table variable dimensions long_name unit comment SImon siconc longitude latitude time typesi Sea-Ice Area Percentage (Ocean Grid) % nemo code name = siconc SImon siconca longitude latitude time typesi Sea-Ice Area Percentage (Atmospheric Grid) % ifs code name = 31.129, expression = var31 / (var172<=0.5) SImon simass longitude latitude time Sea-Ice Mass per Area kg m-2 nemo code name = simass SImon sisnmass longitude latitude time Snow Mass per Area kg m-2 nemo code name = sisnmass SImon sisnthick longitude latitude time Snow Thickness m nemo code name = sisnthick SImon sispeed longitude latitude time Sea-Ice Speed m s-1 nemo code name = sispeed SImon sitemptop longitude latitude time Surface Temperature of Sea Ice K nemo code name = sitemptop SImon sithick longitude latitude time Sea Ice Thickness m nemo code name = sithick SImon sitimefrac longitude latitude time Fraction of Time Steps with Sea Ice 1 nemo code name = sitimefrac SImon siu longitude latitude time X-Component of Sea-Ice Velocity m s-1 nemo code name = siu SImon siv longitude latitude time Y-Component of Sea-Ice Velocity m s-1 nemo code name = siv SImon sivol longitude latitude time Sea-Ice Volume per Area m nemo code name = sivol Amon cl longitude latitude alevel time Percentage Cloud Cover % ifs code name = 248.128 Amon cli longitude latitude alevel time Mass Fraction of Cloud Ice kg kg-1 ifs code name = 247.128 Amon clivi longitude latitude time Ice Water Path kg m-2 ifs code name = 79.128 Amon clt longitude latitude time Total Cloud Cover Percentage % ifs code name = 164.128 Amon clw longitude latitude alevel time Mass Fraction of Cloud Liquid Water kg kg-1 ifs code name = 246.128 Amon clwvi longitude latitude time Condensed Water Path kg m-2 ifs code name = 116.129, expression = var78+var79 Amon evspsbl longitude latitude time Evaporation Including Sublimation and Transpiration kg m-2 s-1 ifs code name = 182.128 Amon fco2antt longitude latitude time Carbon Mass Flux into Atmosphere Due to All Anthropogenic Emissions of CO2 [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fco2antt Amon fco2nat longitude latitude time Surface Carbon Mass Flux into the Atmosphere Due to Natural Sources [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fco2nat Amon hfls longitude latitude time Surface Upward Latent Heat Flux W m-2 ifs code name = 147.128 Amon hfss longitude latitude time Surface Upward Sensible Heat Flux W m-2 ifs code name = 146.128 Amon hur longitude latitude plev19 time Relative Humidity % ifs code name = 157.128 Amon hurs longitude latitude time height2m Near-Surface Relative Humidity % ifs code name = 80.129, expression = 100.*exp(17.62*((var168-273.15)/(var168-30.03)-(var167-273.15)/(var167-30.03))) Amon hus longitude latitude plev19 time Specific Humidity 1 ifs code name = 133.128 Amon huss longitude latitude time height2m Near-Surface Specific Humidity 1 ifs code name = 81.129, expression = 1./(1.+1.608*(var134*exp(-17.62*(var168-273.15)/(var168-30.03))/611.-1.)) Amon pfull longitude latitude alevel time2 Pressure at Model Full-Levels Pa ifs code name = 54.128 Amon pr longitude latitude time Precipitation kg m-2 s-1 ifs code name = 228.128 Amon prc longitude latitude time Convective Precipitation kg m-2 s-1 ifs code name = 143.128 Amon prsn longitude latitude time Snowfall Flux kg m-2 s-1 ifs code name = 144.128 Amon prw longitude latitude time Water Vapor Path kg m-2 ifs code name = 137.128 Amon ps longitude latitude time Surface Air Pressure Pa tm5 code name = ps|ifs code name = 134.128 Amon psl longitude latitude time Sea Level Pressure Pa ifs code name = 151.128 Amon rlds longitude latitude time Surface Downwelling Longwave Radiation W m-2 ifs code name = 175.128 Amon rldscs longitude latitude time Surface Downwelling Clear-Sky Longwave Radiation W m-2 ifs code name = 104.129, expression = var211-var177+var175 Amon rlus longitude latitude time Surface Upwelling Longwave Radiation W m-2 ifs code name = 96.129, expression = var177-var175 Amon rlut longitude latitude time TOA Outgoing Longwave Radiation W m-2 ifs code name = 179.128 Amon rlutcs longitude latitude time TOA Outgoing Clear-Sky Longwave Radiation W m-2 ifs code name = 209.128 Amon rsds longitude latitude time Surface Downwelling Shortwave Radiation W m-2 ifs code name = 169.128 Amon rsdscs longitude latitude time Surface Downwelling Clear-Sky Shortwave Radiation W m-2 ifs code name = 132.129, expression = (var176<=1e-10)*var210+(var176>1e-10)*var210*var169/var176 Amon rsdt longitude latitude time TOA Incident Shortwave Radiation W m-2 ifs code name = 212.128 Amon rsus longitude latitude time Surface Upwelling Shortwave Radiation W m-2 ifs code name = 95.129, expression = var176-var169 Amon rsuscs longitude latitude time Surface Upwelling Clear-Sky Shortwave Radiation W m-2 ifs code name = 131.129, expression = (var176>1e-10)*var210*(1-var169/var176) Amon rsut longitude latitude time TOA Outgoing Shortwave Radiation W m-2 ifs code name = 97.129, expression = var178-var212 Amon rsutcs longitude latitude time TOA Outgoing Clear-Sky Shortwave Radiation W m-2 ifs code name = 103.129, expression = var208-var212 Amon rtmt longitude latitude time Net Downward Radiative Flux at Top of Model W m-2 ifs code name = 98.129, expression = var178+var179 Amon sbl longitude latitude time Surface Snow and Ice Sublimation Flux kg m-2 s-1 ifs code name = 44.128 Amon sfcWind longitude latitude time height10m Near-Surface Wind Speed m s-1 ifs code name = 214.129, expression = sqrt(sqr(var165)+sqr(var166)) Amon ta longitude latitude plev19 time Air Temperature K ifs code name = 130.128 Amon tas longitude latitude time height2m Near-Surface Air Temperature K ifs code name = 167.128 Amon tasmax longitude latitude time height2m Daily Maximum Near-Surface Air Temperature K ifs code name = 201.128 Amon tasmin longitude latitude time height2m Daily Minimum Near-Surface Air Temperature K ifs code name = 202.128 Amon tauu longitude latitude time Surface Downward Eastward Wind Stress Pa ifs code name = 180.128 Amon tauv longitude latitude time Surface Downward Northward Wind Stress Pa ifs code name = 181.128 Amon ts longitude latitude time Surface Temperature K ifs code name = 139.128 Amon ua longitude latitude plev19 time Eastward Wind m s-1 ifs code name = 131.128 Amon uas longitude latitude time height10m Eastward Near-Surface Wind m s-1 ifs code name = 165.128 Amon va longitude latitude plev19 time Northward Wind m s-1 ifs code name = 132.128 Amon vas longitude latitude time height10m Northward Near-Surface Wind m s-1 ifs code name = 166.128 Amon wap longitude latitude plev19 time Omega (=dp/dt) Pa s-1 ifs code name = 135.128 Amon zg longitude latitude plev19 time Geopotential Height m ifs code name = 129.128 Omon bigthetao longitude latitude olevel time Sea Water Conservative Temperature degC nemo code name = bigthetao Omon bigthetaoga time Global Average Sea Water Conservative Temperature degC nemo code name = bigthetaoga Omon fsitherm longitude latitude time Water Flux into Sea Water Due to Sea Ice Thermodynamics kg m-2 s-1 nemo code name = fsitherm Omon hfbasin latitude basin time Northward Ocean Heat Transport W nemo code name = hfbasin Omon hfbasinpmadv latitude basin time Northward Ocean Heat Transport Due to Parameterized Mesoscale Advection W nemo code name = hfbasinpmadv Omon hfds longitude latitude time Downward Heat Flux at Sea Water Surface W m-2 nemo code name = hfds Omon masscello longitude latitude olevel time Ocean Grid-Cell Mass per Area kg m-2 nemo code name = masscello Omon masso time Sea Water Mass kg nemo code name = masso Omon mlotst longitude latitude time Ocean Mixed Layer Thickness Defined by Sigma T m nemo code name = mlotst Omon mlotstmax longitude latitude time Maximum Ocean Mixed Layer Thickness Defined by Sigma T m nemo code name = mlotstmax Omon mlotstmin longitude latitude time Minimum Ocean Mixed Layer Thickness Defined by Sigma T m nemo code name = mlotstmin Omon msftbarot longitude latitude time Ocean Barotropic Mass Streamfunction kg s-1 nemo code name = msftbarot Omon msftyz gridlatitude olevel basin time Ocean Y Overturning Mass Streamfunction kg s-1 nemo code name = msftyz Omon obvfsq longitude latitude olevel time Square of Brunt Vaisala Frequency in Sea Water s-2 nemo code name = obvfsq Omon pbo longitude latitude time Sea Water Pressure at Sea Floor Pa nemo code name = pbo Omon pso longitude latitude time Sea Water Pressure at Sea Water Surface Pa nemo code name = pso Omon sfdsi longitude latitude time Downward Sea Ice Basal Salt Flux kg m-2 s-1 nemo code name = sfdsi Omon so longitude latitude olevel time Sea Water Salinity 0.001 nemo code name = so Omon sob longitude latitude time Sea Water Salinity at Sea Floor 0.001 nemo code name = sob Omon soga time Global Mean Sea Water Salinity 0.001 nemo code name = soga Omon sos longitude latitude time Sea Surface Salinity 0.001 nemo code name = sos Omon sosga time Global Average Sea Surface Salinity 0.001 nemo code name = sosga Omon tauuo longitude latitude time Sea Water Surface Downward X Stress N m-2 nemo code name = tauuo Omon tauvo longitude latitude time Sea Water Surface Downward Y Stress N m-2 nemo code name = tauvo Omon thetao longitude latitude olevel time Sea Water Potential Temperature degC nemo code name = thetao Omon thetaoga time Global Average Sea Water Potential Temperature degC nemo code name = thetaoga Omon tob longitude latitude time Sea Water Potential Temperature at Sea Floor degC nemo code name = tob Omon tos longitude latitude time Sea Surface Temperature degC nemo code name = tos Omon tosga time Global Average Sea Surface Temperature degC nemo code name = tosga Omon umo longitude latitude olevel time Ocean Mass X Transport kg s-1 nemo code name = umo Omon uo longitude latitude olevel time Sea Water X Velocity m s-1 nemo code name = uo Omon vmo longitude latitude olevel time Ocean Mass Y Transport kg s-1 nemo code name = vmo Omon vo longitude latitude olevel time Sea Water Y Velocity m s-1 nemo code name = vo Omon volo time Sea Water Volume m3 nemo code name = volo Omon wfo longitude latitude time Water Flux into Sea Water kg m-2 s-1 nemo code name = wfo Omon wfonocorr longitude latitude time Water Flux into Sea Water Without Flux Correction kg m-2 s-1 nemo code name = wfonocorr Omon wmo longitude latitude olevel time Upward Ocean Mass Transport kg s-1 nemo code name = wmo Omon wo longitude latitude olevel time Sea Water Vertical Velocity m s-1 nemo code name = wo Omon zhalfo longitude latitude olevhalf time Depth Below Geoid of Interfaces Between Ocean Layers m nemo code name = zhalfo Omon zos longitude latitude time Sea Surface Height Above Geoid m nemo code name = zos Omon zostoga time Global Average Thermosteric Sea Level Change m nemo code name = zostoga SIday siconc longitude latitude time typesi Sea-Ice Area Percentage (Ocean Grid) % nemo code name = siconc SIday sithick longitude latitude time Sea Ice Thickness m nemo code name = sithick day hurs longitude latitude time height2m Near-Surface Relative Humidity % ifs code name = 80.129, expression = 100.*exp(17.62*((var168-273.15)/(var168-30.03)-(var167-273.15)/(var167-30.03))) day hursmax longitude latitude time height2m Daily Maximum Near-Surface Relative Humidity % ifs code name = 80.129, expression = 100.*exp(17.62*((var168-273.15)/(var168-30.03)-(var167-273.15)/(var167-30.03))) day hursmin longitude latitude time height2m Daily Minimum Near-Surface Relative Humidity % ifs code name = 80.129, expression = 100.*exp(17.62*((var168-273.15)/(var168-30.03)-(var167-273.15)/(var167-30.03))) day mrro longitude latitude time Total Runoff kg m-2 s-1 lpjg code name = mrro|ifs code name = 205.128 day mrsos longitude latitude time sdepth1 Moisture in Upper Portion of Soil Column kg m-2 lpjg code name = mrsos|ifs code name = 99.129, expression = 70*var39+30*var40 day pr longitude latitude time Precipitation kg m-2 s-1 ifs code name = 228.128 day prsn longitude latitude time Snowfall Flux kg m-2 s-1 ifs code name = 144.128 day rlds longitude latitude time Surface Downwelling Longwave Radiation W m-2 ifs code name = 175.128 day rlus longitude latitude time Surface Upwelling Longwave Radiation W m-2 ifs code name = 96.129, expression = var177-var175 day rsds longitude latitude time Surface Downwelling Shortwave Radiation W m-2 ifs code name = 169.128 day rsus longitude latitude time Surface Upwelling Shortwave Radiation W m-2 ifs code name = 95.129, expression = var176-var169 day snc longitude latitude time Snow Area Percentage % ifs code name = 119.129, expression = 100*(var141>0) day snw longitude latitude time Surface Snow Amount kg m-2 ifs code name = 141.128 day tasmax longitude latitude time height2m Daily Maximum Near-Surface Air Temperature K ifs code name = 201.128 day tasmin longitude latitude time height2m Daily Minimum Near-Surface Air Temperature K ifs code name = 202.128 Emon cLand longitude latitude time Total Carbon in All Terrestrial Carbon Pools kg m-2 lpjg code name = cLand Emon cLitterCwd longitude latitude time Carbon Mass in Coarse Woody Debris kg m-2 lpjg code name = cLitterCwd Emon cLitterSubSurf longitude latitude time Carbon Mass in Below-Ground Litter kg m-2 lpjg code name = cLitterSubSurf Emon cLitterSurf longitude latitude time Carbon Mass in Above-Ground Litter kg m-2 lpjg code name = cLitterSurf Emon cOther longitude latitude time Carbon Mass in Vegetation Components Other than Leaves, Stems and Roots kg m-2 lpjg code name = cOther Emon cSoil longitude latitude time Carbon Mass in Model Soil Pool kg m-2 lpjg code name = cSoil Emon cStem longitude latitude time Carbon Mass in Stem kg m-2 lpjg code name = cStem Emon fBNF longitude latitude time Biological Nitrogen Fixation kg m-2 s-1 lpjg code name = fBNF Emon fCLandToOcean longitude latitude time Lateral Transfer of Carbon out of Grid Cell That Eventually Goes into Ocean kg m-2 s-1 lpjg code name = fCLandToOcean Emon fFireNat longitude latitude time Carbon Mass Flux into Atmosphere Due to CO2 Emission from Natural Fire [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fFireNat Emon fLuc longitude latitude time Net Carbon Mass Flux into Atmosphere Due to Land-Use Change [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fLuc Emon fNLandToOcean longitude latitude time Lateral Transfer of Nitrogen out of Grid Cell That Eventually Goes into Ocean kg m-2 s-1 lpjg code name = fNLandToOcean Emon fNdep longitude latitude time Dry and Wet Deposition of Reactive Nitrogen onto Land kg m-2 s-1 lpjg code name = fNdep Emon fNfert longitude latitude time Total Nitrogen Added for Cropland Fertilisation (Artificial and Manure) kg m-2 s-1 lpjg code name = fNfert Emon fNloss longitude latitude time Total Nitrogen Lost (Including NHx, NOx, N2O, N2 and Leaching) kg m-2 s-1 lpjg code name = fNloss Emon fNnetmin longitude latitude time Net Nitrogen Release from Soil and Litter as the Outcome of Nitrogen Immobilisation and Gross Mineralisation kg m-2 s-1 lpjg code name = fNnetmin Emon fNup longitude latitude time Total Plant Nitrogen Uptake (Sum of Ammonium and Nitrate) Irrespective of the Source of Nitrogen kg m-2 s-1 lpjg code name = fNup Emon fProductDecomp longitude latitude time Decomposition out of Product Pools to CO2 in Atmosphere as Carbon Mass Flux [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fProductDecomp Emon mrsol longitude latitude sdepth time Total Water Content of Soil Layer kg m-2 lpjg code name = mrsol|ifs code name = 118.129, expression = merge(70*var39,210*var40,720*var41,1890*var42) Emon nLand longitude latitude time Total Nitrogen in All Terrestrial Nitrogen Pools kg m-2 lpjg code name = nLand Emon nLeaf longitude latitude time Nitrogen Mass in Leaves kg m-2 lpjg code name = nLeaf Emon nLitter longitude latitude time Nitrogen Mass in Litter Pool kg m-2 lpjg code name = nLitter Emon nLitterCwd longitude latitude time Nitrogen Mass in Coarse Woody Debris kg m-2 lpjg code name = nLitterCwd Emon nLitterSubSurf longitude latitude time Nitrogen Mass in Below-Ground Litter (non CWD) kg m-2 lpjg code name = nLitterSubSurf Emon nLitterSurf longitude latitude time Nitrogen Mass in Above-Ground Litter (non CWD) kg m-2 lpjg code name = nLitterSurf Emon nMineral longitude latitude time Mineral Nitrogen in the Soil kg m-2 lpjg code name = nMineral Emon nOther longitude latitude time Nitrogen Mass in Vegetation Components Other than Leaves, Stem and Root kg m-2 lpjg code name = nOther Emon nProduct longitude latitude time Nitrogen Mass in Products of Land-Use Change kg m-2 lpjg code name = nProduct Emon nRoot longitude latitude time Nitrogen Mass in Roots kg m-2 lpjg code name = nRoot Emon nSoil longitude latitude time Nitrogen Mass in Soil Pool kg m-2 lpjg code name = nSoil Emon nStem longitude latitude time Nitrogen Mass in Stem kg m-2 lpjg code name = nStem Emon nVeg longitude latitude time Nitrogen Mass in Vegetation kg m-2 lpjg code name = nVeg Emon nep longitude latitude time Net Carbon Mass Flux out of Atmosphere Due to Net Ecosystem Productivity on Land [kgC m-2 s-1] kg m-2 s-1 lpjg code name = nep Eyr cLitter longitude latitude time1 Carbon Mass in Litter Pool kg m-2 lpjg code name = cLitter Eyr cProduct longitude latitude time1 Carbon Mass in Products of Land-Use Change kg m-2 lpjg code name = cProduct Eyr cSoil longitude latitude time1 Carbon Mass in Model Soil Pool kg m-2 lpjg code name = cSoil Eyr cVeg longitude latitude time1 Carbon Mass in Vegetation kg m-2 lpjg code name = cVeg Lmon baresoilFrac longitude latitude time typebare Bare Soil Percentage Area Coverage % lpjg code name = baresoilFrac Lmon burntFractionAll longitude latitude time typeburnt Percentage of Entire Grid Cell That Is Covered by Burnt Vegetation (All Classes) % lpjg code name = burntFractionAll Lmon cLeaf longitude latitude time Carbon Mass in Leaves kg m-2 lpjg code name = cLeaf Lmon cLitter longitude latitude time Carbon Mass in Litter Pool kg m-2 lpjg code name = cLitter Lmon cProduct longitude latitude time Carbon Mass in Products of Land-Use Change kg m-2 lpjg code name = cProduct Lmon cRoot longitude latitude time Carbon Mass in Roots kg m-2 lpjg code name = cRoot Lmon cVeg longitude latitude time Carbon Mass in Vegetation kg m-2 lpjg code name = cVeg Lmon cropFrac longitude latitude time typecrop Percentage Crop Cover % lpjg code name = cropFrac Lmon evspsblsoi longitude latitude time Water Evaporation from Soil kg m-2 s-1 lpjg code name = evspsblsoi Lmon evspsblveg longitude latitude time Evaporation from Canopy kg m-2 s-1 lpjg code name = evspsblveg Lmon fFire longitude latitude time Carbon Mass Flux into Atmosphere Due to CO2 Emission from Fire Excluding Land-Use Change [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fFire Lmon fGrazing longitude latitude time Carbon Mass Flux into Atmosphere Due to Grazing on Land [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fGrazing Lmon fHarvest longitude latitude time Carbon Mass Flux into Atmosphere Due to Crop Harvesting [kgC m-2 s-1] kg m-2 s-1 lpjg code name = fHarvest Lmon fLitterSoil longitude latitude time Total Carbon Mass Flux from Litter to Soil kg m-2 s-1 lpjg code name = fLitterSoil Lmon fVegLitter longitude latitude time Total Carbon Mass Flux from Vegetation to Litter kg m-2 s-1 lpjg code name = fVegLitter Lmon gpp longitude latitude time Carbon Mass Flux out of Atmosphere Due to Gross Primary Production on Land [kgC m-2 s-1] kg m-2 s-1 lpjg code name = gpp Lmon grassFrac longitude latitude time typenatgr Natural Grass Area Percentage % lpjg code name = grassFrac Lmon lai longitude latitude time Leaf Area Index 1 lpjg code name = lai Lmon mrfso longitude latitude time Soil Frozen Water Content kg m-2 ifs code name = 85.129, expression = 1000*(0.07*var39*((var139<270.16)+0.5*(var139<274.16 && var139>270.16)*(1-sin(0.785*(var139-272.16)))) + 0.21*var40*((var170<270.16)+0.5*(var170<274.16 && var170>270.16)*(1-sin(0.785*(var170-272.16)))) + 0.72*var41*((var183<270.16)+0.5*(var183<274.16 && var183>270.16)*(1-sin(0.785*(var183-272.16)))) + 1.89*var42*((var236<270.16)+0.5*(var236<274.16 && var236>270.16)*(1-sin(0.785*(var236-272.16))))) Lmon mrro longitude latitude time Total Runoff kg m-2 s-1 lpjg code name = mrro|ifs code name = 205.128 Lmon mrros longitude latitude time Surface Runoff kg m-2 s-1 lpjg code name = mrros|ifs code name = 8.128 Lmon mrso longitude latitude time Total Soil Moisture Content kg m-2 lpjg code name = mrso|ifs code name = 43.129, expression = 70*var39+210*var40+720*var41+1890*var42 Lmon mrsos longitude latitude time sdepth1 Moisture in Upper Portion of Soil Column kg m-2 lpjg code name = mrsos|ifs code name = 99.129, expression = 70*var39+30*var40 Lmon nbp longitude latitude time Carbon Mass Flux out of Atmosphere Due to Net Biospheric Production on Land [kgC m-2 s-1] kg m-2 s-1 lpjg code name = nbp Lmon npp longitude latitude time Net Primary Production on Land as Carbon Mass Flux [kgC m-2 s-1] kg m-2 s-1 lpjg code name = npp Lmon pastureFrac longitude latitude time typepasture Percentage of Land Which Is Anthropogenic Pasture % lpjg code name = pastureFrac Lmon ra longitude latitude time Carbon Mass Flux into Atmosphere Due to Autotrophic (Plant) Respiration on Land [kgC m-2 s-1] kg m-2 s-1 lpjg code name = ra Lmon residualFrac longitude latitude time typeresidual Percentage of Grid Cell That Is Land but neither Vegetation Covered nor Bare Soil % lpjg code name = residualFrac Lmon rh longitude latitude time Total Heterotrophic Respiration on Land as Carbon Mass Flux [kgC m-2 s-1] kg m-2 s-1 lpjg code name = rh Lmon shrubFrac longitude latitude time typeshrub Percentage Cover by Shrub % lpjg code name = shrubFrac Lmon tran longitude latitude time Transpiration kg m-2 s-1 lpjg code name = tran Lmon treeFrac longitude latitude time typetree Tree Cover Percentage % lpjg code name = treeFrac LImon hfdsn longitude latitude time Downward Heat Flux into Snow Where Land over Land W m-2 ifs code name = 120.129, expression = (var141>0)*(var146+var147+var176+var177) LImon sbl longitude latitude time Surface Snow and Ice Sublimation Flux kg m-2 s-1 ifs code name = 44.128 LImon snc longitude latitude time Snow Area Percentage % ifs code name = 119.129, expression = 100*(var141>0) LImon snd longitude latitude time Snow Depth m ifs code name = 115.129, expression = 1000*var141/var33 LImon snm longitude latitude time Surface Snow Melt kg m-2 s-1 ifs code name = 45.128 LImon snw longitude latitude time Surface Snow Amount kg m-2 ifs code name = 141.128 LImon tsn longitude latitude time Snow Internal Temperature K ifs code name = 238.128 Eday albsn longitude latitude time Snow Albedo 1 ifs code name = 134.129, expression = var141?var32:1.e+14 Eday clt longitude latitude time Total Cloud Cover Percentage % ifs code name = 164.128 Eday cw longitude latitude time Total Canopy Water Storage kg m-2 ifs code name = 198.128 Eday esn longitude latitude time Snow Evaporation kg m-2 s-1 ifs code name = 130.129, expression = var44+var182 Eday evspsbl longitude latitude time Evaporation Including Sublimation and Transpiration kg m-2 s-1 ifs code name = 182.128 Eday evspsblpot longitude latitude time Potential Evapotranspiration kg m-2 s-1 lpjg code name = evspsblpot Eday hfdsl longitude latitude time Downward Heat Flux at Land Surface W m-2 ifs code name = 121.129, expression = var146+var147+var176+var177 Eday hfdsn longitude latitude time Downward Heat Flux into Snow Where Land over Land W m-2 ifs code name = 120.129, expression = (var141>0)*(var146+var147+var176+var177) Eday hfls longitude latitude time Surface Upward Latent Heat Flux W m-2 ifs code name = 147.128 Eday hfmlt longitude latitude time Energy of Fusion W m-2 ifs code name = 127.129, expression = 333411*var45 Eday hfsbl longitude latitude time Energy of Sublimation W m-2 ifs code name = 128.129, expression = 2834123*var44 Eday hfss longitude latitude time Surface Upward Sensible Heat Flux W m-2 ifs code name = 146.128 Eday mrrob longitude latitude time Subsurface Runoff kg m-2 s-1 ifs code name = 9.128 Eday mrros longitude latitude time Surface Runoff kg m-2 s-1 lpjg code name = mrros|ifs code name = 8.128 Eday mrsol longitude latitude sdepth time Total Water Content of Soil Layer kg m-2 lpjg code name = mrsol|ifs code name = 118.129, expression = merge(70*var39,210*var40,720*var41,1890*var42) Eday mrsow longitude latitude time Total Soil Wetness 1 ifs code name = 44.129, expression = ((var39 * 0.07 + var40 * 0.21 + var41 * 0.72 + var42 * 1.89) / (0.07 + 0.21 + 0.72 + 1.89) - ((var43==1)*0.059+(var43==2)*0.151+(var43==3)*0.133+(var43==4)*0.279+(var43==5)*0.335+(var43==6)*0.267+(var43==7)*0.171)) / (((var43==1)*0.403+(var43==2)*0.439+(var43==3)*0.430+(var43==4)*0.520+(var43==5)*0.614+(var43==6)*0.766+(var43==7)*0.472) - ((var43==1)*0.059+(var43==2)*0.151+(var43==3)*0.133+(var43==4)*0.279+(var43==5)*0.335+(var43==6)*0.267+(var43==7)*0.171)) Eday rls longitude latitude time Net Longwave Surface Radiation W m-2 ifs code name = 177.128 Eday rss longitude latitude time Net Shortwave Surface Radiation W m-2 ifs code name = 176.128 Eday sbl longitude latitude time Surface Snow and Ice Sublimation Flux kg m-2 s-1 ifs code name = 44.128 Eday snd longitude latitude time Snow Depth m ifs code name = 115.129, expression = 1000*var141/var33 Eday snm longitude latitude time Surface Snow Melt kg m-2 s-1 ifs code name = 45.128 Eday tau longitude latitude time Momentum Flux N m-2 ifs code name = 129.129, expression = sqrt(sqr(var180)+sqr(var181)) Eday tr longitude latitude time Surface Radiative Temperature K ifs code name = 235.128 Eday tran longitude latitude time Transpiration kg m-2 s-1 lpjg code name = tran Eday ts longitude latitude time Surface Temperature K ifs code name = 139.128 Eday tsland longitude latitude time Land Surface Temperature K ifs code name = 235.128 Eday tsn longitude latitude time Snow Internal Temperature K ifs code name = 238.128 Eday tsns longitude latitude time Snow Surface Temperature K ifs code name = 238.128