization of surface upwelling longwave flux |- | BLW || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DRPAR || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DFPAR || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DRNIR || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DFNIR || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DRUVR || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DFUVR || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DRPARN || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DFPARN || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DRNIRN || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DFNIRN || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DRUVRN || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | DFUVRN || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | FCLD || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | TAUCLI || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | TAUCLW || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | LWS || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | LWS0 || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | CLDTT || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | ALBEDO || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | FSWBAND || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | FSWBANDNA || Radiation || W m-2 K-1 || xy || linearization of surface upwelling longwave flux |- | RnEM || Rn || kg m-2 s-1 || xy || Rn Emission ENSEMBLE |- | RnEMAsia || Rn || kg m-2 s-1 || xy || Rn Emission Asia |- | RnEMEuro || Rn || kg m-2 s-1 || xy || Rn Emission Europe |- | RnEMNoAm || Rn || kg m-2 s-1 || xy || Rn Emission North America |- | RnEMSoAm || Rn || kg m-2 s-1 || xy || Rn Emission South America |- | RnEMAfri || Rn || kg m-2 s-1 || xy || Rn Emission Africa |- | RnEMAust || Rn || kg m-2 s-1 || xy || Rn Emission Australia |- | RnLS || Rn || kg m-2 s-1 || xy || Rn Decay ENSEMBLE |- | RnLSAsia || Rn || kg m-2 s-1 || xy || Rn Decay Asia |- | RnLSEuro || Rn || kg m-2 s-1 || xy || Rn Decay Europe |- | RnLSNoAm || Rn || kg m-2 s-1 || xy || Rn Decay North America |- | RnLSSoAm || Rn || kg m-2 s-1 || xy || Rn Decay South America |- | RnLSAfri || Rn || kg m-2 s-1 || xy || Rn Decay Africa |- | RnLSAust || Rn || kg m-2 s-1 || xy || Rn Decay Australia |- | RnSC || Rn || molmol || xy || Rn Surface Concentration ENSEMBLE |- | RnSCAsia || Rn || molmol || xy || Rn Surface Concentration Asia |- | RnSCEuro || Rn || molmol || xy || Rn Surface Concentration Europe |- | RnSCNoAm || Rn || molmol || xy || Rn Surface Concentration North America |- | RnSCSoAm || Rn || molmol || xy || Rn Surface Concentration South America |- | RnSCAfri || Rn || molmol || xy || Rn Surface Concentration Africa |- | RnSCAust || Rn || molmol || xy || Rn Surface Concentration Australia |- | RnCL || Rn || kg m-2 || xy || Rn Column Burden ENSEMBLE |- | RnCLAsia || Rn || kg m-2 || xy || Rn Column Burden Asia |- | RnCLEuro || Rn || kg m-2 || xy || Rn Column Burden Europe |- | RnCLNoAm || Rn || kg m-2 || xy || Rn Column Burden North America |- | RnCLSoAm || Rn || kg m-2 || xy || Rn Column Burden South America |- | RnCLAfri || Rn || kg m-2 || xy || Rn Column Burden Africa |- | RnCLAust || Rn || kg m-2 || xy || Rn Column Burden Australia |- | SSMASS || SS || kg kg-1 || xyz || Sea Salt Mass Mixing Ratio ENSEMBLE |- | SSMASS25 || SS || kg kg-1 || xyz || Sea Salt Mass Mixing Ratio - PM 2.5 ENSEMBLE |- | SSCONC || SS || kg m-3 || xyz || Sea Salt Mass Concentration ENSEMBLE |- | SSEXTCOEF || SS || m-1 || xyz || Sea Salt Extinction Coefficient [550 nm] ENSEMBLE |- | SSSCACOEF || SS || m-1 || xyz || Sea Salt Scattering Coefficient [550 nm] ENSEMBLE |- | SSEM001 || SS || kg m-2 s-1 || xy || Sea Salt Emission Bin 001 ENSEMBLE |- | SSEM002 || SS || kg m-2 s-1 || xy || Sea Salt Emission Bin 002 ENSEMBLE |- | SSEM003 || SS || kg m-2 s-1 || xy || Sea Salt Emission Bin 003 ENSEMBLE |- | SSEM004 || SS || kg m-2 s-1 || xy || Sea Salt Emission Bin 004 ENSEMBLE |- | SSEM005 || SS || kg m-2 s-1 || xy || Sea Salt Emission Bin 005 ENSEMBLE |- | SSSD001 || SS || kg m-2 s-1 || xy || Sea Salt Sedimentation Bin 001 ENSEMBLE |- | SSSD002 || SS || kg m-2 s-1 || xy || Sea Salt Sedimentation Bin 002 ENSEMBLE |- | SSSD003 || SS || kg m-2 s-1 || xy || Sea Salt Sedimentation Bin 003 ENSEMBLE |- | SSSD004 || SS || kg m-2 s-1 || xy || Sea Salt Sedimentation Bin 004 ENSEMBLE |- | SSSD005 || SS || kg m-2 s-1 || xy || Sea Salt Sedimentation Bin 005 ENSEMBLE |- | SSDP001 || SS || kg m-2 s-1 || xy || Sea Salt Dry Deposition Bin 001 ENSEMBLE |- | SSDP002 || SS || kg m-2 s-1 || xy || Sea Salt Dry Deposition Bin 002 ENSEMBLE |- | SSDP003 || SS || kg m-2 s-1 || xy || Sea Salt Dry Deposition Bin 003 ENSEMBLE |- | SSDP004 || SS || kg m-2 s-1 || xy || Sea Salt Dry Deposition Bin 004 ENSEMBLE |- | SSDP005 || SS || kg m-2 s-1 || xy || Sea Salt Dry Deposition Bin 005 ENSEMBLE |- | SSWT001 || SS || kg m-2 s-1 || xy || Sea Salt Wet Deposition Bin 001 ENSEMBLE |- | SSWT002 || SS || kg m-2 s-1 || xy || Sea Salt Wet Deposition Bin 002 ENSEMBLE |- | SSWT003 || SS || kg m-2 s-1 || xy || Sea Salt Wet Deposition Bin 003 ENSEMBLE |- | SSWT004 || SS || kg m-2 s-1 || xy || Sea Salt Wet Deposition Bin 004 ENSEMBLE |- | SSWT005 || SS || kg m-2 s-1 || xy || Sea Salt Wet Deposition Bin 005 ENSEMBLE |- | SSSV001 || SS || kg m-2 s-1 || xy || Sea Salt Convective Scavenging Bin 001 ENSEMBLE |- | SSSV002 || SS || kg m-2 s-1 || xy || Sea Salt Convective Scavenging Bin 002 ENSEMBLE |- | SSSV003 || SS || kg m-2 s-1 || xy || Sea Salt Convective Scavenging Bin 003 ENSEMBLE |- | SSSV004 || SS || kg m-2 s-1 || xy || Sea Salt Convective Scavenging Bin 004 ENSEMBLE |- | SSSV005 || SS || kg m-2 s-1 || xy || Sea Salt Convective Scavenging Bin 005 ENSEMBLE |- | SSSMASS || SS || kg m-3 || xy || Sea Salt Surface Mass Concentration ENSEMBLE |- | SSCMASS || SS || kg m-2 || xy || Sea Salt Column Mass Density ENSEMBLE |- | SSEXTTAU || SS || 1 || xy || Sea Salt Extinction AOT [550 nm] ENSEMBLE |- | SSSCATAU || SS || 1 || xy || Sea Salt Scattering AOT [550 nm] ENSEMBLE |- | SSSMASS25 || SS || kg m-3 || xy || Sea Salt Surface Mass Concentration - PM 2.5 ENSEMBLE |- | SSCMASS25 || SS || kg m-2 || xy || Sea Salt Column Mass Density - PM 2.5 ENSEMBLE |- | SSEXTT25 || SS || 1 || xy || Sea Salt Extinction AOT [550 nm] - PM 2.5 ENSEMBLE |- | SSSCAT25 || SS || 1 || xy || Sea Salt Scattering AOT [550 nm] - PM 2.5 ENSEMBLE |- | SSAERIDX || SS || 1 || xy || Sea Salt TOMS UV Aerosol Index ENSEMBLE |- | SSEXTTFM || SS || 1 || xy || Sea Salt Extinction AOT [550 nm] - PM 1.0 um ENSEMBLE |- | SSSCATFM || SS || 1 || xy || Sea Salt Scattering AOT [550 nm] - PM 1.0 um ENSEMBLE |- | SSANGSTR || SS || 1 || xy || Sea Salt Angstrom parameter [470-870 nm] ENSEMBLE |- | SSFLUXU || SS || kg m-1 s-1 || xy || Sea Salt column u-wind mass flux ENSEMBLE |- | SSFLUXV || SS || kg m-1 s-1 || xy || Sea Salt column v-wind mass flux ENSEMBLE |- | SUEM001 || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 001 ENSEMBLE |- | SUEM002 || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 002 ENSEMBLE |- | SUEM003 || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 003 ENSEMBLE |- | SUEM004 || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 004 ENSEMBLE |- | SUDP001 || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 001 ENSEMBLE |- | SUDP002 || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 002 ENSEMBLE |- | SUDP003 || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 003 ENSEMBLE |- | SUDP004 || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 004 ENSEMBLE |- | SUSD001 || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 001 ENSEMBLE |- | SUSD002 || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 002 ENSEMBLE |- | SUSD003 || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 003 ENSEMBLE |- | SUSD004 || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 004 ENSEMBLE |- | SUWT001 || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 001 ENSEMBLE |- | SUWT002 || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 002 ENSEMBLE |- | SUWT003 || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 003 ENSEMBLE |- | SUWT004 || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 004 ENSEMBLE |- | SUSV001 || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 001 ENSEMBLE |- | SUSV002 || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 002 ENSEMBLE |- | SUSV003 || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 003 ENSEMBLE |- | SUSV004 || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 004 ENSEMBLE |- | SO4EMAN || SU || kg m-2 s-1 || xy || SO4 Anthropogenic Emissions ENSEMBLE |- | SO2EMAN || SU || kg m-2 s-1 || xy || SO2 Anthropogenic Emissions ENSEMBLE |- | SO2EMBB || SU || kg m-2 s-1 || xy || SO2 Biomass Burning Emissions ENSEMBLE |- | SO2EMVN || SU || kg m-2 s-1 || xy || SO2 Volcanic (non-explosive) Emissions ENSEMBLE |- | SO2EMVE || SU || kg m-2 s-1 || xy || SO2 Volcanic (explosive) Emissions ENSEMBLE |- | PSO2 || SU || kg m-2 s-1 || xyz || SO2 Prod from DMS oxidation ENSEMBLE |- | PMSA || SU || kg m-2 s-1 || xyz || MSA Prod from DMS oxidation ENSEMBLE |- | PSO4G || SU || kg m-2 s-1 || xyz || SO4 Prod from SO2 oxidation ENSEMBLE |- | PSO4WET || SU || kg m-2 s-1 || xyz || SO4 Prod from wet SO2 oxidation ENSEMBLE |- | PSO4AQ || SU || kg m-2 s-1 || xyz || SO4 Prod from aqueous SO2 oxidation ENSEMBLE |- | SUPSO2 || SU || kg m-2 s-1 || xy || SO2 Prod from DMS Oxidation [column] ENSEMBLE |- | SUPSO4G || SU || kg m-2 s-1 || xy || SO4 Prod from Gaseous SO2 Oxidation [column] ENSEMBLE |- | SUPSO4AQ || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation [column] ENSEMBLE |- | SUPSO4WT || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation (wet dep) [column] ENSEMBLE |- | SUPMSA || SU || kg m-2 s-1 || xy || MSA Prod from DMS Oxidation [column] ENSEMBLE |- | SO2SMASS || SU || kg m-3 || xy || SO2 Surface Mass Concentration ENSEMBLE |- | SO2CMASS || SU || kg m-2 || xy || SO2 Column Mass Density ENSEMBLE |- | SO4SMASS || SU || kg m-3 || xy || SO4 Surface Mass Concentration ENSEMBLE |- | SO4CMASS || SU || kg m-2 || xy || SO4 Column Mass Density ENSEMBLE |- | DMSSMASS || SU || kg m-3 || xy || DMS Surface Mass Concentration ENSEMBLE |- | DMSCMASS || SU || kg m-2 || xy || DMS Column Mass Density ENSEMBLE |- | MSASMASS || SU || kg m-3 || xy || MSA Surface Mass Concentration ENSEMBLE |- | MSACMASS || SU || kg m-2 || xy || MSA Column Mass Density ENSEMBLE |- | SUCONC || SU || kg m-3 || xyz || SO4 Aerosol Mass Concentration ENSEMBLE |- | SUEXTCOEF || SU || m-1 || xyz || SO4 Extinction Coefficient [550 nm] ENSEMBLE |- | SUSCACOEF || SU || m-1 || xyz || SO4 Scattering Coefficient [550 nm] ENSEMBLE |- | SUANGSTR || SU || 1 || xy || SO4 Angstrom parameter [470-870 nm] ENSEMBLE |- | SUFLUXU || SU || kg m-1 s-1 || xy || SO4 column u-wind mass flux ENSEMBLE |- | SUFLUXV || SU || kg m-1 s-1 || xy || SO4 column v-wind mass flux ENSEMBLE |- | SO4MASS || SU || kg kg-1 || xyz || SO4 Aerosol Mass Mixing Ratio ENSEMBLE |- | SUEXTTAU || SU || 1 || xy || SO4 Extinction AOT [550 nm] ENSEMBLE |- | SUSCATAU || SU || 1 || xy || SO4 Scattering AOT [550 nm] ENSEMBLE |- | SO4SAREA || SU || m2 m-3 || xyz || SO4 Surface Area Density ENSEMBLE |- | SO4SNUM || SU || m-3 || xyz || SO4 Number Density ENSEMBLE |- | SUEM001anth || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 001 (Anthropogenic) |- | SUEM002anth || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 002 (Anthropogenic) |- | SUEM003anth || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 003 (Anthropogenic) |- | SUEM004anth || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 004 (Anthropogenic) |- | SUDP001anth || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 001 (Anthropogenic) |- | SUDP002anth || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 002 (Anthropogenic) |- | SUDP003anth || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 003 (Anthropogenic) |- | SUDP004anth || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 004 (Anthropogenic) |- | SUSD001anth || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 001 (Anthropogenic) |- | SUSD002anth || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 002 (Anthropogenic) |- | SUSD003anth || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 003 (Anthropogenic) |- | SUSD004anth || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 004 (Anthropogenic) |- | SUWT001anth || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 001 (Anthropogenic) |- | SUWT002anth || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 002 (Anthropogenic) |- | SUWT003anth || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 003 (Anthropogenic) |- | SUWT004anth || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 004 (Anthropogenic) |- | SUSV001anth || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 001 (Anthropogenic) |- | SUSV002anth || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 002 (Anthropogenic) |- | SUSV003anth || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 003 (Anthropogenic) |- | SUSV004anth || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 004 (Anthropogenic) |- | SO4EMANanth || SU || kg m-2 s-1 || xy || SO4 Anthropogenic Emissions (Anthropogenic) |- | SO2EMANanth || SU || kg m-2 s-1 || xy || SO2 Anthropogenic Emissions (Anthropogenic) |- | SO2EMBBanth || SU || kg m-2 s-1 || xy || SO2 Biomass Burning Emissions (Anthropogenic) |- | SO2EMVNanth || SU || kg m-2 s-1 || xy || SO2 Volcanic (non-explosive) Emissions (Anthropogenic) |- | SO2EMVEanth || SU || kg m-2 s-1 || xy || SO2 Volcanic (explosive) Emissions (Anthropogenic) |- | PSO2anth || SU || kg m-2 s-1 || xyz || SO2 Prod from DMS oxidation (Anthropogenic) |- | PMSAanth || SU || kg m-2 s-1 || xyz || MSA Prod from DMS oxidation (Anthropogenic) |- | PSO4Ganth || SU || kg m-2 s-1 || xyz || SO4 Prod from SO2 oxidation (Anthropogenic) |- | PSO4WETanth || SU || kg m-2 s-1 || xyz || SO4 Prod from wet SO2 oxidation (Anthropogenic) |- | PSO4AQanth || SU || kg m-2 s-1 || xyz || SO4 Prod from aqueous SO2 oxidation (Anthropogenic) |- | SUPSO2anth || SU || kg m-2 s-1 || xy || SO2 Prod from DMS Oxidation [column] (Anthropogenic) |- | SUPSO4Ganth || SU || kg m-2 s-1 || xy || SO4 Prod from Gaseous SO2 Oxidation [column] (Anthropogenic) |- | SUPSO4AQanth || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation [column] (Anthropogenic) |- | SUPSO4WTanth || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation (wet dep) [column] (Anthropogenic) |- | SUPMSAanth || SU || kg m-2 s-1 || xy || MSA Prod from DMS Oxidation [column] (Anthropogenic) |- | SO2SMASSanth || SU || kg m-3 || xy || SO2 Surface Mass Concentration (Anthropogenic) |- | SO2CMASSanth || SU || kg m-2 || xy || SO2 Column Mass Density (Anthropogenic) |- | SO4SMASSanth || SU || kg m-3 || xy || SO4 Surface Mass Concentration (Anthropogenic) |- | SO4CMASSanth || SU || kg m-2 || xy || SO4 Column Mass Density (Anthropogenic) |- | DMSSMASSanth || SU || kg m-3 || xy || DMS Surface Mass Concentration (Anthropogenic) |- | DMSCMASSanth || SU || kg m-2 || xy || DMS Column Mass Density (Anthropogenic) |- | MSASMASSanth || SU || kg m-3 || xy || MSA Surface Mass Concentration (Anthropogenic) |- | MSACMASSanth || SU || kg m-2 || xy || MSA Column Mass Density (Anthropogenic) |- | SUCONCanth || SU || kg m-3 || xyz || SO4 Aerosol Mass Concentration (Anthropogenic) |- | SUEXTCOEFanth || SU || m-1 || xyz || SO4 Extinction Coefficient [550 nm] (Anthropogenic) |- | SUSCACOEFanth || SU || m-1 || xyz || SO4 Scattering Coefficient [550 nm] (Anthropogenic) |- | SUANGSTRanth || SU || 1 || xy || SO4 Angstrom parameter [470-870 nm] (Anthropogenic) |- | SUFLUXUanth || SU || kg m-1 s-1 || xy || SO4 column u-wind mass flux (Anthropogenic) |- | SUFLUXVanth || SU || kg m-1 s-1 || xy || SO4 column v-wind mass flux (Anthropogenic) |- | SO4MASSanth || SU || kg kg-1 || xyz || SO4 Aerosol Mass Mixing Ratio (Anthropogenic) |- | SUEXTTAUanth || SU || 1 || xy || SO4 Extinction AOT [550 nm] (Anthropogenic) |- | SUSCATAUanth || SU || 1 || xy || SO4 Scattering AOT [550 nm] (Anthropogenic) |- | SO4SAREAanth || SU || m2 m-3 || xyz || SO4 Surface Area Density (Anthropogenic) |- | SO4SNUManth || SU || m-3 || xyz || SO4 Number Density (Anthropogenic) |- | SUEM001volc || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 001 (Volcanic) |- | SUEM002volc || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 002 (Volcanic) |- | SUEM003volc || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 003 (Volcanic) |- | SUEM004volc || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 004 (Volcanic) |- | SUDP001volc || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 001 (Volcanic) |- | SUDP002volc || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 002 (Volcanic) |- | SUDP003volc || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 003 (Volcanic) |- | SUDP004volc || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 004 (Volcanic) |- | SUSD001volc || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 001 (Volcanic) |- | SUSD002volc || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 002 (Volcanic) |- | SUSD003volc || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 003 (Volcanic) |- | SUSD004volc || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 004 (Volcanic) |- | SUWT001volc || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 001 (Volcanic) |- | SUWT002volc || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 002 (Volcanic) |- | SUWT003volc || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 003 (Volcanic) |- | SUWT004volc || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 004 (Volcanic) |- | SUSV001volc || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 001 (Volcanic) |- | SUSV002volc || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 002 (Volcanic) |- | SUSV003volc || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 003 (Volcanic) |- | SUSV004volc || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 004 (Volcanic) |- | SO4EMANvolc || SU || kg m-2 s-1 || xy || SO4 Anthropogenic Emissions (Volcanic) |- | SO2EMANvolc || SU || kg m-2 s-1 || xy || SO2 Anthropogenic Emissions (Volcanic) |- | SO2EMBBvolc || SU || kg m-2 s-1 || xy || SO2 Biomass Burning Emissions (Volcanic) |- | SO2EMVNvolc || SU || kg m-2 s-1 || xy || SO2 Volcanic (non-explosive) Emissions (Volcanic) |- | SO2EMVEvolc || SU || kg m-2 s-1 || xy || SO2 Volcanic (explosive) Emissions (Volcanic) |- | PSO2volc || SU || kg m-2 s-1 || xyz || SO2 Prod from DMS oxidation (Volcanic) |- | PMSAvolc || SU || kg m-2 s-1 || xyz || MSA Prod from DMS oxidation (Volcanic) |- | PSO4Gvolc || SU || kg m-2 s-1 || xyz || SO4 Prod from SO2 oxidation (Volcanic) |- | PSO4WETvolc || SU || kg m-2 s-1 || xyz || SO4 Prod from wet SO2 oxidation (Volcanic) |- | PSO4AQvolc || SU || kg m-2 s-1 || xyz || SO4 Prod from aqueous SO2 oxidation (Volcanic) |- | SUPSO2volc || SU || kg m-2 s-1 || xy || SO2 Prod from DMS Oxidation [column] (Volcanic) |- | SUPSO4Gvolc || SU || kg m-2 s-1 || xy || SO4 Prod from Gaseous SO2 Oxidation [column] (Volcanic) |- | SUPSO4AQvolc || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation [column] (Volcanic) |- | SUPSO4WTvolc || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation (wet dep) [column] (Volcanic) |- | SUPMSAvolc || SU || kg m-2 s-1 || xy || MSA Prod from DMS Oxidation [column] (Volcanic) |- | SO2SMASSvolc || SU || kg m-3 || xy || SO2 Surface Mass Concentration (Volcanic) |- | SO2CMASSvolc || SU || kg m-2 || xy || SO2 Column Mass Density (Volcanic) |- | SO4SMASSvolc || SU || kg m-3 || xy || SO4 Surface Mass Concentration (Volcanic) |- | SO4CMASSvolc || SU || kg m-2 || xy || SO4 Column Mass Density (Volcanic) |- | DMSSMASSvolc || SU || kg m-3 || xy || DMS Surface Mass Concentration (Volcanic) |- | DMSCMASSvolc || SU || kg m-2 || xy || DMS Column Mass Density (Volcanic) |- | MSASMASSvolc || SU || kg m-3 || xy || MSA Surface Mass Concentration (Volcanic) |- | MSACMASSvolc || SU || kg m-2 || xy || MSA Column Mass Density (Volcanic) |- | SUCONCvolc || SU || kg m-3 || xyz || SO4 Aerosol Mass Concentration (Volcanic) |- | SUEXTCOEFvolc || SU || m-1 || xyz || SO4 Extinction Coefficient [550 nm] (Volcanic) |- | SUSCACOEFvolc || SU || m-1 || xyz || SO4 Scattering Coefficient [550 nm] (Volcanic) |- | SUANGSTRvolc || SU || 1 || xy || SO4 Angstrom parameter [470-870 nm] (Volcanic) |- | SUFLUXUvolc || SU || kg m-1 s-1 || xy || SO4 column u-wind mass flux (Volcanic) |- | SUFLUXVvolc || SU || kg m-1 s-1 || xy || SO4 column v-wind mass flux (Volcanic) |- | SO4MASSvolc || SU || kg kg-1 || xyz || SO4 Aerosol Mass Mixing Ratio (Volcanic) |- | SUEXTTAUvolc || SU || 1 || xy || SO4 Extinction AOT [550 nm] (Volcanic) |- | SUSCATAUvolc || SU || 1 || xy || SO4 Scattering AOT [550 nm] (Volcanic) |- | SO4SAREAvolc || SU || m2 m-3 || xyz || SO4 Surface Area Density (Volcanic) |- | SO4SNUMvolc || SU || m-3 || xyz || SO4 Number Density (Volcanic) |- | SUEM001strat || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 001 (Stratospheric) |- | SUEM002strat || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 002 (Stratospheric) |- | SUEM003strat || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 003 (Stratospheric) |- | SUEM004strat || SU || kg m-2 s-1 || xy || Sulfate Emission Bin 004 (Stratospheric) |- | SUDP001strat || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 001 (Stratospheric) |- | SUDP002strat || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 002 (Stratospheric) |- | SUDP003strat || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 003 (Stratospheric) |- | SUDP004strat || SU || kg m-2 s-1 || xy || Sulfate Dry Deposition Bin 004 (Stratospheric) |- | SUSD001strat || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 001 (Stratospheric) |- | SUSD002strat || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 002 (Stratospheric) |- | SUSD003strat || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 003 (Stratospheric) |- | SUSD004strat || SU || kg m-2 s-1 || xy || Sulfate Settling Bin 004 (Stratospheric) |- | SUWT001strat || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 001 (Stratospheric) |- | SUWT002strat || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 002 (Stratospheric) |- | SUWT003strat || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 003 (Stratospheric) |- | SUWT004strat || SU || kg m-2 s-1 || xy || Sulfate Wet Deposition Bin 004 (Stratospheric) |- | SUSV001strat || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 001 (Stratospheric) |- | SUSV002strat || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 002 (Stratospheric) |- | SUSV003strat || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 003 (Stratospheric) |- | SUSV004strat || SU || kg m-2 s-1 || xy || Sulfate Convective Scavenging Bin 004 (Stratospheric) |- | SO4EMANstrat || SU || kg m-2 s-1 || xy || SO4 Anthropogenic Emissions (Stratospheric) |- | SO2EMANstrat || SU || kg m-2 s-1 || xy || SO2 Anthropogenic Emissions (Stratospheric) |- | SO2EMBBstrat || SU || kg m-2 s-1 || xy || SO2 Biomass Burning Emissions (Stratospheric) |- | SO2EMVNstrat || SU || kg m-2 s-1 || xy || SO2 Volcanic (non-explosive) Emissions (Stratospheric) |- | SO2EMVEstrat || SU || kg m-2 s-1 || xy || SO2 Volcanic (explosive) Emissions (Stratospheric) |- | PSO2strat || SU || kg m-2 s-1 || xyz || SO2 Prod from DMS oxidation (Stratospheric) |- | PMSAstrat || SU || kg m-2 s-1 || xyz || MSA Prod from DMS oxidation (Stratospheric) |- | PSO4Gstrat || SU || kg m-2 s-1 || xyz || SO4 Prod from SO2 oxidation (Stratospheric) |- | PSO4WETstrat || SU || kg m-2 s-1 || xyz || SO4 Prod from wet SO2 oxidation (Stratospheric) |- | PSO4AQstrat || SU || kg m-2 s-1 || xyz || SO4 Prod from aqueous SO2 oxidation (Stratospheric) |- | SUPSO2strat || SU || kg m-2 s-1 || xy || SO2 Prod from DMS Oxidation [column] (Stratospheric) |- | SUPSO4Gstrat || SU || kg m-2 s-1 || xy || SO4 Prod from Gaseous SO2 Oxidation [column] (Stratospheric) |- | SUPSO4AQstrat || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation [column] (Stratospheric) |- | SUPSO4WTstrat || SU || kg m-2 s-1 || xy || SO4 Prod from Aqueous SO2 Oxidation (wet dep) [column] (Stratospheric) |- | SUPMSAstrat || SU || kg m-2 s-1 || xy || MSA Prod from DMS Oxidation [column] (Stratospheric) |- | SO2SMASSstrat || SU || kg m-3 || xy || SO2 Surface Mass Concentration (Stratospheric) |- | SO2CMASSstrat || SU || kg m-2 || xy || SO2 Column Mass Density (Stratospheric) |- | SO4SMASSstrat || SU || kg m-3 || xy || SO4 Surface Mass Concentration (Stratospheric) |- | SO4CMASSstrat || SU || kg m-2 || xy || SO4 Column Mass Density (Stratospheric) |- | DMSSMASSstrat || SU || kg m-3 || xy || DMS Surface Mass Concentration (Stratospheric) |- | DMSCMASSstrat || SU || kg m-2 || xy || DMS Column Mass Density (Stratospheric) |- | MSASMASSstrat || SU || kg m-3 || xy || MSA Surface Mass Concentration (Stratospheric) |- | MSACMASSstrat || SU || kg m-2 || xy || MSA Column Mass Density (Stratospheric) |- | SUCONCstrat || SU || kg m-3 || xyz || SO4 Aerosol Mass Concentration (Stratospheric) |- | SUEXTCOEFstrat || SU || m-1 || xyz || SO4 Extinction Coefficient [550 nm] (Stratospheric) |- | SUSCACOEFstrat || SU || m-1 || xyz || SO4 Scattering Coefficient [550 nm] (Stratospheric) |- | SUANGSTRstrat || SU || 1 || xy || SO4 Angstrom parameter [470-870 nm] (Stratospheric) |- | SUFLUXUstrat || SU || kg m-1 s-1 || xy || SO4 column u-wind mass flux (Stratospheric) |- | SUFLUXVstrat || SU || kg m-1 s-1 || xy || SO4 column v-wind mass flux (Stratospheric) |- | SO4MASSstrat || SU || kg kg-1 || xyz || SO4 Aerosol Mass Mixing Ratio (Stratospheric) |- | SUEXTTAUstrat || SU || 1 || xy || SO4 Extinction AOT [550 nm] (Stratospheric) |- | SUSCATAUstrat || SU || 1 || xy || SO4 Scattering AOT [550 nm] (Stratospheric) |- | SO4SAREAstrat || SU || m2 m-3 || xyz || SO4 Surface Area Density (Stratospheric) |- | SO4SNUMstrat || SU || m-3 || xyz || SO4 Number Density (Stratospheric) |- | EMIS || Saltwater || 1 || tile || surface emissivity |- | ALBVR || Saltwater || 1 || tile || surface albedo for visible beam |- | ALBVF || Saltwater || 1 || tile || surface albedo for visible diffuse |- | ALBNR || Saltwater || 1 || tile || surface albedo for near infrared beam |- | ALBNF || Saltwater || 1 || tile || surface albedo for near infrared diffuse |- | EVAPOUT || Saltwater || kg m-2 s-1 || tile || evaporation |- | SUBLIM || Saltwater || kg m-2 s-1 || tile || sublimation |- | SNOWOCN || Saltwater || kg m-2 s-1 || tile || ocean snowfall |- | RAINOCN || Saltwater || kg m-2 s-1 || tile || ocean rainfall |- | SHOUT || Saltwater || W m-2 || tile || upward sensible heat flux |- | SHWTR || Saltwater || W m-2 || tile || open water upward sensible heat flux |- | SHICE || Saltwater || W m-2 || tile || sea ice upward sensible heat flux |- | HLWUP || Saltwater || W m-2 || tile || surface outgoing longwave flux |- | LWNDWTR || Saltwater || W m-2 || tile || open water net downward longwave flux |- | LWNDICE || Saltwater || W m-2 || tile || sea ice net downward longwave flux |- | LWNDSRF || Saltwater || W m-2 || tile || surface net downward longwave flux |- | SWNDSRF || Saltwater || W m-2 || tile || surface net downward shortwave flux |- | SWNDWTR || Saltwater || W m-2 || tile || open water net downward shortwave flux |- | SWNDICE || Saltwater || W m-2 || tile || sea ice net downward shortwave flux |- | HLATN || Saltwater || W m-2 || tile || total latent energy flux |- | HLATWTR || Saltwater || W m-2 || tile || open water latent energy flux |- | HLATICE || Saltwater || W m-2 || tile || sea ice latent energy flux |- | TST || Saltwater || K || tile || surface skin temperature |- | QST || Saltwater || kg kg-1 || tile || surface specific humidity |- | TH || Saltwater || K || tile || turbulence surface temperature |- | QH || Saltwater || kg kg-1 || tile || turbulence surface specific humidity |- | UH || Saltwater || m s-1 || tile || turbulence surface zonal velocity |- | VH || Saltwater || m s-1 || tile || turbulence surface meridional velocity |- | DELTS || Saltwater || K || tile || change of surface skin temperature |- | DELQS || Saltwater || kg kg-1 || tile || change of surface specific humidity |- | CHT || Saltwater || kg m-2 s-1 || tile || surface heat exchange coefficient |- | CMT || Saltwater || kg m-2 s-1 || tile || surface momentum exchange coefficient |- | CQT || Saltwater || kg m-2 s-1 || tile || surface moisture exchange coefficient |- | CNT || Saltwater || 1 || tile || neutral drag coefficient |- | RIT || Saltwater || 1 || tile || surface bulk richardson number |- | RET || Saltwater || 1 || tile || surface reynolds number |- | FRACI || Saltwater || 1 || tile || ice covered fraction of tile |- | FRACW || Saltwater || 1 || tile || water covered fraction of tile |- | PS || Saltwater || Pa || tile || surface pressure |- | GUST || Saltwater || m s-1 || tile || gustiness |- | VENT || Saltwater || m s-1 || tile || surface ventilation velocity |- | Z0 || Saltwater || m || tile || surface roughness |- | Z0H || Saltwater || m || tile || surface roughness for heat |- | MOT2M || Saltwater || K || tile || temperature 2m wind from MO sfc |- | MOQ2M || Saltwater || kg kg-1 || tile || humidity 2m wind from MO sfc |- | MOU2M || Saltwater || m s-1 || tile || zonal 2m wind from MO sfc |- | MOV2M || Saltwater || m s-1 || tile || meridional 2m wind from MO sfc |- | MOT10M || Saltwater || K || tile || temperature 10m wind from MO sfc |- | MOQ10M || Saltwater || kg kg-1 || tile || humidity 10m wind from MO sfc |- | MOU10M || Saltwater || m s-1 || tile || zonal 10m wind from MO sfc |- | MOV10M || Saltwater || m s-1 || tile || meridional 10m wind from MO sfc |- | MOU50M || Saltwater || m s-1 || tile || zonal 50m wind from MO sfc |- | MOV50M || Saltwater || m s-1 || tile || meridional 50m wind from MO sfc |- | TAUXW || Saltwater || N m-2 || tile || eastward stress over water |- | TAUYW || Saltwater || N m-2 || tile || northward stress over water |- | TAUXI || Saltwater || N m-2 || tile || eastward stress over ice |- | TAUYI || Saltwater || N m-2 || tile || northward stress over ice |- | TAUXO || Saltwater || N m-2 || tile || eastward stress on ocean |- | TAUYO || Saltwater || N m-2 || tile || northward stress on ocean |- | OUSTAR3 || Saltwater || m+3 s-3 || tile || ocean ustar cubed |- | UU || Saltwater || m s-1 || tile || surface wind speed |- | PENUVF || Saltwater || W m-2 || tile || downwelling uvr diffuse flux at skin base |- | PENUVR || Saltwater || W m-2 || tile || downwelling uvr direct flux at skin base |- | PENPAF || Saltwater || W m-2 || tile || downwelling par diffuse flux at skin base |- | PENPAR || Saltwater || W m-2 || tile || downwelling par direct flux at skin base |- | DCOOL || Saltwater || m || tile || depth of cool layer |- | DWARM || Saltwater || m || tile || depth at base of warm layer |- | TDROP || Saltwater || K || tile || temperature drop across cool layer |- | QCOOL || Saltwater || W m-2 || tile || net heating in cool layer |- | QWARM || Saltwater || W m-2 || tile || net heating in warm layer |- | SWCOOL || Saltwater || W m-2 || tile || solar heating in cool layer |- | SWWARM || Saltwater || W m-2 || tile || solar heating in warm layer |- | PHIW || Saltwater || 1 || tile || Similarity function in warm layer |- | LANGM || Saltwater || 1 || tile || Langmuir number |- | USTARW || Saltwater || m s-1 || tile || ustar over water |- | TBAR || Saltwater || K || tile || mean temperature of interface layer |- | LCOOL || Saltwater || 1 || tile || Saunders parameter |- | BCOOL || Saltwater || m+2 s-3 || tile || bouyancy generation in cool layer |- | TDEL || Saltwater || K || tile || temperature at base of cool layer |- | TS_FOUND || Saltwater || K || tile || foundation temperature for interface layer |- | TAUTW || Saltwater || s || tile || relaxation time of TW to TS FOUND |- | ZETA_W || Saltwater || 1 || tile || Stability parameter in Warm Layer |- | DISCHARGE || Saltwater || kg m-2 s-1 || tile || river discharge at ocean points |- | FRAZIL || Saltwater || m s-1 || tile || frazil ice growth |- | FRESH || Saltwater || kg m-2 s-1 || tile || fresh water flux to ocean |- | FSALT || Saltwater || kg m-2 s-1 || tile || salt flux to ocean |- | FHOCN || Saltwater || W m-2 || tile || actual ocean ice flux |- | FSWTHRU || Saltwater || W m-2 || tile || SW flux thru ice to ocean |- | FSWABS || Saltwater || W m-2 || tile || SW flux absorbed by skin layer |- | CONGEL || Saltwater || m s-1 || tile || congelation ice growth |- | SNOICE || Saltwater || m s-1 || tile || snow ice formation |- | MELTT || Saltwater || m s-1 || tile || top ice melt |- | MELTB || Saltwater || m s-1 || tile || basal ice melt |- | MELTL || Saltwater || m s-1 || tile || lateral ice melt |- | MELTS || Saltwater || m s-1 || tile || snow melt |- | HICE || Saltwater || m || tile || grid cell mean ice thickness |- | HSNO || Saltwater || m || tile || grid cell mean snow thickness |- | TSKINWCICE || Saltwater || K || tile || CICE water skin temperature |- | ISTSFC || Saltwater || C || tile || snow or ice surface temperature |- | IAGE || Saltwater || years || tile || sea ice age |- | SSKINW2 || Saltwater || psu || tile || sea skin layer salinity |- | DAIDTT || Saltwater || % day-1 || tile || ice area tendency dueto thermodynamics |- | DVIDTT || Saltwater || cm day-1 || tile || ice volume tendency dueto thermodynamics |- | FBOT || Saltwater || W m-2 || tile || net downward heat flux from ice to ocean |- | USTARI || Saltwater || m s-1 || tile || ice ocean friction velocity |- | HICEUNT || Saltwater || m || tile || grid cell mean ice thickness untouched by run2 |- | SNOONICE || Saltwater || kg m-2 s-1 || tile || snow fall on top of ice |- | SIALB || Saltwater || 1 || tile || broad band sea ice albedo |- | evap_CMIP5 || Saltwater || kg m-2 s-1 || tile || water evaporation flux |- | pr_CMIP5 || Saltwater || kg m-2 s-1 || tile || surface rainfall rate into the sea ice portion of the grid cell |- | prsn_CMIP5 || Saltwater || kg m-2 s-1 || tile || surface snowfall rate into the sea ice portion of the grid cell |- | grFrazil_CMIP5 || Saltwater || kg m-2 s-1 || tile || frazil sea ice growth rate |- | grCongel_CMIP5 || Saltwater || kg m-2 s-1 || tile || congelation sea ice growth rate |- | grLateral_CMIP5 || Saltwater || kg m-2 s-1 || tile || lateral sea ice growth rate |- | snoToIce_CMIP5 || Saltwater || kg m-2 s-1 || tile || snow ice formation rate |- | snomelt_CMIP5 || Saltwater || kg m-2 s-1 || tile || snow melt rate |- | tmelt_CMIP5 || Saltwater || kg m-2 s-1 || tile || rate of melt at upper surface of sea ice |- | bmelt_CMIP5 || Saltwater || kg m-2 s-1 || tile || rate of melt at sea ice base |- | sfdsi_CMIP5 || Saltwater || kg m-2 s-1 || tile || downward sea ice basal salt flux |- | hfsifrazil_CMIP5 || Saltwater || W m-2 || tile || heat flux into sea water due to frazil ice formation |- | ialb_CMIP5 || Saltwater || 1 || tile || bare sea ice albedo |- | rsdssi_CMIP5 || Saltwater || W m-2 || tile || surface downwelling shortwave flux in air |- | rsussi_CMIP5 || Saltwater || W m-2 || tile || surface upwelling shortwave flux in air |- | fsitherm_CMIP5 || Saltwater || kg m-2 s-1 || tile || water flux into sea water due to sea ice thermodynamics |- | HSKINW0 || Saltwater || kg m-2 || tile || skin water mass at the beginning of the time step |- | HSKINW1 || Saltwater || kg m-2 || tile || skin water mass at the end of the time step |- | TSKINW0 || Saltwater || K || tile || water skin temp at the beginning of the time step |- | TSKINW1 || Saltwater || K || tile || water skin temp at the end of the time step |- | TSKINWinc1 || Saltwater || K || tile || DTS for step 1 |- | TSKINWinc2 || Saltwater || K || tile || DTS for step 2 |- | TSKINWinc3 || Saltwater || K || tile || DTS for step 3 |- | TSKINWinctotal || Saltwater || K || tile || DTS for complete step |- | FWFLUX || Saltwater || kg m-2 s-1 || tile || fresh water flux weighted by fr |- | AHTPR || Saltwater || W m-2 || tile || atmospheric heat flux into skin due to precip |- | AHTFLX || Saltwater || W m-2 || tile || atmospheric heat flux into skin |- | AHTSW || Saltwater || W m-2 || tile || atmospheric heat flux into skin shortwave over openwater |- | AHTLW || Saltwater || W m-2 || tile || atmospheric heat flux into skin longwave |- | AHTLWD || Saltwater || W m-2 || tile || atmospheric heat flux into skin longwave down |- | AHTLWU || Saltwater || W m-2 || tile || atmospheric heat flux into skin longwave up |- | AHTSH || Saltwater || W m-2 || tile || atmospheric heat flux into skin sensible |- | AHTLH || Saltwater || W m-2 || tile || atmospheric heat flux into skin latent |- | AHTSWI || Saltwater || W m-2 || tile || atmospheric heat flux into skin shortwave over ice |- | AHTSNO || Saltwater || W m-2 || tile || atmospheric heat flux into skin due to melting snow |- | CFQW || Saltwater || 1 || tile || CFQ over open water |- | EVPW0 || Saltwater || kg m-2 s-1 || tile || evaporation over open water before correction |- | EVPW0A || Saltwater || kg m-2 s-1 || tile || evaporation over open water before correction partA |- | EVPW0B || Saltwater || kg m-2 s-1 || tile || evaporation over open water before correction partB |- | EVPW1 || Saltwater || kg m-2 s-1 || tile || evaporation over open water correction by dts |- | FCONDTOP || Saltwater || W m-2 || tile || conductive heat flux at ice top surface |- | FCONDBOT || Saltwater || W m-2 || tile || conductive heat flux at ice bottom surface |- | NEWICEERG || Saltwater || W m-2 || tile || heat flux associated with new ice generation |- | SUBLIMFLX || Saltwater || W m-2 || tile || heat flux associated with sublimation of snow ice |- | CO2SC || Saltwater || 1e-6 || tile || CO2 Surface Concentration Bin 001 |- | FCONDBOTN || Saltwater || W m-2 || tile || conductive heat flux at ice bottom over ice categories |- | TINZ || Saltwater || degC || tile || internal ice temperature over ice categories |- | DUDP || Saltwater || kg m-2 s-1 || tile || Dust Dry Deposition |- | DUWT || Saltwater || kg m-2 s-1 || tile || Dust Wet Deposition |- | DUSD || Saltwater || kg m-2 s-1 || tile || Dust Sedimentation |- | BCDP || Saltwater || kg m-2 s-1 || tile || Black Carbon Dry Deposition |- | BCWT || Saltwater || kg m-2 s-1 || tile || Black Carbon Wet Deposition |- | OCDP || Saltwater || kg m-2 s-1 || tile || Organic Carbon Dry Deposition |- | OCWT || Saltwater || kg m-2 s-1 || tile || Organic Carbon Wet Deposition |- | FSWBAND || Saltwater || W m-2 || tile || net surface downward shortwave flux per band in air |- | FSWBANDNA || Saltwater || W m-2 || tile || net surface downward shortwave flux per band in air assuming no aerosol |- | HFLUX || Saltwater || W m-2 || tile || heat flux bw saltwater ocean |- | WATERFLUX || Saltwater || kg m-2 s-1 || tile || water flux bw saltwater ocean |- | SALTFLUX || Saltwater || kg m-2 s-1 || tile || salt flux bw saltwater ocean |- | ISCCP_CU_UA || Satsim || 1 || xy || isccp fraction of thin lower cumulus |- | ISCCP_CU_UB || Satsim || 1 || xy || isccp fraction of thick lower cumulus |- | ISCCP_CU_OA || Satsim || 1 || xy || isccp fraction of thin higher cumulus |- | ISCCP_CU_OB || Satsim || 1 || xy || isccp fraction of thick higher cumulus |- | ISCCP_STCU_UA || Satsim || 1 || xy || isccp fraction of thin lower stratocumulus |- | ISCCP_STCU_UB || Satsim || 1 || xy || isccp fraction of thick lower stratocumulus |- | ISCCP_STCU_OA || Satsim || 1 || xy || isccp fraction of thin higher stratocumulus |- | ISCCP_STCU_OB || Satsim || 1 || xy || isccp fraction of thick higher stratocumulus |- | ISCCP_ST_UA || Satsim || 1 || xy || isccp fraction of thin lower stratus |- | ISCCP_ST_UB || Satsim || 1 || xy || isccp fraction of thick lower stratus |- | ISCCP_ST_OA || Satsim || 1 || xy || isccp fraction of thin higher stratus |- | ISCCP_ST_OB || Satsim || 1 || xy || isccp fraction of thick higher stratus |- | ISCCP_ACU_UA || Satsim || 1 || xy || isccp fraction of thin lower altocumulus |- | ISCCP_ACU_UB || Satsim || 1 || xy || isccp fraction of thick lower altocumulus |- | ISCCP_ACU_OA || Satsim || 1 || xy || isccp fraction of thin higher altocumulus |- | ISCCP_ACU_OB || Satsim || 1 || xy || isccp fraction of thick higher altocumulus |- | ISCCP_AST_UA || Satsim || 1 || xy || isccp fraction of thin lower altostratus |- | ISCCP_AST_UB || Satsim || 1 || xy || isccp fraction of thick lower altostratus |- | ISCCP_AST_OA || Satsim || 1 || xy || isccp fraction of thin higher altostratus |- | ISCCP_AST_OB || Satsim || 1 || xy || isccp fraction of thick higher altostratus |- | ISCCP_NST_UA || Satsim || 1 || xy || isccp fraction of thin lower nimbostratus |- | ISCCP_NST_UB || Satsim || 1 || xy || isccp fraction of thick lower nimbostratus |- | ISCCP_NST_OA || Satsim || 1 || xy || isccp fraction of thin higher nimbostratus |- | ISCCP_NST_OB || Satsim || 1 || xy || isccp fraction of thick higher nimbostratus |- | ISCCP_CI_UA || Satsim || 1 || xy || isccp fraction of thin lower cirrus |- | ISCCP_CI_UB || Satsim || 1 || xy || isccp fraction of thick lower cirrus |- | ISCCP_CI_MA || Satsim || 1 || xy || isccp fraction of thin middle cirrus |- | ISCCP_CI_MB || Satsim || 1 || xy || isccp fraction of thick middle cirrus |- | ISCCP_CI_OA || Satsim || 1 || xy || isccp fraction of thin higher cirrus |- | ISCCP_CI_OB || Satsim || 1 || xy || isccp fraction of thick higher cirrus |- | ISCCP_CIST_UA || Satsim || 1 || xy || isccp fraction of thin lower cirrostratus |- | ISCCP_CIST_UB || Satsim || 1 || xy || isccp fraction of thick lower cirrostratus |- | ISCCP_CIST_MA || Satsim || 1 || xy || isccp fraction of thin middle cirrostratus |- | ISCCP_CIST_MB || Satsim || 1 || xy || isccp fraction of thick middle cirrostratus |- | ISCCP_CIST_OA || Satsim || 1 || xy || isccp fraction of thin higher cirrostratus |- | ISCCP_CIST_OB || Satsim || 1 || xy || isccp fraction of thick higher cirrostratus |- | ISCCP_CB_UA || Satsim || 1 || xy || isccp fraction of thin lower cumulonimbus |- | ISCCP_CB_UB || Satsim || 1 || xy || isccp fraction of thick lower cumulonimbus |- | ISCCP_CB_MA || Satsim || 1 || xy || isccp fraction of thin middle cumulonimbus |- | ISCCP_CB_MB || Satsim || 1 || xy || isccp fraction of thick middle cumulonimbus |- | ISCCP_CB_OA || Satsim || 1 || xy || isccp fraction of thin higher cumulonimbus |- | ISCCP_CB_OB || Satsim || 1 || xy || isccp fraction of thick higher cumulonimbus |- | ISCCP_SUBV1 || Satsim || 1 || xy || isccp fraction of subvisible cloud 0 180 hPa |- | ISCCP_SUBV2 || Satsim || 1 || xy || isccp fraction of subvisible cloud 180 310 hPa |- | ISCCP_SUBV3 || Satsim || 1 || xy || isccp fraction of subvisible cloud 310 440 hPa |- | ISCCP_SUBV4 || Satsim || 1 || xy || isccp fraction of subvisible cloud 440 560 hPa |- | ISCCP_SUBV5 || Satsim || 1 || xy || isccp fraction of subvisible cloud 560 680 hPa |- | ISCCP_SUBV6 || Satsim || 1 || xy || isccp fraction of subvisible cloud 680 800 hPa |- | ISCCP_SUBV7 || Satsim || 1 || xy || isccp fraction of subvisible cloud 800 SFC hPa |- | CLISCCP1 || Satsim || 1 || xy || isccp cloud area fraction 0 180 hPa |- | CLISCCP2 || Satsim || 1 || xy || isccp cloud area fraction 180 310 hPa |- | CLISCCP3 || Satsim || 1 || xy || isccp cloud area fraction 310 440 hPa |- | CLISCCP4 || Satsim || 1 || xy || isccp cloud area fraction 440 560 hPa |- | CLISCCP5 || Satsim || 1 || xy || isccp cloud area fraction 560 680 hPa |- | CLISCCP6 || Satsim || 1 || xy || isccp cloud area fraction 680 800 hPa |- | CLISCCP7 || Satsim || 1 || xy || isccp cloud area fraction 800 SFC hPa |- | ISCCP1 || Satsim || 1 || xy || isccp cloud area fraction 0 180 hPa |- | ISCCP2 || Satsim || 1 || xy || isccp cloud area fraction 180 310 hPa |- | ISCCP3 || Satsim || 1 || xy || isccp cloud area fraction 310 440 hPa |- | ISCCP4 || Satsim || 1 || xy || isccp cloud area fraction 440 560 hPa |- | ISCCP5 || Satsim || 1 || xy || isccp cloud area fraction 560 680 hPa |- | ISCCP6 || Satsim || 1 || xy || isccp cloud area fraction 680 800 hPa |- | ISCCP7 || Satsim || 1 || xy || isccp cloud area fraction 800 SFC hPa |- | CLTISCCP || Satsim || 1 || xy || isccp cloud area fraction |- | TCLISCCP || Satsim || 1 || xy || isccp cloud area fraction |- | PCTISCCP || Satsim || Pa || xy || isccp air pressure at cloud top |- | CTPISCCP || Satsim || Pa || xy || isccp air pressure at cloud top |- | ALBISCCP || Satsim || 1 || xy || isccp cloud albedo |- | TBISCCP || Satsim || K || xy || isccp mean all sky 10.5 micron brightness temp |- | SGFCLD || Satsim || 1 || xyz || summed subgrid cloud fraction from scops |- | LIDARPMOL || Satsim || m-1 sr-1 || xyz || calipso molecular attenuated backscatter signal power |- | LIDARPTOT || Satsim || m-1 sr-1 || xyz || calipso total attenuated backscatter signal power |- | LIDARTAUTOT || Satsim || 1 || xyz || calipso optical thickess integrated from top to level z |- | RADARZETOT || Satsim || 1 || xyz || cloudsat total reflectivity |- | CLCALIPSO || Satsim || 1 || xyz || calipso total cloud fraction |- | CLLCALIPSO || Satsim || 1 || xy || calipso low level cloud fraction |- | CLMCALIPSO || Satsim || 1 || xy || calipso mid level cloud fraction |- | CLHCALIPSO || Satsim || 1 || xy || calipso high level cloud fraction |- | CLTCALIPSO || Satsim || 1 || xy || calipso total cloud fraction |- | PARASOLREFL0 || Satsim || 1 || xy || parasol reflectance |- | PARASOLREFL1 || Satsim || 1 || xy || parasol reflectance 1 |- | PARASOLREFL2 || Satsim || 1 || xy || parasol reflectance 2 |- | PARASOLREFL3 || Satsim || 1 || xy || parasol reflectance 3 |- | PARASOLREFL4 || Satsim || 1 || xy || parasol reflectance 4 |- | PARASOLREFL5 || Satsim || 1 || xy || parasol reflectance 5 |- | RADARLTCC || Satsim || 1 || xy || cloudsat calipso total cloud amount |- | CLCALIPSO2 || Satsim || 1 || xyz || calipso no cloudsat cloud fraction |- | CFADLIDARSR532_01 || Satsim || 1 || xyz || calipso scattering ratio cfad 01 |- | CFADLIDARSR532_02 || Satsim || 1 || xyz || calipso scattering ratio cfad 02 |- | CFADLIDARSR532_03 || Satsim || 1 || xyz || calipso scattering ratio cfad 03 |- | CFADLIDARSR532_04 || Satsim || 1 || xyz || calipso scattering ratio cfad 04 |- | CFADLIDARSR532_05 || Satsim || 1 || xyz || calipso scattering ratio cfad 05 |- | CFADLIDARSR532_06 || Satsim || 1 || xyz || calipso scattering ratio cfad 06 |- | CFADLIDARSR532_07 || Satsim || 1 || xyz || calipso scattering ratio cfad 07 |- | CFADLIDARSR532_08 || Satsim || 1 || xyz || calipso scattering ratio cfad 08 |- | CFADLIDARSR532_09 || Satsim || 1 || xyz || calipso scattering ratio cfad 09 |- | CFADLIDARSR532_10 || Satsim || 1 || xyz || calipso scattering ratio cfad 10 |- | CFADLIDARSR532_11 || Satsim || 1 || xyz || calipso scattering ratio cfad 11 |- | CFADLIDARSR532_12 || Satsim || 1 || xyz || calipso scattering ratio cfad 12 |- | CFADLIDARSR532_13 || Satsim || 1 || xyz || calipso scattering ratio cfad 13 |- | CFADLIDARSR532_14 || Satsim || 1 || xyz || calipso scattering ratio cfad 14 |- | CFADLIDARSR532_15 || Satsim || 1 || xyz || calipso scattering ratio cfad 15 |- | CLOUDSATCFAD01 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD02 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD03 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD04 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD05 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD06 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD07 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD08 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD09 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD10 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD11 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD12 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD13 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD14 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | CLOUDSATCFAD15 || Satsim || 1 || xyz || cloudsat radar reflectivity cfad |- | MDSCLDFRCTTL || Satsim || 1 || xy || modis cloud fraction total mean |- | MDSCLDFRCWTR || Satsim || 1 || xy || modis cloud fraction water mean |- | MDSCLDFRCH2O || Satsim || 1 || xy || modis cloud fraction water mean |- | MDSCLDFRCICE || Satsim || 1 || xy || modis cloud fraction ice mean |- | MDSCLDFRCHI || Satsim || 1 || xy || modis cloud fraction high mean |- | MDSCLDFRCMID || Satsim || 1 || xy || modis cloud fraction mid mean |- | MDSCLDFRCLO || Satsim || 1 || xy || modis cloud fraction low mean |- | MDSOPTHCKTTL || Satsim || 1 || xy || modis optical thickness total mean |- | MDSOPTHCKWTR || Satsim || 1 || xy || modis optical thickness water mean |- | MDSOPTHCKH2O || Satsim || 1 || xy || modis optical thickness water mean |- | MDSOPTHCKICE || Satsim || 1 || xy || modis optical thickness ice mean |- | MDSOPTHCKTTLLG || Satsim || 1 || xy || modis optical thickness total logmean |- | MDSOPTHCKWTRLG || Satsim || 1 || xy || modis optical thickness water logmean |- | MDSOPTHCKH2OLG || Satsim || 1 || xy || modis optical thickness water logmean |- | MDSOPTHCKICELG || Satsim || 1 || xy || modis optical thickness ice logmean |- | MDSCLDSZWTR || Satsim || 1 || xy || modis cloud particle size water mean |- | MDSCLDSZH20 || Satsim || 1 || xy || modis cloud particle size water mean |- | MDSCLDSZICE || Satsim || 1 || xy || modis cloud particle size ice mean |- | MDSCLDTOPPS || Satsim || 1 || xy || modis cloud top pressure total mean |- | MDSWTRPATH || Satsim || 1 || xy || modis liquid water path mean |- | MDSH2OPATH || Satsim || 1 || xy || modis liquid water path mean |- | MDSICEPATH || Satsim || 1 || xy || modis ice water path mean |- | MDSTAUPRSHIST11 || Satsim || 1 || xy || modis tau pressure histogram bin 1 1 |- | MDSTAUPRSHIST12 || Satsim || 1 || xy || modis tau pressure histogram bin 1 2 |- | MDSTAUPRSHIST13 || Satsim || 1 || xy || modis tau pressure histogram bin 1 3 |- | MDSTAUPRSHIST14 || Satsim || 1 || xy || modis tau pressure histogram bin 1 4 |- | MDSTAUPRSHIST15 || Satsim || 1 || xy || modis tau pressure histogram bin 1 5 |- | MDSTAUPRSHIST16 || Satsim || 1 || xy || modis tau pressure histogram bin 1 6 |- | MDSTAUPRSHIST17 || Satsim || 1 || xy || modis tau pressure histogram bin 1 7 |- | MDSTAUPRSHIST21 || Satsim || 1 || xy || modis tau pressure histogram bin 2 1 |- | MDSTAUPRSHIST22 || Satsim || 1 || xy || modis tau pressure histogram bin 2 2 |- | MDSTAUPRSHIST23 || Satsim || 1 || xy || modis tau pressure histogram bin 2 3 |- | MDSTAUPRSHIST24 || Satsim || 1 || xy || modis tau pressure histogram bin 2 4 |- | MDSTAUPRSHIST25 || Satsim || 1 || xy || modis tau pressure histogram bin 2 5 |- | MDSTAUPRSHIST26 || Satsim || 1 || xy || modis tau pressure histogram bin 2 6 |- | MDSTAUPRSHIST27 || Satsim || 1 || xy || modis tau pressure histogram bin 2 7 |- | MDSTAUPRSHIST31 || Satsim || 1 || xy || modis tau pressure histogram bin 3 1 |- | MDSTAUPRSHIST32 || Satsim || 1 || xy || modis tau pressure histogram bin 3 2 |- | MDSTAUPRSHIST33 || Satsim || 1 || xy || modis tau pressure histogram bin 3 3 |- | MDSTAUPRSHIST34 || Satsim || 1 || xy || modis tau pressure histogram bin 3 4 |- | MDSTAUPRSHIST35 || Satsim || 1 || xy || modis tau pressure histogram bin 3 5 |- | MDSTAUPRSHIST36 || Satsim || 1 || xy || modis tau pressure histogram bin 3 6 |- | MDSTAUPRSHIST37 || Satsim || 1 || xy || modis tau pressure histogram bin 3 7 |- | MDSTAUPRSHIST41 || Satsim || 1 || xy || modis tau pressure histogram bin 4 1 |- | MDSTAUPRSHIST42 || Satsim || 1 || xy || modis tau pressure histogram bin 4 2 |- | MDSTAUPRSHIST43 || Satsim || 1 || xy || modis tau pressure histogram bin 4 3 |- | MDSTAUPRSHIST44 || Satsim || 1 || xy || modis tau pressure histogram bin 4 4 |- | MDSTAUPRSHIST45 || Satsim || 1 || xy || modis tau pressure histogram bin 4 5 |- | MDSTAUPRSHIST46 || Satsim || 1 || xy || modis tau pressure histogram bin 4 6 |- | MDSTAUPRSHIST47 || Satsim || 1 || xy || modis tau pressure histogram bin 4 7 |- | MDSTAUPRSHIST51 || Satsim || 1 || xy || modis tau pressure histogram bin 5 1 |- | MDSTAUPRSHIST52 || Satsim || 1 || xy || modis tau pressure histogram bin 5 2 |- | MDSTAUPRSHIST53 || Satsim || 1 || xy || modis tau pressure histogram bin 5 3 |- | MDSTAUPRSHIST54 || Satsim || 1 || xy || modis tau pressure histogram bin 5 4 |- | MDSTAUPRSHIST55 || Satsim || 1 || xy || modis tau pressure histogram bin 5 5 |- | MDSTAUPRSHIST56 || Satsim || 1 || xy || modis tau pressure histogram bin 5 6 |- | MDSTAUPRSHIST57 || Satsim || 1 || xy || modis tau pressure histogram bin 5 7 |- | MDSTAUPRSHIST61 || Satsim || 1 || xy || modis tau pressure histogram bin 6 1 |- | MDSTAUPRSHIST62 || Satsim || 1 || xy || modis tau pressure histogram bin 6 2 |- | MDSTAUPRSHIST63 || Satsim || 1 || xy || modis tau pressure histogram bin 6 3 |- | MDSTAUPRSHIST64 || Satsim || 1 || xy || modis tau pressure histogram bin 6 4 |- | MDSTAUPRSHIST65 || Satsim || 1 || xy || modis tau pressure histogram bin 6 5 |- | MDSTAUPRSHIST66 || Satsim || 1 || xy || modis tau pressure histogram bin 6 6 |- | MDSTAUPRSHIST67 || Satsim || 1 || xy || modis tau pressure histogram bin 6 7 |- | MDSTAUPRSHIST71 || Satsim || 1 || xy || modis tau pressure histogram bin 7 1 |- | MDSTAUPRSHIST72 || Satsim || 1 || xy || modis tau pressure histogram bin 7 2 |- | MDSTAUPRSHIST73 || Satsim || 1 || xy || modis tau pressure histogram bin 7 3 |- | MDSTAUPRSHIST74 || Satsim || 1 || xy || modis tau pressure histogram bin 7 4 |- | MDSTAUPRSHIST75 || Satsim || 1 || xy || modis tau pressure histogram bin 7 5 |- | MDSTAUPRSHIST76 || Satsim || 1 || xy || modis tau pressure histogram bin 7 6 |- | MDSTAUPRSHIST77 || Satsim || 1 || xy || modis tau pressure histogram bin 7 7 |- | MISRMNCLDTP || Satsim || m || xy || MISR mead cloud top height |- | MISRCLDAREA || Satsim || 1 || xy || MISR cloud area |- | MISRLYRTP0 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP250 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP750 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP1250 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP1750 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP2250 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP2750 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP3500 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP4500 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP6000 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP8000 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP10000 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP12000 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP14000 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP16000 || Satsim || 1 || xy || MISR layer top |- | MISRLYRTP18000 || Satsim || 1 || xy || MISR layer top |- | MISRFQ0 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ250 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ750 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ1250 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ1750 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ2250 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ2750 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ3500 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ4500 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ6000 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ8000 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ10000 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ12000 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ14000 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ16000 || Satsim || 1 || xy || MISR cloud area |- | MISRFQ18000 || Satsim || 1 || xy || MISR cloud area |- | self%newvar_name(m) || Satsim || units || unk || long name |- | self%newvar_name(m) || Satsim || units || unk || long name |- | FSW || Solar || W m-2 || xyz || net downward shortwave flux in air |- | FSC || Solar || W m-2 || xyz || net downward shortwave flux in air assuming clear sky |- | FSWNA || Solar || W m-2 || xyz || net downward shortwave flux in air assuming no aerosol |- | FSCNA || Solar || W m-2 || xyz || net downward shortwave flux in air assuming clear sky and no aerosol |- | FSWD || Solar || W m-2 || xyz || downward shortwave flux in air |- | FSCD || Solar || W m-2 || xyz || downward shortwave flux in air assuming clear sky |- | FSWDNA || Solar || W m-2 || xyz || downward shortwave flux in air assuming no aerosol |- | FSCDNA || Solar || W m-2 || xyz || downward shortwave flux in air assuming clear sky and no aerosol |- | FSWU || Solar || W m-2 || xyz || upward shortwave flux in air |- | FSCU || Solar || W m-2 || xyz || upward shortwave flux in air assuming clear sky |- | FSWUNA || Solar || W m-2 || xyz || upward shortwave flux in air assuming no aerosol |- | FSCUNA || Solar || W m-2 || xyz || upward shortwave flux in air assuming clear sky and no aerosol |- | FSWBAND || Solar || W m-2 || xy || net surface downward shortwave flux per band in air |- | FSWBANDNA || Solar || W m-2 || xy || net surface downward shortwave flux per band in air assuming no aerosol |- | DRUVRN || Solar || 1 || xy || normalized surface downwelling ultraviolet beam flux |- | DFUVRN || Solar || 1 || xy || normalized surface downwelling ultraviolet diffuse flux |- | DRPARN || Solar || 1 || xy || normalized surface downwelling par beam flux |- | DFPARN || Solar || 1 || xy || normalized surface downwelling par diffuse flux |- | DRNIRN || Solar || 1 || xy || normalized surface downwelling nearinfrared beam flux |- | DFNIRN || Solar || 1 || xy || normalized surface downwelling nearinfrared diffuse flux |- | DRNUVR || Solar || W m-2 || xy || surface downwelling ultraviolet beam normal flux |- | DRNPAR || Solar || W m-2 || xy || surface downwelling par beam normal flux |- | DRNNIR || Solar || W m-2 || xy || surface downwelling nearinfrared beam normal flux |- | DRUVR || Solar || W m-2 || xy || surface downwelling ultraviolet beam flux |- | DFUVR || Solar || W m-2 || xy || surface downwelling ultraviolet diffuse flux |- | DRPAR || Solar || W m-2 || xy || surface downwelling par beam flux |- | DFPAR || Solar || W m-2 || xy || surface downwelling par diffuse flux |- | DRNIR || Solar || W m-2 || xy || surface downwelling nearinfrared beam flux |- | DFNIR || Solar || W m-2 || xy || surface downwelling nearinfrared diffuse flux |- | FCLD || Solar || 1 || xyz || cloud area fraction |- | CLDLO || Solar || 1 || xy || cloud area fraction for low clouds |- | CLDMD || Solar || 1 || xy || cloud area fraction for middle clouds |- | CLDHI || Solar || 1 || xy || cloud area fraction for high clouds |- | CLDTT || Solar || 1 || xy || total cloud area fraction |- | TAULO || Solar || 1 || xy || in cloud optical thickness of low clouds |- | TAUMD || Solar || 1 || xy || in cloud optical thickness of middle clouds |- | TAUHI || Solar || 1 || xy || in cloud optical thickness of high clouds(EXPORT) |- | TAUTT || Solar || 1 || xy || in cloud optical thickness of all clouds |- | TAUCLI || Solar || 1 || xyz || in cloud optical thickness for ice clouds |- | TAUCLW || Solar || 1 || xyz || in cloud optical thickness for liquid clouds |- | TAUCLR || Solar || 1 || xyz || in cloud optical thickness for falling rain |- | TAUCLS || Solar || 1 || xyz || in cloud optical thickness for falling snow |- | RSCS || Solar || W m-2 || xy || surface net downward shortwave flux assuming clear sky |- | RSRS || Solar || W m-2 || xy || surface net downward shortwave flux |- | RSCSNA || Solar || W m-2 || xy || surface net downward shortwave flux assuming clear sky and no aerosol |- | RSRSNA || Solar || W m-2 || xy || surface net downward shortwave flux assuming no aerosol |- | SLRSF || Solar || W m-2 || xy || surface incoming shortwave flux |- | SLRSFC || Solar || W m-2 || xy || surface incoming shortwave flux assuming clear sky |- | SLRSFNA || Solar || W m-2 || xy || surface incoming shortwave flux assuming clean sky |- | SLRSFCNA || Solar || W m-2 || xy || surface incoming shortwave flux assuming clear clean sky |- | SLRSUF || Solar || W m-2 || xy || surface outgoing shortwave flux |- | SLRSUFC || Solar || W m-2 || xy || surface outgoing shortwave flux assuming clear sky |- | SLRSUFNA || Solar || W m-2 || xy || surface outgoing shortwave flux assuming clean sky |- | SLRSUFCNA || Solar || W m-2 || xy || surface outgoing shortwave flux assuming clear clean sky |- | OSR || Solar || W m-2 || xy || toa outgoing shortwave flux |- | OSRCLR || Solar || W m-2 || xy || toa outgoing shortwave flux assuming clear sky |- | OSRNA || Solar || W m-2 || xy || toa outgoing shortwave flux no aerosol |- | OSRCNA || Solar || W m-2 || xy || toa outgoing shortwave flux no aerosol clear sky |- | RSR || Solar || W m-2 || xy || toa net downward shortwave flux |- | RSC || Solar || W m-2 || xy || toa net downward shortwave flux assuming clear sky |- | RSRNA || Solar || W m-2 || xy || toa net downward shortwave flux assuming no aerosol |- | RSCNA || Solar || W m-2 || xy || toa net downward shortwave flux assuming clear sky and no aerosol |- | SLRTP || Solar || W m-2 || xy || toa incoming shortwave flux |- | ALBEDO || Solar || 1 || xy || surface albedo |- | ALBVR || Solar || 1 || xy || surface albedo for visible beam |- | ALBVF || Solar || 1 || xy || surface albedo for visible diffuse |- | ALBNR || Solar || 1 || xy || surface albedo for near infrared beam |- | ALBNF || Solar || 1 || xy || surface albedo for near infrared diffuse |- | COSZ || Solar || 1 || xy || cosine of the solar zenith angle |- | MCOSZ || Solar || 1 || xy || mean cosine of the solar zenith angle |- | CLDTMP || Solar || K || xy || cloud top temperature |- | CLDPRS || Solar || Pa || xy || cloud top pressure |- | AERO || StratChem || kg kg-1 || xyz || aerosol mass mixing ratios |- | AERO_DP || StratChem || kg m-2 s-1 || xy || aerosol deposition |- | SZARAD || StratChem || rad || xy || solar zenith angle |- | SCBASEK || StratChem || 1 || xy || stratosphere base layer |- | N2OFLX || StratChem || kg s-1 || xy || derived N2O surface flux |- | CH4FLX || StratChem || kg s-1 || xy || derived CH4 surface flux |- | F11FLX || StratChem || kg s-1 || xy || derived CFC-11 surface flux |- | F113FLX || StratChem || kg s-1 || xy || derived CFC-113 surface flux |- | F12FLX || StratChem || kg s-1 || xy || derived CFC-12 surface flux |- | HCFC22FLX || StratChem || kg s-1 || xy || derived HCFC22 surface flux |- | HCFC141BFLX || StratChem || kg s-1 || xy || derived HCFC141b surface flux |- | HCFC142BFLX || StratChem || kg s-1 || xy || derived HCFC142b surface flux |- | CCL4FLX || StratChem || kg s-1 || xy || derived CCl4 surface flux |- | MCFFLX || StratChem || kg s-1 || xy || derived CH3CCl3 surface flux |- | CH3CLFLX || StratChem || kg s-1 || xy || derived CH3Cl surface flux |- | CH3BRFLX || StratChem || kg s-1 || xy || derived CH3Br surface flux |- | H1211FLX || StratChem || kg s-1 || xy || derived H1211 surface flux |- | H1301FLX || StratChem || kg s-1 || xy || derived H1301 surface flux |- | H1202FLX || StratChem || kg s-1 || xy || derived H1202 surface flux |- | H2402FLX || StratChem || kg s-1 || xy || derived H2402 surface flux |- | SCTO3 || StratChem || dobsons || xy || total ozone from StratChem |- | SCTTO3 || StratChem || dobsons || xy || tropospheric total ozone from StratChem |- | SCTROPP || StratChem || Pa || xy || tropopause pressure used in StratChem |- | AGCMTROPP || StratChem || Pa || xy || tropopause pressure imported into StratChem |- | NATSAD || StratChem || m-1 || xyz || surface area density nitric acid trihydrate PSC |- | ICESAD || StratChem || m-1 || xyz || surface area density water ice PSC |- | O3 || StratChem || kg kg-1 || xyz || ozone mass mixing ratio |- | O3PPMV || StratChem || ppmv || xyz || ozone volume mixing ratio |- | OX_TEND || StratChem || mol mol-1 s-1 || xyz || tendency of odd oxygen mixing ratio due to chemistry |- | H2O_TEND || StratChem || kg kg-1 s-1 || xyz || tendency of water vapor mixing ratio due to chemistry |- | OX_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change OX |- | NOX_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change NOX |- | HNO3_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HNO3 |- | N2O5_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change N2O5 |- | HO2NO2_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HO2NO2 |- | CLONO2_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CLONO2 |- | CLX_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CLX |- | HCL_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HCL |- | HOCL_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HOCL |- | H2O2_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change H2O2 |- | BRX_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change BRX |- | N2O_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change N2O |- | CL2_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CL2 |- | OCLO_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change OCLO |- | BRCL_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change BRCL |- | HBR_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HBR |- | BRONO2_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change BRONO2 |- | CH4_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CH4 |- | HOBR_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HOBR |- | CH3OOH_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CH3OOH |- | CO_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CO |- | HNO3COND_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HNO3COND |- | CFC11_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CFC11 |- | CFC12_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CFC12 |- | CFC113_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CFC113 |- | CFC114_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CFC114 |- | CFC115_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CFC115 |- | HCFC22_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HCFC22 |- | HCFC141B_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HCFC141B |- | HCFC142B_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HCFC142B |- | CCL4_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CCL4 |- | CH3CCL3_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CH3CCL3 |- | CH3CL_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CH3CL |- | CH3BR_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CH3BR |- | H1301_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change H1301 |- | H1211_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change H1211 |- | H1202_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change H1202 |- | H2402_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change H2402 |- | CHBR3_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change bromoform |- | CH2BR2_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change Dibromomethane |- | CH2BRCL_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CH2BRCL |- | CHBRCL2_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CHBRCL2 |- | CHBR2CL_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change CHBR2CL |- | HFC23_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HFC23 |- | HFC32_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HFC32 |- | HFC125_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HFC125 |- | HFC134A_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HFC134a |- | HFC143A_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HFC143a |- | HFC152A_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change HFC152a |- | CO2B_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change lat-depedent CO2 |- | SF6_SCTEND || StratChem || mol mol-1 s-1 || xyz || chemical rate of change SF6 |- | AOADAYS_SCTEND || StratChem || days s-1 || xyz || chemical rate of change AOADAYS |- | QQJ001 || StratChem || mol mol-1 s-1 || xyz || J-CFC11 |- | QQJ002 || StratChem || mol mol-1 s-1 || xyz || J-CFC12 |- | QQJ003 || StratChem || mol mol-1 s-1 || xyz || J-CFC113 |- | QQJ004 || StratChem || mol mol-1 s-1 || xyz || J-CCL4 |- | QQJ005 || StratChem || mol mol-1 s-1 || xyz || J-N2O |- | QQJ006 || StratChem || mol mol-1 s-1 || xyz || J-CH3CCL3 |- | QQJ007 || StratChem || mol mol-1 s-1 || xyz || J-H1301 |- | QQJ008 || StratChem || mol mol-1 s-1 || xyz || J-H1211 |- | QQJ009 || StratChem || mol mol-1 s-1 || xyz || J-H1202 |- | QQJ010 || StratChem || mol mol-1 s-1 || xyz || J-H2402 |- | QQJ011 || StratChem || mol mol-1 s-1 || xyz || J-HCFC141B |- | QQJ012 || StratChem || mol mol-1 s-1 || xyz || J-HCFC142B |- | QQJ013 || StratChem || mol mol-1 s-1 || xyz || J-CHBR3 |- | QQJ014 || StratChem || mol mol-1 s-1 || xyz || J-CH2BR2 |- | QQJ015 || StratChem || mol mol-1 s-1 || xyz || J-CH2BRCL |- | QQJ016 || StratChem || mol mol-1 s-1 || xyz || J-CHBRCL2 |- | QQJ017 || StratChem || mol mol-1 s-1 || xyz || J-CHBR2CL |- | QQJ018 || StratChem || mol mol-1 s-1 || xyz || QQJ018 |- | QQJ019 || StratChem || mol mol-1 s-1 || xyz || QQJ019 |- | QQJ020 || StratChem || mol mol-1 s-1 || xyz || QQJ020 |- | QQK001 || StratChem || mol mol-1 s-1 || xyz || K-OH-CH4 |- | QQK002 || StratChem || mol mol-1 s-1 || xyz || K-OH-CH3CCL3 |- | QQK003 || StratChem || mol mol-1 s-1 || xyz || K-OH-HCFC22 |- | QQK004 || StratChem || mol mol-1 s-1 || xyz || K-OH-HCFC141B |- | QQK005 || StratChem || mol mol-1 s-1 || xyz || K-OH-HCFC142B |- | QQK006 || StratChem || mol mol-1 s-1 || xyz || K-OH-CH3CL |- | QQK007 || StratChem || mol mol-1 s-1 || xyz || K-OH-CH3BR |- | QQK008 || StratChem || mol mol-1 s-1 || xyz || K-OH-CHBR3 |- | QQK009 || StratChem || mol mol-1 s-1 || xyz || K-OH-CH2BR2 |- | QQK010 || StratChem || mol mol-1 s-1 || xyz || K-OH-CH2BRCL |- | QQK011 || StratChem || mol mol-1 s-1 || xyz || K-OH-CHBRCL2 |- | QQK012 || StratChem || mol mol-1 s-1 || xyz || K-OH-CHBR2CL |- | QQK013 || StratChem || mol mol-1 s-1 || xyz || K-OH-HFC23 |- | QQK014 || StratChem || mol mol-1 s-1 || xyz || K-OH-HFC32 |- | QQK015 || StratChem || mol mol-1 s-1 || xyz || K-OH-HFC125 |- | QQK016 || StratChem || mol mol-1 s-1 || xyz || K-OH-HFC134A |- | QQK017 || StratChem || mol mol-1 s-1 || xyz || K-OH-HFC143A |- | QQK018 || StratChem || mol mol-1 s-1 || xyz || K-OH-HFC152A |- | QQK019 || StratChem || mol mol-1 s-1 || xyz || K-O1D-CFC11 |- | QQK020 || StratChem || mol mol-1 s-1 || xyz || K-O1D-CFC12 |- | QQK021 || StratChem || mol mol-1 s-1 || xyz || K-O1D-CFC113 |- | QQK022 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HCFC22 |- | QQK023 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HCFC141B |- | QQK024 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HCFC142B |- | QQK025 || StratChem || mol mol-1 s-1 || xyz || K-O1D-CH4 |- | QQK026 || StratChem || mol mol-1 s-1 || xyz || K-O1D-N2O |- | QQK027 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HFC23 |- | QQK028 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HFC32 |- | QQK029 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HFC125 |- | QQK030 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HFC134A |- | QQK031 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HFC143A |- | QQK032 || StratChem || mol mol-1 s-1 || xyz || K-O1D-HFC152A |- | QQK033 || StratChem || mol mol-1 s-1 || xyz || QQK033 |- | QQK034 || StratChem || mol mol-1 s-1 || xyz || QQK034 |- | QQK035 || StratChem || mol mol-1 s-1 || xyz || QQK035 |- | OCS_JRATE || StratChem || s-1 || xyz || J-OCS |- | rDryAir || StratChem || mol mol-1 || xyz || ratio of dry air over moist air |- | MCFOCNLOSS || StratChem || kg s-1 || xy || surface ocean loss rates of ch3ccl3 |- | CTCOCNLOSS || StratChem || kg s-1 || xy || surface ocean loss rates of ccl4 |- | CTCLNDLOSS || StratChem || kg s-1 || xy || surface land loss rates of ccl4 |- | U || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | V || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | T || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | S || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | TH || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PLE || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PL || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | ZLE || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PREF || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | AK || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | BK || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PLK || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PS || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DELP || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | TA || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | QA || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | SPEED || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DZ || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | TROPP_BLENDED || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PV || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | TV || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | OMEGA || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | EPV || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PEANA || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DTHVDTANAINT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PEPHY || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DTHVDTPHYINT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DQVDTANAINT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DQLDTANAINT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DQIDTANAINT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | DOXDTANAINT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | AREA || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | U_DGRID || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | V_DGRID || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PT || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | PE || Superdyn || Pa K s-1 || xyz || delta-p weighted temperature tendency |- | ALBVR || Surface || 1 || xy || surface albedo for visible beam |- | ALBVF || Surface || 1 || xy || surface albedo for visible diffuse |- | ALBNR || Surface || 1 || xy || surface albedo for nearinfrared beam |- | ALBNF || Surface || 1 || xy || surface albedo for nearinfraed diffuse |- | EMIS || Surface || 1 || xy || surface emissivity |- | Z0 || Surface || m || xy || surface roughness |- | Z0H || Surface || m || xy || surface roughness for heat |- | RI || Surface || 1 || xy || surface bulk richardson number |- | RE || Surface || 1 || xy || surface reynolds number |- | FRACI || Surface || 1 || xy || ice covered fraction of tile |- | QDWL || Surface || kg kg-1 || xy || surface liquid condensate |- | QFRL || Surface || kg kg-1 || xy || surface ice condensate |- | SHAT || Surface || m+2 s-2 || xy || effective surface dry static energy |- | DELUS || Surface || m s-1 || xy || change of surface eastward velocity |- | DELVS || Surface || m s-1 || xy || change of surface northward velocity |- | DELSS || Surface || m+2 s-2 || xy || change of surface dry static energy |- | DELTS || Surface || K || xy || change of surface skin temperature |- | DELQS || Surface || kg kg-1 || xy || change of surface specific humidity |- | DLQLL || Surface || kg kg-1 || xy || change of surface liquid condensate |- | DLQIL || Surface || kg kg-1 || xy || change of surface frozen condensate |- | FRLAND || Surface || 1 || xy || fraction of land |- | FRLANDICE || Surface || 1 || xy || fraction of land ice |- | FRLAKE || Surface || 1 || xy || fraction of lake |- | FROCEAN || Surface || 1 || xy || fraction of ocean |- | USTAR || Surface || m s-1 || xy || surface velocity scale |- | TSTAR || Surface || K || xy || surface temperature scale |- | QSTAR || Surface || kg kg-1 || xy || surface moisture scale |- | BSTAR || Surface || m s-2 || xy || surface buoyancy scale |- | TSOIL1 || Surface || K || xy || soil temperatures layer 1 |- | TSOIL2 || Surface || K || xy || soil temperatures layer 2 |- | TSOIL3 || Surface || K || xy || soil temperatures layer 3 |- | TSOIL4 || Surface || K || xy || soil temperatures layer 4 |- | TSOIL5 || Surface || K || xy || soil temperatures layer 5 |- | TSOIL6 || Surface || K || xy || soil temperatures layer 6 |- | ASNOW || Surface || 1 || xy || fractional area of land snowcover |- | SHSNOW || Surface || W m-2 || xy || downward heat flux into snow |- | AVETSNOW || Surface || K || xy || averaged snow temperature |- | TPSNOW || Surface || K || xy || surface temperature of snow |- | TPSAT || Surface || K || xy || surface temperature of saturated zone |- | TPUNST || Surface || K || xy || surface temperature of unsaturated zone |- | TPWLT || Surface || K || xy || surface temperature of wilted zone |- | TPSURF || Surface || K || xy || surface temperature of land incl snow |- | FRSAT || Surface || 1 || xy || fractional area of saturated zone |- | FRUST || Surface || 1 || xy || fractional area of unsaturated zone |- | FRWLT || Surface || 1 || xy || fractional area of wilting zone |- | SNOMAS || Surface || kg m-2 || xy || snow mass |- | WET1 || Surface || 1 || xy || surface soil wetness |- | WET2 || Surface || 1 || xy || root zone soil wetness |- | WET3 || Surface || 1 || xy || ave prof soil moisture |- | WCSF || Surface || m3 m-3 || xy || water surface layer |- | WCRZ || Surface || m3 m-3 || xy || water root zone |- | WCPR || Surface || m3 m-3 || xy || water profile |- | LAI || Surface || 1 || xy || leaf area index |- | GRN || Surface || 1 || xy || greenness fraction |- | Z2CH || Surface || m || xy || canopy height |- | ROOTL || Surface || m m-3 || xy || root length |- | SH || Surface || W m-2 || xy || sensible heat flux from turbulence |- | TAUX || Surface || N m-2 || xy || eastward surface stress |- | TAUY || Surface || N m-2 || xy || northward surface stress |- | EVAP || Surface || kg m-2 s-1 || xy || evaporation from turbulence |- | U10M || Surface || m s-1 || xy || 10-meter eastward wind |- | V10M || Surface || m s-1 || xy || 10-meter northward wind |- | U10N || Surface || m s-1 || xy || equivalent neutral 10-meter eastward wind |- | V10N || Surface || m s-1 || xy || equivalent neutral 10-meter northward wind |- | U50M || Surface || m s-1 || xy || 50-meter eastward wind |- | V50M || Surface || m s-1 || xy || 50-meter northward wind |- | T10M || Surface || K || xy || 10-meter air temperature |- | Q10M || Surface || kg kg-1 || xy || 10-meter specific humidity |- | U2M || Surface || m s-1 || xy || 2-meter eastward wind |- | V2M || Surface || m s-1 || xy || 2-meter northward wind |- | T2M || Surface || K || xy || 2-meter air temperature |- | Q2M || Surface || kg kg-1 || xy || 2-meter specific humidity |- | TA || Surface || K || xy || surface air temperature |- | QA || Surface || kg kg-1 || xy || surface air specific humidity |- | UA || Surface || m s-1 || xy || surface eastward wind |- | VA || Surface || m s-1 || xy || surface northward wind |- | GUST || Surface || m s-1 || xy || gustiness |- | VENT || Surface || m s-1 || xy || surface ventilation velocity |- | LWI || Surface || 1 || xy || land(1) water(0) ice(2) flag |- | SNOWDP || Surface || m || xy || snow depth |- | TAUXW || Surface || N m-2 || xy || eastward stress over water |- | TAUYW || Surface || N m-2 || xy || northward stress over water |- | TAUXI || Surface || N m-2 || xy || eastward stress over ice |- | TAUYI || Surface || N m-2 || xy || northward stress over ice |- | SHWTR || Surface || W m-2 || xy || open water upward sensible heat flux |- | SHICE || Surface || W m-2 || xy || sea ice upward sensible heat flux |- | HLATWTR || Surface || W m-2 || xy || open water latent energy flux |- | HLATICE || Surface || W m-2 || xy || sea ice latent energy flux |- | LWNDWTR || Surface || W m-2 || xy || open water net downward longwave flux |- | LWNDICE || Surface || W m-2 || xy || sea ice net downward longwave flux |- | SWNDWTR || Surface || W m-2 || xy || open water net downward shortwave flux |- | SWNDICE || Surface || W m-2 || xy || sea ice net downward shortwave flux |- | SNOWOCN || Surface || kg m-2 s-1 || xy || ocean snowfall |- | RAINOCN || Surface || kg m-2 s-1 || xy || ocean rainfall |- | EVAPOUT || Surface || kg m-2 s-1 || xy || evaporation |- | SUBLIM || Surface || kg m-2 s-1 || xy || sublimation |- | SHOUT || Surface || W m-2 || xy || upward sensible heat flux |- | LST || Surface || K || xy || land surface skin temperature |- | CDCR2 || Surface || kg m-2 || xy || max water content |- | DISCHARGE || Surface || kg m-2 s-1 || xy || river discharge at ocean points |- | DISCHARGE_IN || Surface || kg m-2 s-1 || xy || river discharge at ocean points |- | DISCHARGE_OUT || Surface || kg m-2 s-1 || xy || river discharge at ocean points |- | RUNOFF || Surface || kg m-2 s-1 || xy || runoff flux |- | DRAINAGE || Surface || kg m-2 s-1 || xy || river drainage at ocean points |- | EVPINT || Surface || W m-2 || xy || interception loss energy flux |- | EVPSOI || Surface || W m-2 || xy || baresoil evap energy flux |- | EVPVEG || Surface || W m-2 || xy || transpiration energy flux |- | EVPICE || Surface || W m-2 || xy || snow ice evaporation energy flux |- | EVPSNO || Surface || W m-2 || xy || snowpack evaporation energy flux |- | WAT10CM || Surface || kg m-2 || xy || soil moisture in Upper 10cm |- | WATSOI || Surface || kg m-2 || xy || total soil moisture |- | ICESOI || Surface || kg m-2 || xy || soil frozen water content |- | BASEFLOW || Surface || kg m-2 s-1 || xy || baseflow flux |- | RUNSURF || Surface || kg m-2 s-1 || xy || overland runoff including throughflow |- | EVLAND || Surface || kg m-2 s-1 || xy || Evaporation land |- | PRLAND || Surface || kg m-2 s-1 || xy || Total precipitation land |- | SNOLAND || Surface || kg m-2 s-1 || xy || snowfall land |- | DRPARLAND || Surface || W m-2 || xy || surface downwelling par beam flux |- | DFPARLAND || Surface || W m-2 || xy || surface downwelling par diffuse flux |- | LHSNOW || Surface || W m-2 || xy || Latent heat flux snow |- | TCSORIG || Surface || K || xy || Input tc for snow |- | TPSN1IN || Surface || K || xy || Input temp of top snow lev |- | TPSN1OUT || Surface || K || xy || Output temp of top snow lev |- | SWNETSNOW || Surface || W m-2 || xy || Net shortwave snow |- | LWUPSNOW || Surface || W m-2 || xy || Net longwave snow |- | LWDNSNOW || Surface || W m-2 || xy || Net longwave snow |- | GHSNOW || Surface || W m-2 || xy || Ground heating snow |- | LHLAND || Surface || W m-2 || xy || Latent heat flux land |- | SHLAND || Surface || W m-2 || xy || Sensible heat flux land |- | SWLAND || Surface || W m-2 || xy || Net shortwave land |- | SWDOWNLAND || Surface || W m-2 || xy || Incident shortwave land |- | LWLAND || Surface || W m-2 || xy || Net longwave land |- | GHLAND || Surface || W m-2 || xy || Ground heating land |- | GHTSKIN || Surface || W m-2 || xy || Ground heating for skin temp |- | SMLAND || Surface || kg m-2 s-1 || xy || Snowmelt flux land |- | QINFIL || Surface || kg m-2 s-1 || xy || Soil water infiltration rate |- | TWLAND || Surface || kg m-2 || xy || Avail water storage land |- | TELAND || Surface || J m-2 || xy || Total energy storage land |- | TSLAND || Surface || kg m-2 || xy || Total snow storage land |- | DWLAND || Surface || kg m-2 s-1 || xy || rate of change of total land water |- | DHLAND || Surface || W m-2 || xy || rate of change of total land energy |- | SPLAND || Surface || W m-2 || xy || rate of spurious land energy source |- | SPWATR || Surface || kg m-2 s-1 || xy || rate of spurious land water source |- | SPSNOW || Surface || W m-2 || xy || rate of spurious snow energy |- | SMELT || Surface || kg m-2 s-1 || xy || snowmelt flux |- | HLWUP || Surface || W m-2 || xy || surface outgoing longwave flux |- | LWNDSRF || Surface || W m-2 || xy || surface net downward longwave flux |- | SWNDSRF || Surface || W m-2 || xy || surface net downward shortwave flux |- | LHFX || Surface || W m-2 || xy || total latent energy flux |- | ACCUM || Surface || kg m-2 s-1 || xy || net ice accumulation rate |- | ITY || Surface || 1 || xy || vegetation type |- | NITY || Surface || 1 || xy || NCEP vegetation type |- | PCU || Surface || kg m-2 s-1 || xy || liquid water convective precipitation |- | PLS || Surface || kg m-2 s-1 || xy || liquid water large scale precipitation |- | PRECTOT || Surface || kg m-2 s-1 || xy || total precipitation |- | SNO || Surface || kg m-2 s-1 || xy || snowfall |- | TSKINW || Surface || K || xy || open water skin temperature |- | TSKINI || Surface || K || xy || sea ice skin temperature |- | HICE || Surface || m || xy || grid cell mean ice thickness |- | HSNO || Surface || m || xy || grid cell mean snow thickness |- | FRZMLT || Surface || W m-2 || xy || freezing melting potential |- | TSKINWCICE || Surface || K || xy || CICE water skin temperature |- | ISTSFC || Surface || C || xy || snow or ice surface temperature |- | SSKINW || Surface || psu || xy || sea skin layer salinity |- | MELTT || Surface || m s-1 || xy || top ice melt |- | MELTB || Surface || m s-1 || xy || basal ice melt |- | MELTL || Surface || m s-1 || xy || lateral ice melt |- | MELTS || Surface || m s-1 || xy || snow melt |- | FRAZIL || Surface || m s-1 || xy || frazil ice growth |- | CONGEL || Surface || m s-1 || xy || congelation ice growth |- | SNOICE || Surface || m s-1 || xy || snow-ice formation |- | DAIDTT || Surface || \% day-1 || xy || ice area tendency dueto thermodynamics |- | DVIDTT || Surface || cm day-1 || xy || ice volume tendency dueto thermodynamics |- | DAIDTD || Surface || \% day-1 || xy || ice area tendency dueto dynamics |- | DVIDTD || Surface || cm day-1 || xy || ice volume tendency dueto dynamics |- | FBOT || Surface || W m-2 || xy || net downward heat flux from ice to ocean |- | HFLUX || Surface || W m-2 || xy || heat flux bw saltwater ocean |- | WATERFLUX || Surface || kg m-2 s-1 || xy || FRESHWATER flux bw saltwater ocean |- | SALTFLUX || Surface || kg m-2 s-1 || xy || salt flux bw saltwater ocean |- | FSWTHRU || Surface || W m-2 || xy || SW flux thru ice to ocean |- | FSWABS || Surface || W m-2 || xy || SW flux absorbed by skin layer |- | USTARI || Surface || m s-1 || xy || ice ocean friction velocity |- | FHOCN || Surface || W m-2 || xy || actual ocean ice flux |- | WESNN1 || Surface || kg m-2 || xy || snow mass layer 1 |- | WESNN2 || Surface || kg m-2 || xy || snow mass layer 2 |- | WESNN3 || Surface || kg m-2 || xy || snow mass layer 3 |- | CAPAC || Surface || kg m-2 || xy || interception reservoir capac |- | T2MDEW || Surface || K || xy || dew point temperature at 2 m |- | T2MWET || Surface || K || xy || wet bulb temperature at 2 m |- | RH2M || Surface || % || xy || near-surface relative humidity |- | UU10M || Surface || m s-1 || xy || near-surface wind speed |- | DCOOL || Surface || m || xy || depth of cool layer |- | DWARM || Surface || m || xy || depth at base of warm layer |- | TDROP || Surface || K || xy || temperature drop across cool layer |- | QCOOL || Surface || W m-2 || xy || net cooling in cool layer |- | SWCOOL || Surface || W m-2 || xy || solar heating in cool layer |- | USTARW || Surface || m s-1 || xy || ustar over water layer |- | TBAR || Surface || K || xy || mean temperature of interface layer |- | LCOOL || Surface || 1 || xy || Saunders parameter |- | BCOOL || Surface || m+2 s-3 || xy || buoyancy generation in cool layer |- | TDEL || Surface || K || xy || temperature at base of cool layer |- | TS_FOUND || Surface || K || xy || foundation temperature for interface layer |- | QWARM || Surface || W m-2 || xy || net heating in warm layer |- | SWWARM || Surface || W m-2 || xy || solar heating in warm layer |- | LANGM || Surface || 1 || xy || Langmuir number |- | PHIW || Surface || 1 || xy || Similarity function in warm layer |- | TAUTW || Surface || s || xy || relaxation time of TW to TS FOUND |- | ZETA_W || Surface || 1 || xy || Stability parameter in Warm Layer |- | CNLAI || Surface || 1 || xy || CN exposed leaf-area index |- | CNTLAI || Surface || 1 || xy || CN total leaf-area index |- | CNSAI || Surface || 1 || xy || CN exposed stem-area index |- | CNTOTC || Surface || kg m-2 || xy || CN total carbon |- | CNVEGC || Surface || kg m-2 || xy || CN total vegetation carbon |- | CNROOT || Surface || kg m-2 || xy || CN total root carbon |- | CNNPP || Surface || kg m-2 s-1 || xy || CN net primary production |- | CNGPP || Surface || kg m-2 s-1 || xy || CN gross primary production |- | CNSR || Surface || kg m-2 s-1 || xy || CN total soil respiration |- | CNNEE || Surface || kg m-2 s-1 || xy || CN net ecosystem exchange |- | CNXSMR || Surface || kg m-2 || xy || abstract C pool to meet excess MR demand |- | CNADD || Surface || kg m-2 s-1 || xy || CN added to maintain positive C |- | CNLOSS || Surface || kg m-2 s-1 || xy || CN carbon loss to fire |- | CNBURN || Surface || s-1 || xy || CN fractional area burn rate |- | PARABS || Surface || W m-2 || xy || absorbed PAR |- | PARINC || Surface || W m-2 || xy || incident PAR |- | SCSAT || Surface || m s-1 || xy || saturated stomatal conductance |- | SCUNS || Surface || m s-1 || xy || unstressed stomatal conductance |- | BTRANT || Surface || 1 || xy || transpiration coefficient |- | SIF || Surface || umol m-2 sm s-1 || xy || solar induced fluorescence |- | CNFSEL || Surface || days || xy || fire season length |- | TRI || Turbulence || X kg m-2 s-1 || xyz || diffusion tendencies |- | FSTAR || Turbulence || X kg m-2 s-1 || xy || surface fluxes |- | DFSTAR || Turbulence || kg m-2 s-1 || xy || change of surface fluxes for unit change of surface value |- | T || Turbulence || K || xyz || air temperature |- | U || Turbulence || m s-1 || xyz || eastward wind |- | V || Turbulence || m s-1 || xyz || northward wind |- | QV || Turbulence || kg kg-1 || xyz || specific humidity |- | KM || Turbulence || m+2 s-1 || xyz || total momentum diffusivity |- | KH || Turbulence || m+2 s-1 || xyz || total scalar diffusivity |- | RI || Turbulence || 1 || xyz || Richardson number from Louis |- | DU || Turbulence || s-1 || xyz || bulk shear from Louis |- | KHLS || Turbulence || m+2 s-1 || xyz || scalar diffusivity from Louis |- | KMLS || Turbulence || m+2 s-1 || xyz || momentum diffusivity from Louis |- | KHSFC || Turbulence || m+2 s-1 || xyz || surface driven scalar diffusivity from Lock scheme |- | KHRAD || Turbulence || m+2 s-1 || xyz || radiation driven scalar diffusivity from Lock scheme |- | LWCRT || Turbulence || K s-1 || xyz || cloudy LW radiation tendency used by Lock scheme |- | EKH || Turbulence || m+2 s-1 || xyz || entrainment heat diffusivity from Lock |- | EKM || Turbulence || m+2 s-1 || xyz || entrainment momentum diffusivity from Lock |- | ALH || Turbulence || m || xyz || Blackadar length scale for scalars |- | INTDIS || Turbulence || K s-1 Pa || xyz || p-weighted frictional heating rate from diffusion |- | TOPDIS || Turbulence || K s-1 Pa || xyz || p-weighted frictional heating rate from orographic drag |- | DPDTTRB || Turbulence || Pa s-1 || xyz || layer pressure thickness tendency from turbulence |- | SRFDIS || Turbulence || K s-1 Pa || xy || p-weighted frictional heating rate from surface drag |- | HGTLM5 || Turbulence || m || xy || height at LM5 |- | LM50M || Turbulence || 1 || xy || LM at 50 meters |- | KETRB || Turbulence || W m-2 || xy || vertically integrated kinetic energy tendency across turbulence |- | KESRF || Turbulence || W m-2 || xy || vertically integrated kinetic energy dissipation due to surface friction |- | KEINT || Turbulence || W m-2 || xy || vertically integrated kinetic energy dissipation due to diffusion |- | KETOP || Turbulence || W m-2 || xy || vertically integrated kinetic energy dissipation due to topographic friction |- | WESFC || Turbulence || m s-1 || xy || entrainment velocity from surface plume |- | WERAD || Turbulence || m s-1 || xy || entrainment velocity from radiation |- | WEBRV || Turbulence || m s-1 || xy || entrainment velocity from buoy rev |- | DBUOY || Turbulence || m s-2 || xy || Buoyancy jump across inversion |- | VSCSFC || Turbulence || m s-1 || xy || turbulent velocity scale for sfc |- | VSCRAD || Turbulence || m s-1 || xy || turbulent velocity scale for cooling |- | VSCBRV || Turbulence || m s-1 || xy || turbulent velocity scale for buoy rev |- | KERAD || Turbulence || m+2 s-1 || xy || turbulent entrainment diff from cooling |- | CLDRF || Turbulence || W m-2 || xy || cloud top radiative forcing |- | PPBL || Turbulence || Pa || xy || pbltop pressure |- | ZSML || Turbulence || m || xy || pbltop height for sfc plume LOCK |- | ZRADML || Turbulence || m || xy || depth for radbrv plume LOCK |- | ZRADBS || Turbulence || m || xy || hght of base for radbrv plume LOCK |- | ZCLD || Turbulence || m || xy || pbltop cloud depth LOCK |- | ZCLDTOP || Turbulence || m || xy || pbltop cloud top height LOCK |- | CHIS || Turbulence || 1 || xy || optimal mixture fraction for BRV |- | SMIXT || Turbulence || J kg-1 || xy || s of optimal mixture for BRV |- | DELSINV || Turbulence || K || xy || Scaled Del s at Cloud top |- | DSIEMS || Turbulence || 1 || xy || Siems buoy rev parameter |- | RADRCODE || Turbulence || 1 || xy || Return codes for Lock top driven plume |- | AKSODT || Turbulence || 1 || xyz || matrix diagonal ak for scalars over dt |- | CKSODT || Turbulence || 1 || xyz || matrix diagonal ck for scalars over dt |- | AKQODT || Turbulence || 1 || xyz || matrix diagonal ak for moisture over dt |- | CKQODT || Turbulence || 1 || xyz || matrix diagonal ck for moisture over dt |- | AKVODT || Turbulence || 1 || xyz || matrix diagonal ak for winds over dt |- | CKVODT || Turbulence || 1 || xyz || matrix diagonal ck for winds over dt |- | TCZPBL || Turbulence || m || xy || transcom planetary boundary layer height |- | ZPBL2 || Turbulence || m || xy || planetary boundary layer height threshold 2 |- | ZPBL10p || Turbulence || m || xy || planetary boundary layer height threshold 10p |- | ZPBLHTKE || Turbulence || m || xy || planetary boundary layer height horiz tke |- | TKE || Turbulence || m+2 s-2 || xyz || turbulent kinetic energy |- | ZPBLRI || Turbulence || m || xy || planetary boundary layer height rich 0 |- | ZPBLRI2 || Turbulence || m || xy || planetary boundary layer height rich 02 |- | ZPBLTHV || Turbulence || m || xy || planetary boundary layer height thetav |- | KPBL || Turbulence || 1 || xy || pbltop level |- | SAFDIFFUSE || Turbulence || K || xyz || dry static energy after diffuse |- | SAFUPDATE || Turbulence || K || xyz || dry static energy after update |- | LAI || Vegdyn || 1 || tile || leaf area index |- | GRN || Vegdyn || 1 || tile || greeness fraction |- | Z2CH || Vegdyn || m || tile || canopy height |- | ROOTL || Vegdyn || m+2 || tile || root length density |- | DUDT || mkiau || m s-1 || xyz || eastward wind analysis increment |- | DVDT || mkiau || m s-1 || xyz || northward wind analysis increment |- | DTDT || mkiau || K || xyz || temperature analysis increment |- | DPEDT || mkiau || Pa || xyz || edge pressure analysis increment |- | DQVDT || mkiau || kg kg-1 || xyz || specific humidity analysis increment |- | DO3DT || mkiau || ppmv || xyz || ozone analysis increment |- | DTSDT || mkiau || K || xy || skin temparature increment |- | DUWINDFIX || mkiau || m s-1 || xyz || eastward windfix increment |- | DVWINDFIX || mkiau || m s-1 || xyz || northward windfix increment |- | PSBKG || mkiau || Pa || xy || surface air pressure of background |- | DELPBKG || mkiau || Pa || xyz || air pressure thickness of background |- | TVBKG || mkiau || K || xyz || virtual air temperature of background |- | UBKG || mkiau || m s-1 || xyz || eastward wind of background |- | VBKG || mkiau || m s-1 || xyz || northward wind of background |- | QVBKG || mkiau || kgkg || xyz || water vapor specific humdity of background |- | O3PPMVBKG || mkiau || ppmv || xyz || ozone volume mixing ratio of background |- | TSBKG || mkiau || K || xy || skin temperature of background |- | VINTDIV_ANA || mkiau || Pa s-1 || xy || vertically integrated mass divergence increment from analysis |- | VINTDIV_BKG || mkiau || Pa s-1 || xy || vertically integrated mass divergence increment from background |- | VINTDIV_COR || mkiau || Pa s-1 || xy || vertically integrated mass divergence increment from analysis corrected |} __FORCETOC__ ===Internal States (621) === {| class="wikitable" |+ List of GEOS-5 [IN] State variables ! Name !! Component !! Units !! Dim !! Long name |- | UNKNOWN || AChem || mol mol-1 || xyz || Dimethyl sulfide (DMS) |- | UNKNOWN || AChem || mol mol-1 || xyz || Methanesulfonic acid (MSA) |- | UNKNOWN || AChem || mol mol-1 || xyz || Sulfur dioxide (SO2) |- | UNKNOWN || AChem || mol mol-1 || xyz || Sulfuric acid (H2SO4 gas) |- | UNKNOWN || AChem || mol mol-1 || xyz || Ammonia (NH3) |- | UNKNOWN || AChem || mol mol-1 || xyz || Secondary Organic Aerosols (SOA gas) |- | UNKNOWN || AChem || mol mol-1 || xyz || Carbonyl Sulfide (OCS gas) |- | UNKNOWN || AChem || mol mol-1 || xyz || Volatile Organic Compound (VOC) |- | AK || ARIESg3 || Pa || z || hybrid sigma pressure a |- | BK || ARIESg3 || 1 || z || hybrid sigma pressure b |- | U || ARIESg3 || m s-1 || xyz || eastward wind |- | V || ARIESg3 || m s-1 || xyz || northward wind |- | PT || ARIESg3 || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || ARIESg3 || Pa || xyz || air pressure |- | PKZ || ARIESg3 || Pa$^\kappa$ || xyz || pressure to kappa |- | DUDT || Agcm || m s-2 || xyz || eastward wind bias tendency |- | DVDT || Agcm || m s-2 || xyz || northward wind bias tendency |- | DTDT || Agcm || K s-1 || xyz || temperature bias tendency |- | DPEDT || Agcm || Pa s-1 || xyz || edge pressure bias tendency |- | DQVDT || Agcm || kg kg-1 s-1 || xyz || specific humidity bias tendency |- | DO3DT || Agcm || mol mol-1 s-1 || xyz || ozone bias tendency |- | DTSDT || Agcm || K s-1 || xy || skin temperature tendency |- | UNKNOWN || CARMAchem || kgkg || xyz || UNKNOWN |- | UNKNOWN || CARMAchem || kgkg || xyz || UNKNOWN |- | UNKNOWN || CARMAchem || K || xyz || UNKNOWN |- | UNKNOWN || CARMAchem || kgkg || xyz || UNKNOWN |- | UNKNOWN || CARMAchem || 1 || xyz || UNKNOWN |- | UNKNOWN || CARMAchem || 1 || xyz || UNKNOWN |- | BF1 || Catch || kg m-4 || tile || topo baseflow param 1 |- | BF2 || Catch || m || tile || topo baseflow param 2 |- | BF3 || Catch || log(m) || tile || topo baseflow param 3 |- | VGWMAX || Catch || kg m-2 || tile || max rootzone water content |- | CDCR1 || Catch || kg m-2 || tile || moisture threshold |- | CDCR2 || Catch || kg m-2 || tile || max water content |- | PSIS || Catch || m || tile || saturated matric potential |- | BEE || Catch || 1 || tile || clapp hornberger b |- | POROS || Catch || 1 || tile || soil porosity |- | WPWET || Catch || 1 || tile || wetness at wilting point |- | COND || Catch || m s-1 || tile || sfc sat hydraulic conduct |- | GNU || Catch || m-1 || tile || vertical transmissivity |- | ARS1 || Catch || m+2 kg-1 || tile || wetness param 1 |- | ARS2 || Catch || m+2 kg-1 || tile || wetness param 2 |- | ARS3 || Catch || m+4 kg-2 || tile || wetness param 3 |- | ARA1 || Catch || m+2 kg-1 || tile || shape param 1 |- | ARA2 || Catch || 1 || tile || shape param 2 |- | ARA3 || Catch || m+2 kg-1 || tile || shape param 3 |- | ARA4 || Catch || 1 || tile || shape param 4 |- | ARW1 || Catch || m+2 kg-1 || tile || min theta param 1 |- | ARW2 || Catch || m+2 kg-1 || tile || min theta param 2 |- | ARW3 || Catch || m+4 kg-2 || tile || min theta param 3 |- | ARW4 || Catch || 1 || tile || min theta param 4 |- | TSA1 || Catch || 1 || tile || water transfer param 1 |- | TSA2 || Catch || 1 || tile || water transfer param 2 |- | TSB1 || Catch || 1 || tile || water transfer param 3 |- | TSB2 || Catch || 1 || tile || water transfer param 4 |- | ATAU || Catch || 1 || tile || water transfer param 5 |- | BTAU || Catch || 1 || tile || water transfer param 6 |- | OLD_ITY || Catch || 1 || tile || Placeholder. Used to be vegetation type. |- | TC || Catch || K || tile2 || canopy temperature |- | QC || Catch || kg kg-1 || tile2 || canopy specific humidity |- | CAPAC || Catch || kg m-2 || tile || interception reservoir capac |- | CATDEF || Catch || kg m-2 || tile || catchment deficit |- | RZEXC || Catch || kg m-2 || tile || root zone excess |- | SRFEXC || Catch || kg m-2 || tile || surface excess |- | GHTCNT1 || Catch || J m-2 || tile || soil heat content layer 1 |- | GHTCNT2 || Catch || J_m-2 || tile || soil heat content layer 2 |- | GHTCNT3 || Catch || J m-2 || tile || soil heat content layer 3 |- | GHTCNT4 || Catch || J m-2 || tile || soil heat content layer 4 |- | GHTCNT5 || Catch || J m-2 || tile || soil heat content layer 5 |- | GHTCNT6 || Catch || J m-2 || tile || soil heat content layer 6 |- | TSURF || Catch || K || tile || mean catchment temp incl snw |- | WESNN1 || Catch || kg m-2 || tile || snow mass layer 1 |- | WESNN2 || Catch || kg m-2 || tile || snow mass layer 2 |- | WESNN3 || Catch || kg m-2 || tile || snow mass layer 3 |- | HTSNNN1 || Catch || J m-2 || tile || heat content snow layer 1 |- | HTSNNN2 || Catch || J m-2 || tile || heat content snow layer 2 |- | HTSNNN3 || Catch || J m-2 || tile || heat content snow layer 3 |- | SNDZN1 || Catch || m || tile || snow depth layer 1 |- | SNDZN2 || Catch || m || tile || snow depth layer 2 |- | SNDZN3 || Catch || m || tile || snow depth layer 3 |- | CH || Catch || kg m-2 s-1 || tile2 || surface heat exchange coefficient |- | CM || Catch || kg m-2 s-1 || tile2 || surface momentum exchange coefficient |- | CQ || Catch || kg m-2 s-1 || tile2 || surface moisture exchange coffiecient |- | FR || Catch || 1 || tile2 || subtile fractions |- | WW || Catch || m+2 s-2 || tile2 || vertical velocity scale squared |- | BF1 || CatchCN || kg m-4 || tile || topo baseflow param 1 |- | BF2 || CatchCN || m || tile || topo baseflow param 2 |- | BF3 || CatchCN || log(m) || tile || topo baseflow param 3 |- | VGWMAX || CatchCN || kg m-2 || tile || max rootzone water content |- | CDCR1 || CatchCN || kg m-2 || tile || moisture threshold |- | CDCR2 || CatchCN || kg m-2 || tile || max water content |- | PSIS || CatchCN || m || tile || saturated matric potential |- | BEE || CatchCN || 1 || tile || clapp hornberger b |- | POROS || CatchCN || 1 || tile || soil porosity |- | WPWET || CatchCN || 1 || tile || wetness at wilting point |- | COND || CatchCN || m s-1 || tile || sfc sat hydraulic conduct |- | GNU || CatchCN || m-1 || tile || vertical transmissivity |- | ARS1 || CatchCN || m+2 kg-1 || tile || wetness param 1 |- | ARS2 || CatchCN || m+2 kg-1 || tile || wetness param 2 |- | ARS3 || CatchCN || m+4 kg-2 || tile || wetness param 3 |- | ARA1 || CatchCN || m+2 kg-1 || tile || shape param 1 |- | ARA2 || CatchCN || 1 || tile || shape param 2 |- | ARA3 || CatchCN || m+2 kg-1 || tile || shape param 3 |- | ARA4 || CatchCN || 1 || tile || shape param 4 |- | ARW1 || CatchCN || m+2 kg-1 || tile || min theta param 1 |- | ARW2 || CatchCN || m+2 kg-1 || tile || min theta param 2 |- | ARW3 || CatchCN || m+4 kg-2 || tile || min theta param 3 |- | ARW4 || CatchCN || 1 || tile || min theta param 4 |- | TSA1 || CatchCN || 1 || tile || water transfer param 1 |- | TSA2 || CatchCN || 1 || tile || water transfer param 2 |- | TSB1 || CatchCN || 1 || tile || water transfer param 3 |- | TSB2 || CatchCN || 1 || tile || water transfer param 4 |- | ATAU || CatchCN || 1 || tile || water transfer param 5 |- | BTAU || CatchCN || 1 || tile || water transfer param 6 |- | ITY || CatchCN || 1 || tile || vegetation type |- | FVG || CatchCN || 1 || tile || vegetation fraction |- | TC || CatchCN || K || tile2 || canopy temperature |- | QC || CatchCN || kg kg-1 || tile2 || canopy specific humidity |- | TG || CatchCN || 1 || tile2 || ground temperature |- | CAPAC || CatchCN || kg m-2 || tile || interception reservoir capac |- | CATDEF || CatchCN || kg m-2 || tile || catchment deficit |- | RZEXC || CatchCN || kg m-2 || tile || root zone excess |- | SRFEXC || CatchCN || kg m-2 || tile || surface excess |- | GHTCNT1 || CatchCN || J m-2 || tile || soil heat content layer 1 |- | GHTCNT2 || CatchCN || J_m-2 || tile || soil heat content layer 2 |- | GHTCNT3 || CatchCN || J m-2 || tile || soil heat content layer 3 |- | GHTCNT4 || CatchCN || J m-2 || tile || soil heat content layer 4 |- | GHTCNT5 || CatchCN || J m-2 || tile || soil heat content layer 5 |- | GHTCNT6 || CatchCN || J m-2 || tile || soil heat content layer 6 |- | TSURF || CatchCN || K || tile || mean catchment temp incl snw |- | WESNN1 || CatchCN || kg m-2 || tile || snow mass layer 1 |- | WESNN2 || CatchCN || kg m-2 || tile || snow mass layer 2 |- | WESNN3 || CatchCN || kg m-2 || tile || snow mass layer 3 |- | HTSNNN1 || CatchCN || J m-2 || tile || heat content snow layer 1 |- | HTSNNN2 || CatchCN || J m-2 || tile || heat content snow layer 2 |- | HTSNNN3 || CatchCN || J m-2 || tile || heat content snow layer 3 |- | SNDZN1 || CatchCN || m || tile || snow depth layer 1 |- | SNDZN2 || CatchCN || m || tile || snow depth layer 2 |- | SNDZN3 || CatchCN || m || tile || snow depth layer 3 |- | CH || CatchCN || kg m-2 s-1 || tile2 || surface heat exchange coefficient |- | CM || CatchCN || kg m-2 s-1 || tile2 || surface momentum exchange coefficient |- | CQ || CatchCN || kg m-2 s-1 || tile2 || surface moisture exchange coffiecient |- | FR || CatchCN || 1 || tile2 || subtile fractions |- | WW || CatchCN || m+2 s-2 || tile2 || vertical velocity scale squared |- | TILE_ID || CatchCN || 1 || tile || catchment tile id |- | NDEP || CatchCN || g m-2 s-1 || tile || CLM nitrogen deposition |- | CLI_T2M || CatchCN || K || tile || cli 2m T (MERRA2) |- | BGALBVR || CatchCN || 1 || tile || MODIS soil albedo vis dir |- | BGALBVF || CatchCN || 1 || tile || MODIS soil albedo vis dif |- | BGALBNR || CatchCN || 1 || tile || MODIS soil albedo nir dir |- | BGALBNF || CatchCN || 1 || tile || MODIS soil albedo nir dif |- | CNCOL || CatchCN || 1 || tile || column rst vars |- | CNPFT || CatchCN || 1 || tile || PFT rst vars |- | TGWM || CatchCN || K || tile || CN sum for ground temp |- | RZMM || CatchCN || 1 || tile || CN sum for soil moisture |- | SFMCM || CatchCN || 1 || tile || CN sum for sfc soil moist |- | BFLOWM || CatchCN || kg m-2 s-1 || tile || CN sum for baseflow |- | TOTWATM || CatchCN || kg m-2 || tile || CN sum for total water |- | TAIRM || CatchCN || K || tile || CN sum for air temperature |- | TPM || CatchCN || K || tile || CN sum for soil temp |- | CNSUM || CatchCN || 1 || tile || CN summing counter |- | PSNSUNM || CatchCN || umol m-2 s-1 || tile || CN sum for sunlit photosyn |- | PSNSHAM || CatchCN || umol m-2 s-1 || tile || CN sum for shaded photosyn |- | SNDZM || CatchCN || m || tile || CN sum for snow depth |- | ASNOWM || CatchCN || 1 || tile || CN sum for area snow cover |- | CHEM_TRACERS || Chem || X || || chemistry friendly tracers |- | U_DGRID || DFI || m s-1 || xyz || eastward wind |- | V_DGRID || DFI || m s-1 || xyz || northward wind |- | PT || DFI || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || DFI || Pa || xyz || air pressure |- | Q || DFI || kg kg^${-1}$ || xyz || specific humidity |- | OX || DFI || ppmv || xyz || molecular oxigen |- | UNKNOWN || DNA || || xyz || UNKNOWN |- | UNKNOWN || DNA || || xyz || UNKNOWN |- | UNKNOWN || DNA || || xyz || UNKNOWN |- | PREF || DatmoDyn || Pa || z || reference air pressure |- | PLE || DatmoDyn || Pascals || xyz || Pressure at the edges |- | T || DatmoDyn || K || xyz || air temperature |- | U || DatmoDyn || ms || xyz || Zonal wind |- | V || DatmoDyn || ms || xyz || meridional wind |- | OM || DatmoDyn || Pas || xyz || pressure velocity |- | AK || DynCore || Pa || z || hybrid sigma pressure a |- | BK || DynCore || 1 || z || hybrid sigma pressure b |- | U || DynCore || m s-1 || xyz || eastward wind |- | V || DynCore || m s-1 || xyz || northward wind |- | PT || DynCore || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || DynCore || Pa || xyz || air pressure |- | PKZ || DynCore || Pa$^\kappa$ || xyz || pressure to kappa |- | DZ || DynCore || m || xyz || height thickness |- | W || DynCore || m s-1 || xyz || vertical velocity |- | AK || DynVec || Pa || z || hybrid sigma pressure a |- | BK || DynVec || 1 || z || hybrid sigma pressure b |- | U || DynVec || m s-1 || xyz || eastward wind |- | V || DynVec || m s-1 || xyz || northward wind |- | PT || DynVec || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || DynVec || Pa || xyz || air pressure |- | PKZ || DynVec || Pa$^\kappa$ || xyz || pressure to kappa |- | DZ || DynVec || m || xyz || height thickness |- | W || DynVec || m s-1 || xyz || vertical velocity |- | AK || FVdycore || Pa || z || hybrid sigma pressure a |- | BK || FVdycore || 1 || z || hybrid sigma pressure b |- | U || FVdycore || m s-1 || xyz || eastward wind |- | V || FVdycore || m s-1 || xyz || northward wind |- | PT || FVdycore || K Pa$^{-\kappa}$ || xyz || scaled potential temperature |- | PE || FVdycore || Pa || xyz || air pressure |- | PKZ || FVdycore || Pa$^\kappa$ || xyz || pressure to kappa |- | AOADAYS || GMICHEM || days || xyz || Age-of-air |- | CH2O || GMICHEM || mol mol-1 || xyz || Formaldehyde |- | CH4 || GMICHEM || mol mol-1 || xyz || Methane |- | CO || GMICHEM || mol mol-1 || xyz || Carbon monoxyde |- | H2 || GMICHEM || mol mol-1 || xyz || Molecular hydrogen |- | HCOOH || GMICHEM || mol mol-1 || xyz || Formic acid (CH3O2) |- | HNO2 || GMICHEM || mol mol-1 || xyz || Nitrous acid |- | HNO3 || GMICHEM || mol mol-1 || xyz || Nitric acid |- | HNO4 || GMICHEM || mol mol-1 || xyz || Pernitric acid |- | HO2 || GMICHEM || mol mol-1 || xyz || Perhydroxyl radical |- | H2O2 || GMICHEM || mol mol-1 || xyz || Hydrogen peroxide |- | MOH || GMICHEM || mol mol-1 || xyz || Methanol |- | MP || GMICHEM || mol mol-1 || xyz || Methyl hydroperoxide |- | N2O || GMICHEM || mol mol-1 || xyz || Nitrous oxide |- | NO || GMICHEM || mol mol-1 || xyz || Nitric oxide |- | NO2 || GMICHEM || mol mol-1 || xyz || Nitrogen dioxide |- | NO3 || GMICHEM || mol mol-1 || xyz || Nitrogen trixide |- | N2O5 || GMICHEM || mol mol-1 || xyz || Dinitrogen pentoxide |- | OX || GMICHEM || mol mol-1 || xyz || Ozone |- | OH || GMICHEM || mol mol-1 || xyz || Hydroxyl radical |- | Br || GMICHEM || mol mol-1 || xyz || Ground state atomic bromine (2P32) |- | BrCl || GMICHEM || mol mol-1 || xyz || Bromine chloride |- | BrO || GMICHEM || mol mol-1 || xyz || Bromine monoxide radical |- | BrONO2 || GMICHEM || mol mol-1 || xyz || Bromine nitrate |- | HBr || GMICHEM || mol mol-1 || xyz || Hydrogen bromide |- | HOBr || GMICHEM || mol mol-1 || xyz || Hypobromous acid |- | Cl || GMICHEM || mol mol-1 || xyz || Ground state atomic chlorine (2P32) |- | Cl2 || GMICHEM || mol mol-1 || xyz || Molecular chlorine |- | ClO || GMICHEM || mol mol-1 || xyz || Chlorine monoxide radical |- | Cl2O2 || GMICHEM || mol mol-1 || xyz || Chlorine peroxide |- | ClONO2 || GMICHEM || mol mol-1 || xyz || Chlorine nitrate |- | HCl || GMICHEM || mol mol-1 || xyz || Hydrochloric acid |- | HOCl || GMICHEM || mol mol-1 || xyz || Hypochlorous acid |- | OClO || GMICHEM || mol mol-1 || xyz || Symmetrical chlorine dioxide |- | CH3Br || GMICHEM || mol mol-1 || xyz || Methyl bromide |- | CH3Cl || GMICHEM || mol mol-1 || xyz || Methyl chloride |- | CH3CCl3 || GMICHEM || mol mol-1 || xyz || Methyl chloroform |- | CCl4 || GMICHEM || mol mol-1 || xyz || Carbon tetrachloride |- | CFC11 || GMICHEM || mol mol-1 || xyz || CFC11 (CFCl3) |- | CFC12 || GMICHEM || mol mol-1 || xyz || CFC12 (CF2Cl2) |- | CFC113 || GMICHEM || mol mol-1 || xyz || CFC113 (C2Cl3F3) |- | CFC114 || GMICHEM || mol mol-1 || xyz || CFC114 (C2Cl2F4) |- | CFC115 || GMICHEM || mol mol-1 || xyz || CFC115 (C2ClF5) |- | HCFC22 || GMICHEM || mol mol-1 || xyz || HCFC22 (CClF2H) |- | HCFC141b || GMICHEM || mol mol-1 || xyz || HCFC141b (C2Cl2FH3) |- | HCFC142b || GMICHEM || mol mol-1 || xyz || HCFC142b (C2ClF2H3) |- | CF2Br2 || GMICHEM || mol mol-1 || xyz || Halon 1202 |- | CF2ClBr || GMICHEM || mol mol-1 || xyz || Halon 1211 |- | CF3Br || GMICHEM || mol mol-1 || xyz || Halon 1301 |- | H2402 || GMICHEM || mol mol-1 || xyz || Halon 24O2 (C2Br2F4) |- | ACTA || GMICHEM || mol mol-1 || xyz || Acetic acid (C2H4O2) |- | ALD2 || GMICHEM || mol mol-1 || xyz || Acetaldehyde (C2H4O) |- | ALK4 || GMICHEM || mol mol-1 || xyz || C45 alkanes (C4H10) |- | C2H6 || GMICHEM || mol mol-1 || xyz || Ethane |- | C3H8 || GMICHEM || mol mol-1 || xyz || Propane |- | ETP || GMICHEM || mol mol-1 || xyz || Ethylhydroperoxide |- | HAC || GMICHEM || mol mol-1 || xyz || Hydroxyacetone (C3H6O2) |- | IALD || GMICHEM || mol mol-1 || xyz || Hydroxy carbonyl alkenes (C5H8O2) from isoprene |- | IAP || GMICHEM || mol mol-1 || xyz || Peroxide (C5H10O5) from IAO2 |- | ISOP || GMICHEM || mol mol-1 || xyz || Isoprene |- | MACR || GMICHEM || mol mol-1 || xyz || Methacrolein (C4H6O) |- | MEK || GMICHEM || mol mol-1 || xyz || Methyl ethyl ketone (C4H8O) |- | MVK || GMICHEM || mol mol-1 || xyz || Methyl vinyl ketone (C4H6O) |- | PAN || GMICHEM || mol mol-1 || xyz || Peroxyacetyl nitrate (C2H3NO5) |- | PMN || GMICHEM || mol mol-1 || xyz || Peroxymethacryloyl nitrate (C4H5O5N) |- | PPN || GMICHEM || mol mol-1 || xyz || Prexypropionyl nitrate (C3H5O5N) |- | PRPE || GMICHEM || mol mol-1 || xyz || Propene (C3H6) |- | R4N2 || GMICHEM || mol mol-1 || xyz || C4-C5 alkylnitrates (C4H9O3N) |- | RCHO || GMICHEM || mol mol-1 || xyz || C2 aldehydes (C3H6O) |- | RCOOH || GMICHEM || mol mol-1 || xyz || C2 organic acids |- | N2 || GMICHEM || cm^-3 || xyz || Molecular nitrogen |- | HNO3COND || GMICHEM || mol mol-1 || xyz || Condensed nitric acid |- | H || GMICHEM || mol mol-1 || xyz || Ground state atomic hydrogen (2S) |- | MO2 || GMICHEM || mol mol-1 || xyz || Methylperoxy radical (CH3O2) |- | N || GMICHEM || mol mol-1 || xyz || Ground state atomic nitrogen |- | O || GMICHEM || mol mol-1 || xyz || Ground state atomic oxygen (3P) |- | O1D || GMICHEM || mol mol-1 || xyz || First excited state of atomic oxygen (1D) |- | A3O2 || GMICHEM || mol mol-1 || xyz || Primary RO2 (C3H7O2) from propane |- | ATO2 || GMICHEM || mol mol-1 || xyz || RO2 from acetone (C3H6O3) |- | B3O2 || GMICHEM || mol mol-1 || xyz || Secondary RO2 (C3H7O2) from propane |- | EOH || GMICHEM || mol mol-1 || xyz || Ethanol |- | ETO2 || GMICHEM || mol mol-1 || xyz || Ethylperoxy radical (C2H5O2) |- | GCO3 || GMICHEM || mol mol-1 || xyz || Hydroxy peroxyacetyl radical (C2H3O4) |- | GLYC || GMICHEM || mol mol-1 || xyz || Glycoaldehyde (Hydroxyacetaldehyde C2H4O2) |- | GLYX || GMICHEM || mol mol-1 || xyz || Glyoxal (2CHO) |- | GP || GMICHEM || mol mol-1 || xyz || Peroxide (C2H4O4) from GCO3 |- | GPAN || GMICHEM || mol mol-1 || xyz || Peroxyacylnitrate (C2H3O6) |- | IAO2 || GMICHEM || mol mol-1 || xyz || RO2 (C5H9O8) from isoprene oxidation products |- | INO2 || GMICHEM || mol mol-1 || xyz || RO2 (C5H8O3N) from ISOP+NO3 |- | INPN || GMICHEM || mol mol-1 || xyz || Peroxide (C5H8O6N2) from INO2 |- | ISN1 || GMICHEM || mol mol-1 || xyz || RO2 (C4H7O4N) from ISN2 |- | ISNP || GMICHEM || mol mol-1 || xyz || Peroxide (C4H7O4N) from ISN1 |- | KO2 || GMICHEM || mol mol-1 || xyz || RO2 (C4H7O3) from C3 ketones |- | MAN2 || GMICHEM || mol mol-1 || xyz || RO2 (C4H6O6N) from MACR+NO3 |- | MAO3 || GMICHEM || mol mol-1 || xyz || Peroxyacyl (C4H5O3) from MVK+MACR |- | MAOP || GMICHEM || mol mol-1 || xyz || Peroxide (C4H6O3) from MAO3 |- | MAP || GMICHEM || mol mol-1 || xyz || Peroxyacetic acid (C2H4O3) |- | MCO3 || GMICHEM || mol mol-1 || xyz || Peroxyacetyl radical (C2H3O3) |- | MGLY || GMICHEM || mol mol-1 || xyz || Methylglyoxal (C3H4O2) |- | MRO2 || GMICHEM || mol mol-1 || xyz || RO2 (C4H7O4) from MACR+OH |- | MRP || GMICHEM || mol mol-1 || xyz || Peroxide (C4H8O4) from MRO2 |- | MVN2 || GMICHEM || mol mol-1 || xyz || C4H6O4N |- | PO2 || GMICHEM || mol mol-1 || xyz || RO2 (C3H7O3) from propene |- | PP || GMICHEM || mol mol-1 || xyz || Peroxide (C3H8O3) from PO2 |- | PRN1 || GMICHEM || mol mol-1 || xyz || RO2 (C3H5O5N) from propene+NO3 |- | PRPN || GMICHEM || mol mol-1 || xyz || Peroxide (C3H6O3N) from PRN1 |- | R4N1 || GMICHEM || mol mol-1 || xyz || RO2 (C4H9O3N) from R4N2 |- | R4O2 || GMICHEM || mol mol-1 || xyz || RO2 (C4H9O2) from ALK4 |- | R4P || GMICHEM || mol mol-1 || xyz || Peroxide (C4H10O2) from R4O2 |- | RA3P || GMICHEM || mol mol-1 || xyz || Peroxypropyl alcohol (C3H8O2) from A3O2 |- | RB3P || GMICHEM || mol mol-1 || xyz || Peroxide from B3O2 |- | RCO3 || GMICHEM || mol mol-1 || xyz || Peroxypropionyl radical (C3H5O3) |- | RIO1 || GMICHEM || mol mol-1 || xyz || RO2 (C5H9O3) from isoprene oxidation products |- | RIO2 || GMICHEM || mol mol-1 || xyz || RO2 (C5H9O3) from isoprene |- | RIP || GMICHEM || mol mol-1 || xyz || Peroxide (C5H10O3) from RIO2 |- | ROH || GMICHEM || mol mol-1 || xyz || C2 alcohols |- | RP || GMICHEM || mol mol-1 || xyz || Methacrolein peroxy acid (C4H6O3) |- | VRO2 || GMICHEM || mol mol-1 || xyz || RO2 (C4H7O4) from MVK+OH |- | VRP || GMICHEM || mol mol-1 || xyz || Peroxide (C4H8O4) from VRO2 |- | ACET || GMICHEM || mol mol-1 || xyz || Acetone |- | O2 || GMICHEM || cm^-3 || xyz || Molecular oxygen |- | NUMDENS || GMICHEM || cm^-3 || xyz || Total number density |- | T2M15d || GMICHEM || K || xyz || Daily averages of T2M |- | UNKNOWN || GMIchem || UNKNOWN || xyz || UNKNOWN |- | UNKNOWN || GMIchem || UNKNOWN || xyz || UNKNOWN |- | UNKNOWN || GOCART || r%vunits(n) || xyz || r%vtitle(n) |- | PFACTOR || HEMCO || 1 || xy || soilnox pfactor restart |- | DRYPERIOD || HEMCO || 1 || xy || soilnox dryperiod restart |- | GWET_PREV || HEMCO || 1 || xy || soilnox gwet prev restart |- | DEP_RESERVOIR || HEMCO || kg m-3 || xy || soilnox dep reservoir restart |- | T_DAVG || HEMCO || 1 || xy || megan t davg restart |- | T_PREVDAY || HEMCO || 1 || xy || megan t prevday restart |- | LAI_PREVDAY || HEMCO || 1 || xy || megan lai prevday restart |- | PARDR_DAVG || HEMCO || Wm2 || xy || megan pardr davg restart |- | PARDF_DAVG || HEMCO || Wm2 || xy || megan pardf davg restart |- | DUDT || IAU || m s-1 || xyz || eastward wind analysis increment |- | DVDT || IAU || m s-1 || xyz || northward wind analysis increment |- | DTDT || IAU || K || xyz || temperature analysis increment |- | DPEDT || IAU || Pa || xyz || edge pressure analysis increment |- | DQVDT || IAU || kg kg-1 || xyz || specific humidity analysis increment |- | DO3DT || IAU || ppmv || xyz || ozone analysis increment |- | DTSDT || IAU || K || xy || skin temparature increment |- | FLX || Irrad || W m-2 || xyz || net downward longwave flux in air |- | FLC || Irrad || W m-2 || xyz || net downward longwave flux in air for clear sky(INTERNAL) |- | FLA || Irrad || W m-2 || xyz || net downward longwave flux in air for clear sky and no aerosol |- | FLXD || Irrad || W m-2 || xyz || downward longwave flux in air |- | FLXU || Irrad || W m-2 || xyz || upward longwave flux in air |- | FLCD || Irrad || W m-2 || xyz || downward longwave flux in air for clear sky |- | FLCU || Irrad || W m-2 || xyz || upward longwave flux in air for clear sky |- | FLAD || Irrad || W m-2 || xyz || downward longwave flux in air for clear sky and no aerosol |- | FLAU || Irrad || W m-2 || xyz || upward longwave flux in air for clear sky and no aerosol |- | DFDTS || Irrad || W m-2 K-1 || xyz || sensitivity of net downward longwave flux in air to surface temperature |- | DFDTSC || Irrad || W m-2 K-1 || xyz || sensitivity of net downward longwave flux in air to surface temperature for clear sky |- | SFCEM || Irrad || W m-2 || xy || longwave flux emitted from surface |- | TS || Irrad || K || xy || surface temperature |- | FLXA || Irrad || W m-2 || xyz || net downward longwave flux in air and no aerosol |- | FLXAD || Irrad || W m-2 || xyz || downward longwave flux in air and no aerosol |- | FLXAU || Irrad || W m-2 || xyz || upward longwave flux in air and no aerosol |- | TS || Lake || K || tile2 || surface skin temperature |- | QS || Lake || kg kg-1 || tile2 || surface specific humidity |- | FR || Lake || 1 || tile2 || ice fraction |- | CH || Lake || kg m-2 s-1 || tile2 || surface heat exchange coefficient |- | CM || Lake || kg m-2 s-1 || tile2 || surface momentum exchange coefficient |- | CQ || Lake || kg m-2 s-1 || tile2 || surface moisture exchange coefficient |- | TS || Landice || K || tile || surface skin temperature |- | QS || Landice || kg kg-1 || tile || surface specific humidity |- | FR || Landice || 1 || tile || ice fraction |- | CH || Landice || kg m-2 s-1 || tile || surface heat exchange coefficient |- | CM || Landice || kg m-2 s-1 || tile || surface momentum exchange coefficient |- | CQ || Landice || kg m-2 s-1 || tile || surface moisture exchange coefficient |- | WESN || Landice || kg m-2 || tile || snow layer mass |- | HTSN || Landice || J m-2 || tile || snow layer heat content |- | SNDZ || Landice || m || tile || snow layer depth |- | TICE || Landice || k || tile || ice layer temperature |- | || MAMchem || #kg || xyz || UNKNOWN |- | || MAMchem || kg kg-1 || xyz || UNKNOWN |- | || MAMchem || kg kg-1 || xyz || UNKNOWN |- | || MAMchem || m || xyz || UNKNOWN |- | || MAMchem || m || xyz || UNKNOWN |- | || MAMchem || #kg || xyz || UNKNOWN |- | || MAMchem || kg kg-1 || xyz || UNKNOWN |- | || MAMchem || m || xyz || UNKNOWN |- | || MAMchem || m || xyz || UNKNOWN |- | N_AKK || MATRIXchem || || xyz || |- | M_AKK_SU || MATRIXchem || || xyz || |- | N_ACC || MATRIXchem || || xyz || |- | M_ACC_SU || MATRIXchem || || xyz || |- | N_DD1 || MATRIXchem || || xyz || |- | M_DD1_DU || MATRIXchem || || xyz || |- | M_DD1_SU || MATRIXchem || || xyz || |- | N_DS1 || MATRIXchem || || xyz || |- | M_DS1_DU || MATRIXchem || || xyz || |- | M_DS1_SU || MATRIXchem || || xyz || |- | N_DD2 || MATRIXchem || || xyz || |- | M_DD2_DU || MATRIXchem || || xyz || |- | M_DD2_SU || MATRIXchem || || xyz || |- | N_DS2 || MATRIXchem || || xyz || |- | M_DS2_DU || MATRIXchem || || xyz || |- | M_DS2_SU || MATRIXchem || || xyz || |- | M_SSA_SS || MATRIXchem || || xyz || |- | M_SSA_SU || MATRIXchem || || xyz || |- | N_SSA || MATRIXchem || || xyz || |- | M_SSC_SS || MATRIXchem || || xyz || |- | M_SSC_SU || MATRIXchem || || xyz || |- | N_SSC || MATRIXchem || || xyz || |- | N_OCC || MATRIXchem || || xyz || |- | M_OCC_OC || MATRIXchem || || xyz || |- | M_OCC_SU || MATRIXchem || || xyz || |- | N_BC1 || MATRIXchem || || xyz || |- | M_BC1_BC || MATRIXchem || || xyz || |- | M_BC1_SU || MATRIXchem || || xyz || |- | N_BC2 || MATRIXchem || || xyz || |- | M_BC2_BC || MATRIXchem || || xyz || |- | M_BC2_SU || MATRIXchem || || xyz || |- | N_BC3 || MATRIXchem || || xyz || |- | M_BC3_BC || MATRIXchem || || xyz || |- | M_BC3_SU || MATRIXchem || || xyz || |- | N_DBC || MATRIXchem || || xyz || |- | M_DBC_DU || MATRIXchem || || xyz || |- | M_DBC_BC || MATRIXchem || || xyz || |- | M_DBC_SU || MATRIXchem || || xyz || |- | N_BOC || MATRIXchem || || xyz || |- | M_BOC_BC || MATRIXchem || || xyz || |- | M_BOC_OC || MATRIXchem || || xyz || |- | M_BOC_SU || MATRIXchem || || xyz || |- | N_BCS || MATRIXchem || || xyz || |- | M_BCS_BC || MATRIXchem || || xyz || |- | M_BCS_SU || MATRIXchem || || xyz || |- | N_MXX || MATRIXchem || || xyz || |- | M_MXX_BC || MATRIXchem || || xyz || |- | M_MXX_OC || MATRIXchem || || xyz || |- | M_MXX_DU || MATRIXchem || || xyz || |- | M_MXX_SS || MATRIXchem || || xyz || |- | M_MXX_SU || MATRIXchem || || xyz || |- | M_NH4 || MATRIXchem || || xyz || |- | M_NO3 || MATRIXchem || || xyz || |- | M_H2O || MATRIXchem || || xyz || |- | DGN_AKK || MATRIXchem || m || xyz || diameter of AKK |- | DGN_ACC || MATRIXchem || m || xyz || diameter of ACC |- | DGN_DD1 || MATRIXchem || m || xyz || diameter of DD1 |- | DGN_DS1 || MATRIXchem || m || xyz || diameter of DS1 |- | DGN_DD2 || MATRIXchem || m || xyz || diameter of |- | DGN_DS2 || MATRIXchem || m || xyz || diameter of AKK |- | DGN_SSA || MATRIXchem || m || xyz || diameter of AKK |- | DGN_SSC || MATRIXchem || m || xyz || diameter of AKK |- | DGN_OCC || MATRIXchem || m || xyz || diameter of AKK |- | DGN_BC1 || MATRIXchem || m || xyz || diameter of AKK |- | DGN_BC2 || MATRIXchem || m || xyz || diameter of AKK |- | DGN_BC3 || MATRIXchem || m || xyz || diameter of AKK |- | DGN_DBC || MATRIXchem || m || xyz || diameter of AKK |- | DGN_BOC || MATRIXchem || m || xyz || diameter of AKK |- | DGN_BCS || MATRIXchem || m || xyz || diameter of AKK |- | DGN_MXX || MATRIXchem || m || xyz || diameter of AKK |- | Q || Moist || kg kg-1 || xyz || specific humidity |- | QLLS || Moist || kg kg-1 || xyz || mass fraction of large scale cloud liquid water |- | QLCN || Moist || kg kg-1 || xyz || mass fraction of convective cloud liquid water |- | CLLS || Moist || 1 || xyz || large scale cloud area fraction |- | CLCN || Moist || 1 || xyz || convective cloud area fraction |- | QILS || Moist || kg kg-1 || xyz || mass fraction of large scale cloud ice water |- | QICN || Moist || kg kg-1 || xyz || mass fraction of convective cloud ice water |- | NCPL || Moist || kg-1 || xyz || particle number for liquid cloud |- | NCPI || Moist || kg-1 || xyz || particle number for ice cloud |- | QW || Moist || kg kg-1 || xyz || mass fraction of wet air |- | KPAR_PREV || Orad || m-1 || xy || KPAR previous |- | KPAR_NEXT || Orad || m-1 || xy || KPAR next |- | OX || PChem || mol mol-1 || xyz || odd oxygen volume mixing ratio |- | N2O || PChem || mol mol-1 || xyz || nitrous oxide volume mixing ratio |- | CFC11 || PChem || mol mol-1 || xyz || CFC11 (CCl3F) volume mixing ratio |- | CFC12 || PChem || mol mol-1 || xyz || CFC12 (CCl2F2) volume mixing ratio |- | HCFC22 || PChem || mol mol-1 || xyz || HCFC22 (CHClF2) volume mixing ratio |- | CH4 || PChem || mol mol-1 || xyz || methane volume mixing ratio |- | AOA || PChem || days || xyz || age of air |- | HSKINW || Saltwater || kg m-2 || tile || water skin layer mass |- | TSKINW || Saltwater || K || tile || water skin temperature |- | SSKINW || Saltwater || psu || tile || water skin salinity |- | HSKINI || Saltwater || kg m-2 || tile || ice skin layer mass |- | TSKINI || Saltwater || K || tile || ice skin temperature |- | TSKINI || Saltwater || K || tile || ice skin temperature |- | SSKINI || Saltwater || psu || tile || ice skin salinity |- | QS || Saltwater || kg kg-1 || tile2 || surface specific humidity |- | CH || Saltwater || kg m-2 s-1 || tile2 || surface heat exchange coefficient |- | CM || Saltwater || kg m-2 s-1 || tile2 || surface momentum exchange coefficient |- | CQ || Saltwater || kg m-2 s-1 || tile2 || surface moisture exchange coefficient |- | Z0 || Saltwater || m || tile2 || aerodynamic roughness |- | WW || Saltwater || m+2 s-2 || tile2 || vertical velocity scale squared |- | TWMTS || Saltwater || K || tile || departure of skin temperature from mean interface temperature |- | FR || Saltwater || 1 || tile || subtile fractions of grid cell |- | VOLICE || Saltwater || m || tile || ice category volume per unit area of grid cell |- | VOLSNO || Saltwater || m || tile || snow category volume per unit area of grid cell |- | VOLPOND || Saltwater || m || tile || pond category volume per unit area of grid cell |- | APONDN || Saltwater || 1 || tile || pond concentration |- | HPONDN || Saltwater || m || tile || pond depth |- | ERGICE || Saltwater || J m-2 || tile || ice category layer internal energy |- | ERGSNO || Saltwater || J m-2 || tile || snow category layer internal energy |- | TAUAGE || Saltwater || s || tile || volume weighted mean ice age |- | SLMASK || Saltwater || 1 || tile || salt water lake mask |- | FSWN || Solar || 1 || xyz || normalized net downward shortwave flux in air |- | FSCN || Solar || 1 || xyz || normalized net downward shortwave flux in air assuming clear sky |- | FSWUN || Solar || 1 || xyz || normalized upward shortwave flux in air |- | FSCUN || Solar || 1 || xyz || normalized upward shortwave flux in air assuming clear sky |- | FSWBANDN || Solar || 1 || xy || normalized net surface downward shortwave flux per band in air |- | DRUVRN || Solar || 1 || xy || normalized surface downwelling ultraviolet beam flux |- | DFUVRN || Solar || 1 || xy || normalized surface downwelling ultraviolet diffuse flux |- | DRPARN || Solar || 1 || xy || normalized surface downwelling par beam flux |- | DFPARN || Solar || 1 || xy || normalized surface downwelling par diffuse flux |- | DRNIRN || Solar || 1 || xy || normalized surface downwelling nearinfrared beam flux |- | DFNIRN || Solar || 1 || xy || normalized surface downwelling nearinfrared diffuse flux |- | FSWNAN || Solar || 1 || xyz || normalized net downward shortwave flux in air assuming no aerosol |- | FSCNAN || Solar || 1 || xyz || normalized net downward shortwave flux in air assuming clear sky and no aerosol |- | FSWUNAN || Solar || 1 || xyz || normalized upward shortwave flux in air assuming no aerosol |- | FSCUNAN || Solar || 1 || xyz || normalized upward shortwave flux in air assuming clear sky and no aerosol |- | FSWBANDNAN || Solar || 1 || xy || normalized net surface downward shortwave flux per band in air assuming no aerosol |- | UNKNOWN || StratChem || UNKNOWN || xyz || UNKNOWN |- | UNKNOWN || StratChem || UNKNOWN || xyz || UNKNOWN |- | OX || StratChem || mol mol-1 || xyz || odd oxygen |- | NOX || StratChem || mol mol-1 || xyz || odd nitrogen |- | HNO3 || StratChem || mol mol-1 || xyz || nitric acid |- | N2O5 || StratChem || mol mol-1 || xyz || dinitrogen pentoxide |- | HO2NO2 || StratChem || mol mol-1 || xyz || peroxynitric acid |- | CLONO2 || StratChem || mol mol-1 || xyz || chlorine nitrate |- | CLX || StratChem || mol mol-1 || xyz || odd chlorine |- | HCL || StratChem || mol mol-1 || xyz || hydrochloric acid |- | HOCL || StratChem || mol mol-1 || xyz || hypochlorous acid |- | H2O2 || StratChem || mol mol-1 || xyz || hydrogen peroxide |- | BRX || StratChem || mol mol-1 || xyz || odd bromine |- | N2O || StratChem || mol mol-1 || xyz || nitrous oxide |- | CL2 || StratChem || mol mol-1 || xyz || molecular chlorine |- | OCLO || StratChem || mol mol-1 || xyz || chlorine dioxide |- | BRCL || StratChem || mol mol-1 || xyz || bromine chloride |- | HBR || StratChem || mol mol-1 || xyz || hydrogen bromide |- | BRONO2 || StratChem || mol mol-1 || xyz || bromine nitrate |- | CH4 || StratChem || mol mol-1 || xyz || methane |- | HOBR || StratChem || mol mol-1 || xyz || hypobromous acid |- | CH3OOH || StratChem || mol mol-1 || xyz || methyl hydroperoxide |- | CO || StratChem || mol mol-1 || xyz || carbon monoxyde |- | HNO3COND || StratChem || mol mol-1 || xyz || condensed nitric acid |- | CFC11 || StratChem || mol mol-1 || xyz || CFC-11 (CFCl3) |- | CFC12 || StratChem || mol mol-1 || xyz || CFC-12 (CF2Cl2) |- | CFC113 || StratChem || mol mol-1 || xyz || CFC-113 (C2Cl3F3) |- | CFC114 || StratChem || mol mol-1 || xyz || CFC-114 (C2Cl2F4) |- | CFC115 || StratChem || mol mol-1 || xyz || CFC-115 (C2ClF5) |- | HCFC22 || StratChem || mol mol-1 || xyz || HCFC-22 (CHClF2) |- | HCFC141B || StratChem || mol mol-1 || xyz || HCFC-141b (CH3CCl2F) |- | HCFC142B || StratChem || mol mol-1 || xyz || HCFC-142b (CH3CClF2) |- | CCL4 || StratChem || mol mol-1 || xyz || carbon tetrachloride |- | CH3CCL3 || StratChem || mol mol-1 || xyz || methyl chloroform |- | CH3CL || StratChem || mol mol-1 || xyz || methyl chloride |- | CH3BR || StratChem || mol mol-1 || xyz || methyl bromide |- | H1301 || StratChem || mol mol-1 || xyz || halon 1301 (CBrF3) |- | H1211 || StratChem || mol mol-1 || xyz || halon 1211 (CBrClF2) |- | H1202 || StratChem || mol mol-1 || xyz || halon 1202 (CBr2F2) |- | H2402 || StratChem || mol mol-1 || xyz || halon 2402 (C2Br2F4) |- | CHBR3 || StratChem || mol mol-1 || xyz || bromoform |- | CH2BR2 || StratChem || mol mol-1 || xyz || Dibromomethane |- | CH2BRCL || StratChem || mol mol-1 || xyz || CH2BrCl |- | CHBRCL2 || StratChem || mol mol-1 || xyz || CHBrCl2 |- | CHBR2CL || StratChem || mol mol-1 || xyz || CHBr2Cl |- | HFC23 || StratChem || mol mol-1 || xyz || CHF3 |- | HFC32 || StratChem || mol mol-1 || xyz || CH2F2 |- | HFC125 || StratChem || mol mol-1 || xyz || CHF2CF3 |- | HFC134a || StratChem || mol mol-1 || xyz || CH2FCF3 |- | HFC143a || StratChem || mol mol-1 || xyz || CF3CH3 |- | HFC152a || StratChem || mol mol-1 || xyz || CH2CHF2 |- | CO2B || StratChem || mol mol-1 || xyz || lat-depedent CO2 |- | SF6 || StratChem || mol mol-1 || xyz || sulfur hexafluoride |- | AOADAYS || StratChem || days || xyz || age-of-air |- | O3CHEM || StratChem || mol mol-1 || xyz || ozone from chemistry |- | O3P || StratChem || mol mol-1 || xyz || atomic oxygen in the ground state |- | O1D || StratChem || mol mol-1 || xyz || atomic oxygen in the first excited state |- | N || StratChem || mol mol-1 || xyz || ground state atomic nitrogen |- | NO || StratChem || mol mol-1 || xyz || nitric oxide |- | NO2 || StratChem || mol mol-1 || xyz || nitrogen dioxide |- | NO3 || StratChem || mol mol-1 || xyz || nitrogen trioxide |- | HATOMIC || StratChem || mol mol-1 || xyz || atomic hydrogen |- | OH || StratChem || mol mol-1 || xyz || hydroxyl radical |- | HO2 || StratChem || mol mol-1 || xyz || hydroperoxyl radical |- | CL || StratChem || mol mol-1 || xyz || atomic chlorine |- | CLO || StratChem || mol mol-1 || xyz || chlorine monoxide |- | BRO || StratChem || mol mol-1 || xyz || bromine monoxide |- | BR || StratChem || mol mol-1 || xyz || atomic bromine |- | CL2O2 || StratChem || mol mol-1 || xyz || dichlorine peroxide |- | CH2O || StratChem || mol mol-1 || xyz || formaldehyde |- | CH3O2 || StratChem || mol mol-1 || xyz || methyl peroxide |- | RO3OX || StratChem || mol mol-1 || xyz || ozone odd oxygen ratio |- | QS || Surface || kg kg-1 || xy || surface specific humidity |- | TS || Surface || K || xy || surface skin temperature |- | CT || Surface || kg m-2 s-1 || xy || surface exchange coefficient for heat |- | CQ || Surface || kg m-2 s-1 || xy || surface exchange coefficient for moisture |- | CM || Surface || kg m-2 s-1 || xy || surface exchange coefficient for momentum |- | CN || Surface || 1 || xy || surface neutral drag coefficient |- | THAT || Surface || K || xy || effective surface skin temperature |- | QHAT || Surface || kg kg-1 || xy || effective surface specific humidity |- | UHAT || Surface || m s-1 || xy || effective surface eastward velocity |- | VHAT || Surface || m s-1 || xy || effective surface northward velocity |- | RHOS || Surface || kg m-3 || xy || air density at surface |- | D0 || Surface || m || xy || zero plane displacement height |- | UNKNOWN || TR || UNKNOWN || xyz || UNKNOWN |- | AKS || Turbulence || 1 || xyz || matrix diagonal ahat for scalars |- | BKS || Turbulence || 1 || xyz || matrix diagonal bhat for scalars |- | CKS || Turbulence || 1 || xyz || matrix diagonal c for scalars |- | DKS || Turbulence || s-1 || xyz || sensitivity of tendency to surface value for scalars |- | AKQ || Turbulence || 1 || xyz || matrix diagonal ahat for moisture |- | BKQ || Turbulence || 1 || xyz || matrix diagonal bhat for moisture |- | CKQ || Turbulence || 1 || xyz || matrix diagonal c for moisture |- | DKQ || Turbulence || s-1 || xyz || sensitivity of tendency to surface value for moisture |- | AKV || Turbulence || 1 || xyz || matrix diagonal ahat for winds |- | BKV || Turbulence || 1 || xyz || matrix diagonal bhat for winds |- | CKV || Turbulence || 1 || xyz || matrix diagonal c for winds |- | DKV || Turbulence || s-1 || xyz || sensitivity of tendency to surface value for winds |- | EKV || Turbulence || Pa s-1 || xyz || momentum mixing factor |- | FKV || Turbulence || Pa s-1 || xyz || topographic roughness factor |- | ZLE || Turbulence || m || xyz || geopotential height above surface |- | SINC || Turbulence || m+2 s-3 || xyz || turbulence tendency for dry static energy |- | ZPBL || Turbulence || m || xy || planetary boundary layer height |- | ITY || Vegdyn || 1 || tile || vegetation type |}