Created by Ivan Lima on Wed Jun 22 2022 09:04:22 -0400
Last updated on Mon Jun 27 10:12:23 2022
monthly averages TEMP : Potential Temperature SALT : Salinity RHO : In-Situ Density SSH : Sea Surface Height S_INTERIOR : S Restoring Values SHF_QSW : Solar Short-Wave Heat Flux SFWF : Virtual Salt Flux in FW Flux formulation TAUX : Windstress in grid-x direction TAUY : Windstress in grid-y direction EVAP_F : Evaporation Flux from Coupler PREC_F : Precipitation Flux from Cpl (rain+snow) SNOW_F : Snow Flux from Coupler MELT_F : Melt Flux from Coupler ROFF_F : Runoff Flux from Coupler IOFF_F : Ice Runoff Flux from Coupler due to Land-Model Snow Capping SALT_F : Salt Flux from Coupler (kg of salt/m^2/s) SENH_F : Sensible Heat Flux from Coupler LWUP_F : Longwave Heat Flux (up) from Coupler LWDN_F : Longwave Heat Flux (dn) from Coupler MELTH_F : Melt Heat Flux from Coupler IFRAC : Ice Fraction from Coupler ABIO_pCO2 : Abiotic CO2 atmospheric partial pressure ABIO_D14Catm : Abiotic atmospheric Delta C14 in permil ABIO_CO2STAR : ABIO_CO2STAR ABIO_DCO2STAR : ABIO_DCO2STAR ABIO_pCO2SURF : ABIO_pCO2SURF ABIO_DpCO2 : ABIO_DpCO2 ABIO_PH_SURF : Abiotic Surface PH ABIO_ALK_SURF : Abiotic Surface Alkalinity FG_ABIO_DIC : Surface gas flux of abiotic DIC FG_ABIO_DIC14 : Surface gas flux of abiotic DIC14 ABIO_D14Cocn : Abiotic oceanic Delta C14 in permil IAGE : Ideal Age ABIO_DIC : ABIO_DIC STF_ABIO_DIC : ABIO_DIC Surface Flux, excludes FvICE term FvPER_ABIO_DIC : ABIO_DIC Virtual Surface Flux, PER FvICE_ABIO_DIC : ABIO_DIC Virtual Surface Flux, ICE ABIO_DIC14 : ABIO_DIC14 Jint_ABIO_DIC14 : ABIO_DIC14 Source Sink Term Vertical Integral STF_ABIO_DIC14 : ABIO_DIC14 Surface Flux, excludes FvICE term FvPER_ABIO_DIC14 : ABIO_DIC14 Virtual Surface Flux, PER FvICE_ABIO_DIC14 : ABIO_DIC14 Virtual Surface Flux, ICE TIDAL_DIFF : Jayne Tidal Diffusion QSW_HBL : Solar Short-Wave Heat Flux in bndry layer VDC_T : total diabatic vertical TEMP diffusivity VDC_S : total diabatic vertical SALT diffusivity USUBM : Submeso velocity in grid-x direction (diagnostic) VSUBM : Submeso velocity in grid-y direction (diagnostic) WSUBM : Vertical submeso velocity (diagnostic) HLS_SUBM : Horizontal length scale used in submeso ADVT_SUBM : Vertically-Integrated T submeso Advection Tendency (diagnostic) ADVS_SUBM : Vertically-Integrated S submeso Advection Tendency (diagnostic) VNT_SUBM : Heat Flux Tendency in grid-y Dir due to submeso Vel (diagnostic) VNS_SUBM : Salt Flux Tendency in grid-y Dir due to submeso Vel (diagnostic) SUBM_ADV_TEND_TEMP: Submeso advective tendency for TEMP SUBM_ADV_TEND_SALT: Submeso advective tendency for SALT QSW_HTP : Solar Short-Wave Heat Flux in top layer QFLUX : Internal Ocean Heat Flux Due to Ice Formation; heat of fusion > 0 or ice-melting potential < 0 HMXL : Mixed-Layer Depth XMXL : Maximum Mixed-Layer Depth TMXL : Minimum Mixed-Layer Depth HBLT : Boundary-Layer Depth XBLT : Maximum Boundary-Layer Depth TBLT : Minimum Boundary-Layer Depth
daily averages SST : Surface Potential Temperature SSS : Sea Surface Salinity SSH_2 : Sea Surface Height SHF : Total Surface Heat Flux, Including SW FW : Freshwater Flux HMXL_2 : Mixed-Layer Depth XMXL_2 : Maximum Mixed-Layer Depth
monthly averages hi : grid cell mean ice thickness hs : grid cell mean snow thickness snowfrac : grid cell mean snow fraction Tsfc : snow/ice surface temperature aice : ice area (aggregate) uvel : ice velocity (x) vvel : ice velocity (y) uatm : atm velocity (x) vatm : atm velocity (y) fswdn : down solar flux fswup : upward solar flux flwdn : down longwave flux snow : snowfall rate (cpl) rain : rainfall rate (cpl) fswabs : snow/ice/ocn absorbed solar flux (cpl) albsni : snow/ice broad band albedo alvdr_ai : visible direct albedo alidr_ai : near IR direct albedo alvdf_ai : visible diffuse albedo alidf_ai : near IR diffuse albedo flat : latent heat flux (cpl) flat_ai : latent heat flux fsens : sensible heat flux (cpl) fsens_ai : sensible heat flux flwup : upward longwave flux (cpl) evap : evaporative water flux (cpl) congel : congelation ice growth frazil : frazil ice growth snoice : snow-ice formation meltt : top ice melt melts : top snow melt meltb : basal ice melt meltl : lateral ice melt fresh : freshwtr flx ice to ocn (cpl) fsalt : salt flux ice to ocn (cpl) fhocn : heat flux ice to ocn (cpl) fswthru : SW thru ice to ocean (cpl) strairx : atm/ice stress (x) strairy : atm/ice stress (y) strtltx : sea sfc tilt stress (x) strtlty : sea sfc tilt stress (y) strcorx : coriolis stress (x) strcory : coriolis stress (y) strocnx : ocean/ice stress (x) strocny : ocean/ice stress (y) strintx : internal ice stress (x) strinty : internal ice stress (y) strength : compressive ice strength divu : strain rate (divergence) shear : strain rate (shear) sig1 : norm. principal stress 1 sig2 : norm. principal stress 2 dvidtt : volume tendency thermo dvidtd : volume tendency dynamics daidtt : area tendency thermo daidtd : area tendency dynamics dagedtt : age tendency thermo dagedtd : age tendency dynamics ice_present : fraction of time-avg interval that ice is present ardg : ridged ice area fraction apond_ai : melt pond fraction of grid cell apeff_ai : radiation-effective pond area fraction over grid cell aicen : ice area, categories vicen : ice volume, categories vsnon : snow depth on ice, categories fswsfcn : surface absorbed shortwave, categories fswintn : internal absorbed shortwave, categories fswthrun : penetrating shortwave, categories
h0 stream (monthly) ndcur : current day (from base day) nscur : current seconds of current day co2vmr : co2 volume mixing ratio ch4vmr : ch4 volume mixing ratio n2ovmr : n2o volume mixing ratio f11vmr : f11 volume mixing ratio f12vmr : f12 volume mixing ratio sol_tsi : total solar irradiance nsteph : current timestep ABSORB : Aerosol absorption, day only ACTREL : Average Cloud Top droplet effective radius ADRAIN : Average rain Diameter ADSNOW : Average snow Diameter AEROD_v : Total Aerosol Optical Depth in visible band ANRAIN : Average rain number conc ANSNOW : Average snow number conc AODABSdn : Aerosol absorption optical depth 550 nm, day night AODBCdn : Aerosol optical depth 550 nm from BC, day night AODDUST : Aerosol optical depth 550 nm from dust, day only AODDUST1 : Aerosol optical depth, day only, 550 nm mode 1 from dust AODDUST2 : Aerosol optical depth, day only, 550 nm mode 2 from dust AODDUST3 : Aerosol optical depth, day only, 550 nm mode 3 from dust AODNIRstdn : Stratospheric aerosol optical depth 1020 nm, day night AODPOMdn : Aerosol optical depth 550 nm from POM, day night AODSO4dn : Aerosol optical depth 550 nm from SO4, day night AODSOAdn : Aerosol optical depth 550 nm from SOA, day night AODSSdn : Aerosol optical depth 550 nm from seasalt, day night AODUVdn : Aerosol optical depth 350 nm, day night AODUVstdn : Stratospheric aerosol optical depth 350 nm, day night AODVIS : Aerosol optical depth 550 nm, day only AODVISdn : Aerosol optical depth 550 nm, day night AODVISstdn : Stratospheric aerosol optical depth 550 nm, day night AODdnDUST1 : Aerosol optical depth 550 nm, day night, mode 1 from dust AODdnDUST2 : Aerosol optical depth 550 nm, day night, mode 2 from dust AODdnDUST3 : Aerosol optical depth 550 nm, day night, mode 3 from dust AODdnMODE1 : Aerosol optical depth 550 nm, day night, mode 1 AODdnMODE2 : Aerosol optical depth 550 nm, day night, mode 2 AODdnMODE3 : Aerosol optical depth 550 nm, day night, mode 3 AQRAIN : Average rain mixing ratio AQSNOW : Average snow mixing ratio AQ_SO2 : SO2 aqueous chemistry (for gas species) AREA : area of grid box AREI : Average ice effective radius AREL : Average droplet effective radius AWNC : Average cloud water number conc AWNI : Average cloud ice number conc BROX : brox (Br+BrO+BRCl+HOBr) BROY : total inorganic bromine (Br+BrO+HOBr+BrONO2+HBr+BrCl) BURDENBCdn : Black carbon aerosol burden, day night BURDENDUSTdn : Dust aerosol burden, day night BURDENPOMdn : POM aerosol burden, day night BURDENSEASALTdn : Seasalt aerosol burden, day night BURDENSO4dn : Sulfate aerosol burden, day night BURDENSOAdn : SOA aerosol burden, day night CAPE : Convectively available potential energy CCN3 : CCN concentration at S=0.1% CDNUMC : Vertically-integrated droplet concentration CLDHGH : Vertically-integrated high cloud CLDICE : Grid box averaged cloud ice amount CLDLIQ : Grid box averaged cloud liquid amount CLDLOW : Vertically-integrated low cloud CLDMED : Vertically-integrated mid-level cloud CLDTOT : Vertically-integrated total cloud CLOUD : Cloud fraction CLOUDCOVER_CLUBB : Cloud Cover CLOUDFRAC_CLUBB : Cloud Fraction CLOX : clox (Cl+CLO+HOCl+2Cl2+2Cl2O2+OClO CLOY : total inorganic chlorine (Cl+ClO+2Cl2+2Cl2O2+OClO+HOCl+ClONO2+HCl+BrCl) CME : Rate of cond-evap within the cloud CMFDQ : QV tendency - shallow convection CMFMC : Moist convection (deep+shallow) mass flux CMFMCDZM : Convection mass flux from ZM deep CO2 : CO2 CO2_FFF : CO2_FFF CO2_LND : CO2_LND CO2_OCN : CO2_OCN CONCLD : Convective cloud cover DCQ : Q tendency due to moist processes DF_H2O2 : dry deposition flux DF_H2SO4 : dry deposition flux DF_SO2 : dry deposition flux DH2O2CHM : net tendency from chem DMS : DMS concentration DMS_SRF : DMS in bottom layer DTCOND : T tendency - moist processes DTCORE : T tendency due to dynamical core DTV : T vertical diffusion DTWR_H2O2 : wet removal Neu scheme tendency DTWR_H2SO4 : wet removal Neu scheme tendency DTWR_SO2 : wet removal Neu scheme tendency Dso4_a1CHM : net tendency from chem Dso4_a2CHM : net tendency from chem Dso4_a3CHM : net tendency from chem EVAPPREC : Rate of evaporation of falling precip EVAPQZM : Q tendency - Evaporation from Zhang-McFarlane moist convection EVAPTZM : T tendency - Evaporation/snow prod from Zhang convection EXTINCTNIRdn : Aerosol extinction 1020 nm, day night EXTINCTUVdn : Aerosol extinction 350 nm, day night EXTINCTdn : Aerosol extinction 550 nm, day night EXTxASYMdn : extinction 550 * asymmetry factor, day night FCTL : Fractional occurrence of cloud top liquid FICE : Fractional ice content within cloud FLDS : Downwelling longwave flux at surface FLDSC : Clearsky Downwelling longwave flux at surface FLNR : Net longwave flux at tropopause FLNS : Net longwave flux at surface FLNSC : Clearsky net longwave flux at surface FLNT : Net longwave flux at top of model FLNTC : Clearsky net longwave flux at top of model FLNTCLR : Clearsky ONLY points net longwave flux at top of model FLUT : Upwelling longwave flux at top of model FLUTC : Clearsky upwelling longwave flux at top of model FREQCLR : Frequency of Occurrence of Clearsky FREQI : Fractional occurrence of ice FREQL : Fractional occurrence of liquid FREQR : Fractional occurrence of rain FREQS : Fractional occurrence of snow FREQZM : Fractional occurance of ZM convection FSDS : Downwelling solar flux at surface FSDSC : Clearsky downwelling solar flux at surface FSNR : Net solar flux at tropopause FSNS : Net solar flux at surface FSNSC : Clearsky net solar flux at surface FSNT : Net solar flux at top of model FSNTC : Clearsky net solar flux at top of model FSNTOA : Net solar flux at top of atmosphere FSNTOAC : Clearsky net solar flux at top of atmosphere FSUTOA : Upwelling solar flux at top of atmosphere GS_SO2 : SO2 gas chemistry/wet removal (for gas species) H2O : water vapor concentration H2O2 : H2O2 concentration H2O2_SRF : H2O2 in bottom layer H2O_CLXF : vertically intergrated external forcing for H2O H2O_CMXF : vertically intergrated external forcing for H2O H2O_SRF : water vapor in bottom layer H2SO4 : H2SO4 concentration H2SO4M_C : chemical sulfate aerosol mass H2SO4_SRF : H2SO4 in bottom layer H2SO4_sfnnuc1 : H2SO4 modal_aero new particle nucleation column tendency HCL_GAS : gas-phase hcl HNO3_GAS : gas-phase hno3 HNO3_NAT : NAT condensed HNO3 HNO3_STS : STS condensed HNO3 HO2 : prescribed tracer constituent ICEFRAC : Fraction of sfc area covered by sea-ice ICIMR : Prognostic in-cloud ice mixing ratio ICWMR : Prognostic in-cloud water mixing ratio IWC : Grid box average ice water content KVH_CLUBB : CLUBB vertical diffusivity of heat/moisture on interface levels LANDFRAC : Fraction of sfc area covered by land LHFLX : Surface latent heat flux LWCF : Longwave cloud forcing MASS : mass of grid box MSKtem : TEM mask NITROP_PD : Chemical Tropopause probability NO3 : prescribed tracer constituent NOX : nox (N+NO+NO2) NOY : noy = total nitrogen (N+NO+NO2+NO3+2N2O5+HNO3+HO2NO2+ORGNOY+NH4NO3 NUMICE : Grid box averaged cloud ice number NUMLIQ : Grid box averaged cloud liquid number NUMRAI : Grid box averaged rain number NUMSNO : Grid box averaged snow number O3 : prescribed tracer constituent OCNFRAC : Fraction of sfc area covered by ocean OH : prescribed tracer constituent OMEGA : Vertical velocity (pressure) OMEGAT : Vertical heat flux PBLH : PBL height PDELDRY : Dry pressure difference between levels PHIS : Surface geopotential PRECC : Convective precipitation rate (liq + ice) PRECL : Large-scale (stable) precipitation rate (liq + ice) PRECSC : Convective snow rate (water equivalent) PRECSL : Large-scale (stable) snow rate (water equivalent) PRECT : Total (convective and large-scale) precipitation rate (liq + ice) PS : Surface pressure PSL : Sea level pressure PTEQ : Q total physics tendency PTTEND : T total physics tendency Q : Specific humidity QFLX : Surface water flux QRAIN : Diagnostic grid-mean rain mixing ratio QREFHT : Reference height humidity QRL : Longwave heating rate QRLC : Clearsky longwave heating rate QRS : Solar heating rate QRSC : Clearsky solar heating rate QSNOW : Diagnostic grid-mean snow mixing ratio QT : Total water mixing ratio RAD_ICE : sad ice RAD_LNAT : large nat radius RAD_SULFC : chemical sad sulfate RAINQM : Grid box averaged rain amount RCMINLAYER_CLUBB : Cloud Water in Layer RCMTEND_CLUBB : Cloud Liquid Water Tendency RCM_CLUBB : Cloud Water Mixing Ratio REFF_AERO : aerosol effective radius RELHUM : Relative humidity RELVAR : Relative cloud water variance RHO_CLUBB : Air Density RHREFHT : Reference height relative humidity RIMTEND_CLUBB : Cloud Ice Tendency RTP2_CLUBB : Moisture Variance RTPTHLP_CLUBB : Temp. Moist. Covariance RVMTEND_CLUBB : Water vapor tendency SAD_AERO : aerosol surface area density SAD_ICE : water-ice aerosol SAD SAD_LNAT : large-mode NAT aerosol SAD SAD_SULFC : chemical sulfate aerosol SAD SAD_TROP : tropospheric aerosol SAD SFCO2 : CO2 surface flux SFCO2_FFF : CO2_FFF surface flux SFCO2_LND : CO2_LND surface flux SFCO2_OCN : CO2_OCN surface flux SFDMS : DMS surface flux SFH2O2 : H2O2 surface flux SFH2SO4 : H2SO4 surface flux SFSO2 : SO2 surface flux SFSOAG : SOAG surface flux SFbc_a1 : bc_a1 surface flux SFbc_a4 : bc_a4 surface flux SFdst_a1 : dst_a1 surface flux SFdst_a2 : dst_a2 surface flux SFdst_a3 : dst_a3 surface flux SFncl_a1 : ncl_a1 surface flux SFncl_a2 : ncl_a2 surface flux SFncl_a3 : ncl_a3 surface flux SFnum_a1 : num_a1 surface flux SFnum_a2 : num_a2 surface flux SFnum_a3 : num_a3 surface flux SFnum_a4 : num_a4 surface flux SFpom_a1 : pom_a1 surface flux SFpom_a4 : pom_a4 surface flux SFso4_a1 : so4_a1 surface flux SFso4_a2 : so4_a2 surface flux SFso4_a3 : so4_a3 surface flux SFsoa_a1 : soa_a1 surface flux SFsoa_a2 : soa_a2 surface flux SHFLX : Surface sensible heat flux SL : Liquid water static energy SNOWHICE : Snow depth over ice SNOWHLND : Water equivalent snow depth SNOWQM : Grid box averaged snow amount SO2 : SO2 concentration SO2_CHML : chemical loss rate SO2_CHMP : chemical production rate SO2_CLXF : vertically intergrated external forcing for SO2 SO2_CMXF : vertically intergrated external forcing for SO2 SO2_SRF : SO2 in bottom layer SO2_XFRC : external forcing for SO2 SOAG : SOAG concentration SOAG_SRF : SOAG in bottom layer SOLIN : Solar insolation SOLLD : Solar downward near infrared diffuse to surface SOLSD : Solar downward visible diffuse to surface SSAVIS : Aerosol single-scatter albedo, day only SST : sea surface temperature STEND_CLUBB : Temperature tendency SWCF : Shortwave cloud forcing T : Temperature TAQ : Q horz + vert + fixer tendency TAUBLJX : Zonal integrated drag from Beljaars SGO TAUBLJY : Meridional integrated drag from Beljaars SGO TAUGWX : Zonal gravity wave surface stress TAUGWY : Meridional gravity wave surface stress TAUX : Zonal surface stress TAUY : Meridional surface stress TBRY : total Br (ORG+INORG) volume mixing ratio TCLY : total Cl (ORG+INORG) volume mixing ratio TGCLDCWP : Total grid-box cloud water path (liquid and ice) TGCLDIWP : Total grid-box cloud ice water path TGCLDLWP : Total grid-box cloud liquid water path TH : Potential Temperature THLP2_CLUBB : Temperature Variance THzm : Zonal-Mean potential temp - defined on ilev TMCO2 : CO2 column burden TMCO2_FFF : CO2_FFF column burden TMCO2_LND : CO2_LND column burden TMCO2_OCN : CO2_OCN column burden TMDMS : DMS column burden TMQ : Total (vertically integrated) precipitable water TMSO2 : SO2 column burden TMso4_a1 : so4_a1 column burden TMso4_a2 : so4_a2 column burden TMso4_a3 : so4_a3 column burden TOTH : total H2 volume mixing ratio TOT_CLD_VISTAU : Total gbx cloud extinction visible sw optical depth TREFHT : Reference height temperature TREFHTMN : Minimum reference height temperature over output period TREFHTMX : Maximum reference height temperature over output period TROP_P : Tropopause Pressure TROP_T : Tropopause Temperature TROP_Z : Tropopause Height TS : Surface temperature (radiative) TSMN : Minimum surface temperature over output period TSMX : Maximum surface temperature over output period TTEND_TOT : Total temperature tendency TTGWORO : T tendency - orographic gravity wave drag U : Zonal wind U10 : 10m wind speed UM_CLUBB : Zonal Wind UP2_CLUBB : Zonal Velocity Variance UPWP_CLUBB : Zonal Momentum Flux UTEND_CLUBB : U-wind Tendency UTGWORO : U tendency - orographic gravity wave drag UU : Zonal velocity squared UVzm : Meridional Flux of Zonal Momentum: 3D zon. mean UWzm : Vertical Flux of Zonal Momentum: 3D zon. mean Uzm : Zonal-Mean zonal wind - defined on ilev V : Meridional wind VD01 : Vertical diffusion of Q VM_CLUBB : Meridional Wind VP2_CLUBB : Meridional Velocity Variance VPWP_CLUBB : Meridional Momentum Flux VQ : Meridional water transport VT : Meridional heat transport VTEND_CLUBB : V-wind Tendency VTHzm : Meridional Heat Flux: 3D zon. mean VU : Meridional flux of zonal momentum VV : Meridional velocity squared VZ : Meridional transport of geopotential height Vzm : Zonal-Mean meridional wind - defined on ilev WD_H2O2 : vertical integrated wet deposition flux WD_H2SO4 : vertical integrated wet deposition flux WD_SO2 : vertical integrated wet deposition flux WP2_CLUBB : Vertical Velocity Variance WP3_CLUBB : Third Moment Vertical Velocity WPRCP_CLUBB : Liquid Water Flux WPRTP_CLUBB : Moisture Flux WPTHLP_CLUBB : Heat Flux WPTHVP_CLUBB : Buoyancy Flux WSPDSRFAV : Horizontal total wind speed average at the surface WSPDSRFMX : Horizontal total wind speed maximum at the surface WSUB : Diagnostic sub-grid vertical velocity WTHzm : Vertical Heat Flux: 3D zon. mean Wzm : Zonal-Mean vertical wind - defined on ilev Z3 : Geopotential Height (above sea level) ZMDQ : Q tendency - Zhang-McFarlane moist convection ZMDT : T tendency - Zhang-McFarlane moist convection ZMMTT : T tendency - ZM convective momentum transport ZMMU : ZM convection updraft mass flux ZM_CLUBB : Momentum Heights ZT_CLUBB : Thermodynamic Heights bc_a1 : bc_a1 concentration bc_a1DDF : bc_a1 dry deposition flux at bottom (grav + turb) bc_a1SFWET : Wet deposition flux at surface bc_a1_SRF : bc_a1 in bottom layer bc_a4 : bc_a4 concentration bc_a4DDF : bc_a4 dry deposition flux at bottom (grav + turb) bc_a4SFWET : Wet deposition flux at surface bc_a4_CLXF : vertically intergrated external forcing for bc_a4 bc_a4_CMXF : vertically intergrated external forcing for bc_a4 bc_a4_SRF : bc_a4 in bottom layer bc_c1 : bc_c1 in cloud water bc_c1SFWET : bc_c1 wet deposition flux at surface bc_c4 : bc_c4 in cloud water bc_c4DDF : bc_c4 dry deposition flux at bottom (grav + turb) bc_c4SFWET : bc_c4 wet deposition flux at surface dgnumwet1 : Aerosol mode wet diameter dgnumwet2 : Aerosol mode wet diameter dgnumwet3 : Aerosol mode wet diameter dry_deposition_NHx_as_N: NHx dry deposition flux dry_deposition_NOy_as_N: NOy dry deposition flux dst_a1 : dst_a1 concentration dst_a1DDF : dst_a1 dry deposition flux at bottom (grav + turb) dst_a1SF : dst_a1 dust surface emission dst_a1SFWET : Wet deposition flux at surface dst_a1_SRF : dst_a1 in bottom layer dst_a2 : dst_a2 concentration dst_a2DDF : dst_a2 dry deposition flux at bottom (grav + turb) dst_a2SF : dst_a2 dust surface emission dst_a2SFWET : Wet deposition flux at surface dst_a2_SRF : dst_a2 in bottom layer dst_a3 : dst_a3 concentration dst_a3DDF : dst_a3 dry deposition flux at bottom (grav + turb) dst_a3SF : dst_a3 dust surface emission dst_a3SFWET : Wet deposition flux at surface dst_a3_SRF : dst_a3 in bottom layer dst_c1 : dst_c1 in cloud water dst_c1SFWET : dst_c1 wet deposition flux at surface dst_c2 : dst_c2 in cloud water dst_c2DDF : dst_c2 dry deposition flux at bottom (grav + turb) dst_c2SFWET : dst_c2 wet deposition flux at surface dst_c3 : dst_c3 in cloud water dst_c3SFWET : dst_c3 wet deposition flux at surface jh2o2 : photolysis rate constant ncl_a1 : ncl_a1 concentration ncl_a1DDF : ncl_a1 dry deposition flux at bottom (grav + turb) ncl_a1SF : ncl_a1 seasalt surface emission ncl_a1SFWET : Wet deposition flux at surface ncl_a1_SRF : ncl_a1 in bottom layer ncl_a2 : ncl_a2 concentration ncl_a2DDF : ncl_a2 dry deposition flux at bottom (grav + turb) ncl_a2SF : ncl_a2 seasalt surface emission ncl_a2SFWET : Wet deposition flux at surface ncl_a2_SRF : ncl_a2 in bottom layer ncl_a3 : ncl_a3 concentration ncl_a3DDF : ncl_a3 dry deposition flux at bottom (grav + turb) ncl_a3SF : ncl_a3 seasalt surface emission ncl_a3SFWET : Wet deposition flux at surface ncl_a3_SRF : ncl_a3 in bottom layer ncl_c1 : ncl_c1 in cloud water ncl_c1SFWET : ncl_c1 wet deposition flux at surface ncl_c2 : ncl_c2 in cloud water ncl_c2SFWET : ncl_c2 wet deposition flux at surface ncl_c3 : ncl_c3 in cloud water ncl_c3SFWET : ncl_c3 wet deposition flux at surface num_a1 : num_a1 concentration num_a1DDF : num_a1 dry deposition flux at bottom (grav + turb) num_a1SF : num_a1 dust surface emission num_a1SFWET : Wet deposition flux at surface num_a1_CLXF : vertically intergrated external forcing for num_a1 num_a1_CMXF : vertically intergrated external forcing for num_a1 num_a1_SRF : num_a1 in bottom layer num_a2 : num_a2 concentration num_a2DDF : num_a2 dry deposition flux at bottom (grav + turb) num_a2SF : num_a2 dust surface emission num_a2SFWET : Wet deposition flux at surface num_a2_CLXF : vertically intergrated external forcing for num_a2 num_a2_CMXF : vertically intergrated external forcing for num_a2 num_a2_SRF : num_a2 in bottom layer num_a2_sfnnuc1 : num_a2 modal_aero new particle nucleation column tendency num_a3 : num_a3 concentration num_a3DDF : num_a3 dry deposition flux at bottom (grav + turb) num_a3SF : num_a3 dust surface emission num_a3SFWET : Wet deposition flux at surface num_a3_SRF : num_a3 in bottom layer num_a4 : num_a4 concentration num_a4DDF : num_a4 dry deposition flux at bottom (grav + turb) num_a4SFWET : Wet deposition flux at surface num_a4_CLXF : vertically intergrated external forcing for num_a4 num_a4_CMXF : vertically intergrated external forcing for num_a4 num_a4_SRF : num_a4 in bottom layer num_c1 : num_c1 in cloud water num_c1SFWET : num_c1 wet deposition flux at surface num_c2 : num_c2 in cloud water num_c2SFWET : num_c2 wet deposition flux at surface num_c3 : num_c3 in cloud water num_c3SFWET : num_c3 wet deposition flux at surface num_c4 : num_c4 in cloud water num_c4DDF : num_c4 dry deposition flux at bottom (grav + turb) num_c4SFWET : num_c4 wet deposition flux at surface pom_a1 : pom_a1 concentration pom_a1DDF : pom_a1 dry deposition flux at bottom (grav + turb) pom_a1SFWET : Wet deposition flux at surface pom_a1_SRF : pom_a1 in bottom layer pom_a4 : pom_a4 concentration pom_a4DDF : pom_a4 dry deposition flux at bottom (grav + turb) pom_a4SFWET : Wet deposition flux at surface pom_a4_CLXF : vertically intergrated external forcing for pom_a4 pom_a4_CMXF : vertically intergrated external forcing for pom_a4 pom_a4_SRF : pom_a4 in bottom layer pom_c1 : pom_c1 in cloud water pom_c1SFWET : pom_c1 wet deposition flux at surface pom_c4 : pom_c4 in cloud water pom_c4DDF : pom_c4 dry deposition flux at bottom (grav + turb) pom_c4SFWET : pom_c4 wet deposition flux at surface so4_a1 : so4_a1 concentration so4_a1DDF : so4_a1 dry deposition flux at bottom (grav + turb) so4_a1SFWET : Wet deposition flux at surface so4_a1_CHMP : chemical production rate so4_a1_CLXF : vertically intergrated external forcing for so4_a1 so4_a1_CMXF : vertically intergrated external forcing for so4_a1 so4_a1_SRF : so4_a1 in bottom layer so4_a1_sfgaex1 : so4_a1 gas-aerosol-exchange primary column tendency so4_a2 : so4_a2 concentration so4_a2DDF : so4_a2 dry deposition flux at bottom (grav + turb) so4_a2SFWET : Wet deposition flux at surface so4_a2_CHMP : chemical production rate so4_a2_CLXF : vertically intergrated external forcing for so4_a2 so4_a2_CMXF : vertically intergrated external forcing for so4_a2 so4_a2_SRF : so4_a2 in bottom layer so4_a2_sfgaex1 : so4_a2 gas-aerosol-exchange primary column tendency so4_a2_sfnnuc1 : so4_a2 modal_aero new particle nucleation column tendency so4_a3 : so4_a3 concentration so4_a3DDF : so4_a3 dry deposition flux at bottom (grav + turb) so4_a3SFWET : Wet deposition flux at surface so4_a3_SRF : so4_a3 in bottom layer so4_a3_sfgaex1 : so4_a3 gas-aerosol-exchange primary column tendency so4_c1 : so4_c1 in cloud water so4_c1AQH2SO4 : so4_c1 aqueous phase chemistry so4_c1AQSO4 : so4_c1 aqueous phase chemistry so4_c1SFWET : so4_c1 wet deposition flux at surface so4_c2 : so4_c2 in cloud water so4_c2AQH2SO4 : so4_c2 aqueous phase chemistry so4_c2AQSO4 : so4_c2 aqueous phase chemistry so4_c2SFWET : so4_c2 wet deposition flux at surface so4_c3 : so4_c3 in cloud water so4_c3AQH2SO4 : so4_c3 aqueous phase chemistry so4_c3AQSO4 : so4_c3 aqueous phase chemistry so4_c3SFWET : so4_c3 wet deposition flux at surface soa_a1 : soa_a1 concentration soa_a1DDF : soa_a1 dry deposition flux at bottom (grav + turb) soa_a1SFWET : Wet deposition flux at surface soa_a1_SRF : soa_a1 in bottom layer soa_a2 : soa_a2 concentration soa_a2DDF : soa_a2 dry deposition flux at bottom (grav + turb) soa_a2SFWET : Wet deposition flux at surface soa_a2_SRF : soa_a2 in bottom layer soa_c1 : soa_c1 in cloud water soa_c1SFWET : soa_c1 wet deposition flux at surface soa_c2 : soa_c2 in cloud water soa_c2SFWET : soa_c2 wet deposition flux at surface wet_deposition_NHx_as_N: NHx wet deposition wet_deposition_NOy_as_N: NOy wet deposition h1 stream (daily single level) ndcur : current day (from base day) nscur : current seconds of current day co2vmr : co2 volume mixing ratio ch4vmr : ch4 volume mixing ratio n2ovmr : n2o volume mixing ratio f11vmr : f11 volume mixing ratio f12vmr : f12 volume mixing ratio sol_tsi : total solar irradiance nsteph : current timestep ACTNI : Average Cloud Top ice number ACTNL : Average Cloud Top droplet number ACTREI : Average Cloud Top ice effective radius ACTREL : Average Cloud Top droplet effective radius AODVIS : Aerosol optical depth 550 nm, day only BURDENBCdn : Black carbon aerosol burden, day night BURDENDUSTdn : Dust aerosol burden, day night BURDENPOMdn : POM aerosol burden, day night BURDENSEASALTdn : Seasalt aerosol burden, day night BURDENSO4 : Sulfate aerosol burden, day only BURDENSO4dn : Sulfate aerosol burden, day night BURDENSOAdn : SOA aerosol burden, day night CAPE : Convectively available potential energy CDNUMC : Vertically-integrated droplet concentration CLDTOT : Vertically-integrated total cloud FCTI : Fractional occurrence of cloud top ice FCTL : Fractional occurrence of cloud top liquid FLDS : Downwelling longwave flux at surface FLDSC : Clearsky Downwelling longwave flux at surface FLNR : Net longwave flux at tropopause FLNS : Net longwave flux at surface FLNSC : Clearsky net longwave flux at surface FLNT : Net longwave flux at top of model FLNTC : Clearsky net longwave flux at top of model FLUT : Upwelling longwave flux at top of model FLUTC : Clearsky upwelling longwave flux at top of model FSDS : Downwelling solar flux at surface FSDSC : Clearsky downwelling solar flux at surface FSNR : Net solar flux at tropopause FSNS : Net solar flux at surface FSNSC : Clearsky net solar flux at surface FSNT : Net solar flux at top of model FSNTOAC : Clearsky net solar flux at top of atmosphere LHFLX : Surface latent heat flux LWCF : Longwave cloud forcing MSKtem : TEM mask OMEGA : Vertical velocity (pressure) OMEGA500 : Vertical velocity at 500 mbar pressure surface PBLH : PBL height PHIS : Surface geopotential PRECC : Convective precipitation rate (liq + ice) PRECL : Large-scale (stable) precipitation rate (liq + ice) PRECSC : Convective snow rate (water equivalent) PRECSL : Large-scale (stable) snow rate (water equivalent) PRECT : Total (convective and large-scale) precipitation rate (liq + ice) PRECTMX : Maximum (convective and large-scale) precipitation rate (liq+ice) PS : Surface pressure PSL : Sea level pressure Q : Specific humidity Q850 : Specific Humidity at 850 mbar pressure surface QREFHT : Reference height humidity RHREFHT : Reference height relative humidity SHFLX : Surface sensible heat flux SOLIN : Solar insolation SOLLD : Solar downward near infrared diffuse to surface SOLSD : Solar downward visible diffuse to surface SWCF : Shortwave cloud forcing T : Temperature T500 : Temperature at 500 mbar pressure surface T700 : Temperature at 700 mbar pressure surface T850 : Temperature at 850 mbar pressure surface TAUBLJX : Zonal integrated drag from Beljaars SGO TAUBLJY : Meridional integrated drag from Beljaars SGO TAUGWX : Zonal gravity wave surface stress TAUGWY : Meridional gravity wave surface stress TAUX : Zonal surface stress TAUY : Meridional surface stress TGCLDIWP : Total grid-box cloud ice water path TGCLDLWP : Total grid-box cloud liquid water path TMQ : Total (vertically integrated) precipitable water TREFHT : Reference height temperature TREFHTMN : Minimum reference height temperature over output period TREFHTMX : Maximum reference height temperature over output period TS : Surface temperature (radiative) TSMN : Minimum surface temperature over output period TSMX : Maximum surface temperature over output period U : Zonal wind U10 : 10m wind speed V : Meridional wind WSPDSRFAV : Horizontal total wind speed average at the surface WSPDSRFMX : Horizontal total wind speed maximum at the surface Z3 : Geopotential Height (above sea level) Z500 : Geopotential Z at 500 mbar pressure surface h2 stream (6-hour) ndcur : current day (from base day) nscur : current seconds of current day co2vmr : co2 volume mixing ratio ch4vmr : ch4 volume mixing ratio n2ovmr : n2o volume mixing ratio f11vmr : f11 volume mixing ratio f12vmr : f12 volume mixing ratio sol_tsi : total solar irradiance nsteph : current timestep FLUT : Upwelling longwave flux at top of model IVT : Total (vertically integrated) vapor transport OMEGA500 : Vertical velocity at 500 mbar pressure surface PRECC : Convective precipitation rate (liq + ice) PRECL : Large-scale (stable) precipitation rate (liq + ice) PRECSC : Convective snow rate (water equivalent) PRECSL : Large-scale (stable) snow rate (water equivalent) PRECT : Total (convective and large-scale) precipitation rate (liq + ice) PSL : Sea level pressure TMQ : Total (vertically integrated) precipitable water U200 : Zonal wind at 200 mbar pressure surface U850 : Zonal wind at 850 mbar pressure surface UBOT : Lowest model level zonal wind V850 : Meridional wind at 850 mbar pressure surface VBOT : Lowest model level meridional wind Z300 : Geopotential Z at 300 mbar pressure surface Z500 : Geopotential Z at 500 mbar pressure surface uIVT : u-component (vertically integrated) vapor transport vIVT : v-component (vertically integrated) vapor transport h3 stream (3-hour) ndcur : current day (from base day) nscur : current seconds of current day co2vmr : co2 volume mixing ratio ch4vmr : ch4 volume mixing ratio n2ovmr : n2o volume mixing ratio f11vmr : f11 volume mixing ratio f12vmr : f12 volume mixing ratio sol_tsi : total solar irradiance nsteph : current timestep CLDLOW : Vertically-integrated low cloud PRECC : Convective precipitation rate (liq + ice) PRECL : Large-scale (stable) precipitation rate (liq + ice) UBOT : Lowest model level zonal wind VBOT : Lowest model level meridional wind h6 stream (daily-FC-level) ndcur : current day (from base day) nscur : current seconds of current day co2vmr : co2 volume mixing ratio ch4vmr : ch4 volume mixing ratio n2ovmr : n2o volume mixing ratio f11vmr : f11 volume mixing ratio f12vmr : f12 volume mixing ratio sol_tsi : total solar irradiance nsteph : current timestep THzm : Zonal-Mean potential temp - defined on ilev UVzm : Meridional Flux of Zonal Momentum: 3D zon. mean UWzm : Vertical Flux of Zonal Momentum: 3D zon. mean Uzm : Zonal-Mean zonal wind - defined on ilev VTHzm : Meridional Heat Flux: 3D zon. mean Vzm : Zonal-Mean meridional wind - defined on ilev Wzm : Zonal-Mean vertical wind - defined on ilev
h0 stream (monthly average, gridcell-level) ACTUAL_IMMOB : actual N immobilization AGNPP : aboveground NPP ALT : current active layer thickness ALTMAX : maximum annual active layer thickness AR : autotrophic respiration (MR + GR) ATM_TOPO : atmospheric surface height BAF_CROP : fractional area burned for crop BAF_PEATF : fractional area burned in peatland BCDEP : total BC deposition (dry+wet) from atmosphere BGNPP : belowground NPP BTRAN2 : root zone soil wetness factor BTRANMN : daily minimum of transpiration beta factor CH4PROD : Gridcell total production of CH4 CH4_SURF_AERE_SAT : aerenchyma surface CH4 flux for inundated area; (+ to atm) CH4_SURF_AERE_UNSAT : aerenchyma surface CH4 flux for non-inundated area; (+ to atm) CH4_SURF_DIFF_SAT : diffusive surface CH4 flux for inundated / lake area; (+ to atm) CH4_SURF_DIFF_UNSAT : diffusive surface CH4 flux for non-inundated area; (+ to atm) CH4_SURF_EBUL_SAT : ebullition surface CH4 flux for inundated / lake area; (+ to atm) CH4_SURF_EBUL_UNSAT : ebullition surface CH4 flux for non-inundated area; (+ to atm) COL_FIRE_CLOSS : total column-level fire C loss for non-peat fires outside land-type converted region COL_FIRE_NLOSS : total column-level fire N loss COST_NACTIVE : Cost of active uptake COST_NFIX : Cost of fixation COST_NRETRANS : Cost of retranslocation CPHASE : crop phenology phase CPOOL : temporary photosynthate C pool CROPPROD1C : 1-yr grain product C CROPPROD1C_LOSS : loss from 1-yr grain product pool CROPPROD1N : 1-yr grain product N CROPPROD1N_LOSS : loss from 1-yr grain product pool CROPSEEDC_DEFICIT : C used for crop seed that needs to be repaid CWDC : CWD C CWDC_LOSS : coarse woody debris C loss CWDN : CWD N DEADCROOTC : dead coarse root C DEADCROOTN : dead coarse root N DEADSTEMC : dead stem C DEADSTEMN : dead stem N DENIT : total rate of denitrification DISPVEGC : displayed veg carbon, excluding storage and cpool DISPVEGN : displayed vegetation nitrogen DSL : dry surface layer thickness DSTDEP : total dust deposition (dry+wet) from atmosphere DSTFLXT : total surface dust emission DWT_CONV_CFLUX : conversion C flux (immediate loss to atm) (0 at all times except first timestep of year) DWT_CONV_CFLUX_DRIBBLED : conversion C flux (immediate loss to atm), dribbled throughout the year DWT_CONV_NFLUX : conversion N flux (immediate loss to atm) (0 at all times except first timestep of year) DWT_CROPPROD1C_GAIN : landcover change-driven addition to 1-year crop product pool DWT_CROPPROD1N_GAIN : landcover change-driven addition to 1-year crop product pool DWT_SEEDN_TO_DEADSTEM : seed source to patch-level deadstem DWT_SEEDN_TO_LEAF : seed source to patch-level leaf DWT_SLASH_CFLUX : slash C flux to litter and CWD due to land use DWT_WOODPRODC_GAIN : landcover change-driven addition to wood product pools DWT_WOODPRODN_GAIN : landcover change-driven addition to wood product pools DWT_WOOD_PRODUCTC_GAIN_PATCH : patch-level landcover change-driven addition to wood product pools(0 at all times except first timestep of year) (per-area-gridcell; only makes sense with dov2xy=.false.) EFLXBUILD : building heat flux from change in interior building air temperature EFLX_DYNBAL : dynamic land cover change conversion energy flux EFLX_GRND_LAKE : net heat flux into lake/snow surface, excluding light transmission EFLX_LH_TOT : total latent heat flux [+ to atm] EFLX_LH_TOT_ICE : total latent heat flux [+ to atm] (ice landunits only) EFLX_LH_TOT_R : Rural total evaporation ELAI : exposed one-sided leaf area index ER : total ecosystem respiration, autotrophic + heterotrophic ERRH2O : total water conservation error ERRH2OSNO : imbalance in snow depth (liquid water) ERRSEB : surface energy conservation error ERRSOI : soil/lake energy conservation error ERRSOL : solar radiation conservation error ESAI : exposed one-sided stem area index FAREA_BURNED : timestep fractional area burned FCEV : canopy evaporation FCH4 : Gridcell surface CH4 flux to atmosphere (+ to atm) FCH4TOCO2 : Gridcell oxidation of CH4 to CO2 FCH4_DFSAT : CH4 additional flux due to changing fsat, vegetated landunits only FCOV : fractional impermeable area FCTR : canopy transpiration FFIX_TO_SMINN : free living N fixation to soil mineral N FGEV : ground evaporation FGR : heat flux into soil/snow including snow melt and lake / snow light transmission FGR12 : heat flux between soil layers 1 and 2 FH2OSFC : fraction of ground covered by surface water FINUNDATED : fractional inundated area of vegetated columns FIRA : net infrared (longwave) radiation FIRA_R : Rural net infrared (longwave) radiation FIRE : emitted infrared (longwave) radiation FIRE_ICE : emitted infrared (longwave) radiation (ice landunits only) FIRE_R : Rural emitted infrared (longwave) radiation FLDS : atmospheric longwave radiation (downscaled to columns in glacier regions) FLDS_ICE : atmospheric longwave radiation (downscaled to columns in glacier regions) (ice landunits only) FPI : fraction of potential immobilization FPSN : photosynthesis FREE_RETRANSN_TO_NPOOL : deployment of retranslocated N FROOTC : fine root C FROOTC_ALLOC : fine root C allocation FROOTC_LOSS : fine root C loss FROOTC_TO_LITTER : fine root C litterfall FROOTN : fine root N FSA : absorbed solar radiation FSAT : fractional area with water table at surface FSDS : atmospheric incident solar radiation FSDSND : direct nir incident solar radiation FSDSNDLN : direct nir incident solar radiation at local noon FSDSNI : diffuse nir incident solar radiation FSDSVD : direct vis incident solar radiation FSDSVDLN : direct vis incident solar radiation at local noon FSDSVI : diffuse vis incident solar radiation FSDSVILN : diffuse vis incident solar radiation at local noon FSH : sensible heat not including correction for land use change and rain/snow conversion FSH_G : sensible heat from ground FSH_ICE : sensible heat not including correction for land use change and rain/snow conversion (ice landunits only) FSH_PRECIP_CONVERSION : Sensible heat flux from conversion of rain/snow atm forcing FSH_R : Rural sensible heat FSH_RUNOFF_ICE_TO_LIQ : sensible heat flux generated from conversion of ice runoff to liquid FSH_TO_COUPLER : sensible heat sent to coupler (includes corrections for land use change, rain/snow conversion and conversion of ice runoff to liquid) FSH_V : sensible heat from veg FSM : snow melt heat flux FSNO : fraction of ground covered by snow FSNO_EFF : effective fraction of ground covered by snow FSNO_ICE : fraction of ground covered by snow (ice landunits only) FSR : reflected solar radiation FSRND : direct nir reflected solar radiation FSRNDLN : direct nir reflected solar radiation at local noon FSRNI : diffuse nir reflected solar radiation FSRVD : direct vis reflected solar radiation FSRVDLN : direct vis reflected solar radiation at local noon FSRVI : diffuse vis reflected solar radiation FSR_ICE : reflected solar radiation (ice landunits only) FUELC : fuel load F_DENIT : denitrification flux F_N2O_DENIT : denitrification N2O flux F_N2O_NIT : nitrification N2O flux F_NIT : nitrification flux GPP : gross primary production GR : total growth respiration GRAINC : grain C (does not equal yield) GRAINC_TO_FOOD : grain C to food GRAINC_TO_SEED : grain C to seed GRAINN : grain N GROSS_NMIN : gross rate of N mineralization GSSHA : shaded leaf stomatal conductance GSSHALN : shaded leaf stomatal conductance at local noon GSSUN : sunlit leaf stomatal conductance GSSUNLN : sunlit leaf stomatal conductance at local noon H2OCAN : intercepted water H2OSFC : surface water depth H2OSNO : snow depth (liquid water) H2OSNO_TOP : mass of snow in top snow layer H2OSOI : volumetric soil water (vegetated landunits only) HEAT_CONTENT1 : initial gridcell total heat content HEAT_FROM_AC : sensible heat flux put into canyon due to heat removed from air conditioning HIA : 2 m NWS Heat Index HIA_R : Rural 2 m NWS Heat Index HIA_U : Urban 2 m NWS Heat Index HR : total heterotrophic respiration HR_vr : total vertically resolved heterotrophic respiration HTOP : canopy top HUMIDEX : 2 m Humidex HUMIDEX_R : Rural 2 m Humidex HUMIDEX_U : Urban 2 m Humidex ICE_CONTENT1 : initial gridcell total ice content JMX25T : canopy profile of jmax Jmx25Z : canopy profile of vcmax25 predicted by LUNA model LAISHA : shaded projected leaf area index LAISUN : sunlit projected leaf area index LAKEICEFRAC_SURF : surface lake layer ice mass fraction LAKEICETHICK : thickness of lake ice (including physical expansion on freezing) LAND_USE_FLUX : total C emitted from land cover conversion (smoothed over the year) and wood and grain product pools (NOTE: not a net value) LEAFC : leaf C LEAFCN : Leaf CN ratio used for flexible CN LEAFC_ALLOC : leaf C allocation LEAFC_CHANGE : C change in leaf LEAFC_LOSS : leaf C loss LEAFC_TO_LITTER : leaf C litterfall LEAFC_TO_LITTER_FUN : leaf C litterfall used by FUN LEAFN : leaf N LEAFN_TO_LITTER : leaf N litterfall LEAF_MR : leaf maintenance respiration LFC2 : conversion area fraction of BET and BDT that burned LIQCAN : intercepted liquid water LIQUID_CONTENT1 : initial gridcell total liq content LITFALL : litterfall (leaves and fine roots) LITR1C : LITR1 C LITR1C_TO_SOIL1C : decomp. of litter 1 C to soil 1 C LITR1N : LITR1 N LITR1N_TO_SOIL1N : decomp. of litter 1 N to soil 1 N LITR2C : LITR2 C LITR2C_TO_SOIL1C : decomp. of litter 2 C to soil 1 C LITR2N : LITR2 N LITR2N_TO_SOIL1N : decomp. of litter 2 N to soil 1 N LITR3C : LITR3 C LITR3C_TO_SOIL2C : decomp. of litter 3 C to soil 2 C LITR3N : LITR3 N LITR3N_TO_SOIL2N : decomp. of litter 3 N to soil 2 N LITTERC_HR : litter C heterotrophic respiration LITTERC_LOSS : litter C loss LIVECROOTC : live coarse root C LIVECROOTN : live coarse root N LIVESTEMC : live stem C LIVESTEMN : live stem N LNC : leaf N concentration MR : maintenance respiration NACTIVE : Mycorrhizal N uptake flux NACTIVE_NH4 : Mycorrhizal N uptake flux NACTIVE_NO3 : Mycorrhizal N uptake flux NAM : AM-associated N uptake flux NAM_NH4 : AM-associated N uptake flux NAM_NO3 : AM-associated N uptake flux NBP : net biome production, includes fire, landuse, harvest and hrv_xsmrpool flux (latter smoothed over the year), positive for sink (same as net carbon exchange between land and atmosphere) NDEPLOY : total N deployed in new growth NDEP_TO_SMINN : atmospheric N deposition to soil mineral N NECM : ECM-associated N uptake flux NECM_NH4 : ECM-associated N uptake flux NECM_NO3 : ECM-associated N uptake flux NEE : net ecosystem exchange of carbon, includes fire and hrv_xsmrpool (latter smoothed over the year), excludes landuse and harvest flux, positive for source NEM : Gridcell net adjustment to net carbon exchange passed to atm. for methane production NEP : net ecosystem production, excludes fire, landuse, and harvest flux, positive for sink NET_NMIN : net rate of N mineralization NFERTILIZATION : fertilizer added NFIRE : fire counts valid only in Reg.C NFIX : Symbiotic BNF uptake flux NNONMYC : Non-mycorrhizal N uptake flux NNONMYC_NH4 : Non-mycorrhizal N uptake flux NNONMYC_NO3 : Non-mycorrhizal N uptake flux NPASSIVE : Passive N uptake flux NPOOL : temporary plant N pool NPP : net primary production NPP_GROWTH : Total C used for growth in FUN NPP_NACTIVE : Mycorrhizal N uptake used C NPP_NACTIVE_NH4 : Mycorrhizal N uptake use C NPP_NACTIVE_NO3 : Mycorrhizal N uptake used C NPP_NAM : AM-associated N uptake used C NPP_NAM_NH4 : AM-associated N uptake use C NPP_NAM_NO3 : AM-associated N uptake use C NPP_NECM : ECM-associated N uptake used C NPP_NECM_NH4 : ECM-associated N uptake use C NPP_NECM_NO3 : ECM-associated N uptake used C NPP_NFIX : Symbiotic BNF uptake used C NPP_NNONMYC : Non-mycorrhizal N uptake used C NPP_NNONMYC_NH4 : Non-mycorrhizal N uptake use C NPP_NNONMYC_NO3 : Non-mycorrhizal N uptake use C NPP_NRETRANS : Retranslocated N uptake flux NPP_NUPTAKE : Total C used by N uptake in FUN NRETRANS : Retranslocated N uptake flux NRETRANS_REG : Retranslocated N uptake flux NRETRANS_SEASON : Retranslocated N uptake flux NRETRANS_STRESS : Retranslocated N uptake flux NUPTAKE : Total N uptake of FUN NUPTAKE_NPP_FRACTION : frac of NPP used in N uptake OCDEP : total OC deposition (dry+wet) from atmosphere O_SCALAR : fraction by which decomposition is reduced due to anoxia PARVEGLN : absorbed par by vegetation at local noon PBOT : atmospheric pressure at surface (downscaled to columns in glacier regions) PCH4 : atmospheric partial pressure of CH4 PCO2 : atmospheric partial pressure of CO2 PCT_LANDUNIT : % of each landunit on grid cell PFT_FIRE_CLOSS : total patch-level fire C loss for non-peat fires outside land-type converted region PFT_FIRE_NLOSS : total patch-level fire N loss PLANT_NDEMAND : N flux required to support initial GPP POTENTIAL_IMMOB : potential N immobilization POT_F_DENIT : potential denitrification flux POT_F_NIT : potential nitrification flux PSNSHA : shaded leaf photosynthesis PSNSHADE_TO_CPOOL : C fixation from shaded canopy PSNSUN : sunlit leaf photosynthesis PSNSUN_TO_CPOOL : C fixation from sunlit canopy Q2M : 2m specific humidity QBOT : atmospheric specific humidity (downscaled to columns in glacier regions) QCHARGE : aquifer recharge rate (vegetated landunits only) QDRAI : sub-surface drainage QDRAI_PERCH : perched wt drainage QDRAI_XS : saturation excess drainage QDRIP : throughfall QFLOOD : runoff from river flooding QFLX_DEW_GRND : ground surface dew formation QFLX_DEW_SNOW : surface dew added to snow pacK QFLX_EVAP_TOT : qflx_evap_soi + qflx_evap_can + qflx_tran_veg QFLX_ICE_DYNBAL : ice dynamic land cover change conversion runoff flux QFLX_LIQ_DYNBAL : liq dynamic land cover change conversion runoff flux QFLX_SNOW_DRAIN : drainage from snow pack QFLX_SNOW_DRAIN_ICE : drainage from snow pack melt (ice landunits only) QFLX_SUB_SNOW : sublimation rate from snow pack (also includes bare ice sublimation from glacier columns) QFLX_SUB_SNOW_ICE : sublimation rate from snow pack (also includes bare ice sublimation from glacier columns) (ice landunits only) QH2OSFC : surface water runoff QICE : ice growth/melt QICE_FRZ : ice growth QICE_MELT : ice melt QINFL : infiltration QINTR : interception QIRRIG : water added through irrigation QOVER : surface runoff QRGWL : surface runoff at glaciers (liquid only), wetlands, lakes; also includes melted ice runoff from QSNWCPICE QRUNOFF : total liquid runoff not including correction for land use change QRUNOFF_ICE : total liquid runoff not incl corret for LULCC (ice landunits only) QRUNOFF_ICE_TO_COUPLER : total ice runoff sent to coupler (includes corrections for land use change) QRUNOFF_RAIN_TO_SNOW_CONVERSION: liquid runoff from rain-to-snow conversion when this conversion leads to immediate runoff QRUNOFF_TO_COUPLER : total liquid runoff sent to coupler (includes corrections for land use change) QSNOCPLIQ : excess liquid h2o due to snow capping not including correction for land use change QSNOEVAP : evaporation from snow QSNOFRZ : column-integrated snow freezing rate QSNOFRZ_ICE : column-integrated snow freezing rate (ice landunits only) QSNOMELT : snow melt rate QSNOMELT_ICE : snow melt (ice landunits only) QSNO_TEMPUNLOAD : canopy snow temp unloading QSNO_WINDUNLOAD : canopy snow wind unloading QSNWCPICE : excess solid h2o due to snow capping not including correction for land use change QSOIL : Ground evaporation (soil/snow evaporation + soil/snow sublimation - dew) QSOIL_ICE : Ground evaporation (ice landunits only) QVEGE : canopy evaporation QVEGT : canopy transpiration RAIN : atmospheric rain, after rain/snow repartitioning based on temperature RAIN_FROM_ATM : atmospheric rain received from atmosphere (pre-repartitioning) RAIN_ICE : atmospheric rain, after rain/snow repartitioning based on temperature (ice landunits only) RETRANSN : plant pool of retranslocated N RETRANSN_TO_NPOOL : deployment of retranslocated N RH2M : 2m relative humidity RR : root respiration (fine root MR + total root GR) RSSHA : shaded leaf stomatal resistance RSSUN : sunlit leaf stomatal resistance SABG : solar rad absorbed by ground SABG_PEN : Rural solar rad penetrating top soil or snow layer SABV : solar rad absorbed by veg SEEDC : pool for seeding new PFTs via dynamic landcover SEEDN : pool for seeding new PFTs via dynamic landcover SLASH_HARVESTC : slash harvest carbon (to litter) SMINN : soil mineral N SMINN_TO_NPOOL : deployment of soil mineral N uptake SMINN_TO_PLANT : plant uptake of soil mineral N SMINN_TO_PLANT_FUN : Total soil N uptake of FUN SMIN_NH4 : soil mineral NH4 SMIN_NO3 : soil mineral NO3 SMIN_NO3_LEACHED : soil NO3 pool loss to leaching SMIN_NO3_RUNOFF : soil NO3 pool loss to runoff SMP : soil matric potential (vegetated landunits only) SNOBCMCL : mass of BC in snow column SNOBCMSL : mass of BC in top snow layer SNOCAN : intercepted snow SNODSTMCL : mass of dust in snow column SNODSTMSL : mass of dust in top snow layer SNOFSRND : direct nir reflected solar radiation from snow SNOFSRNI : diffuse nir reflected solar radiation from snow SNOFSRVD : direct vis reflected solar radiation from snow SNOFSRVI : diffuse vis reflected solar radiation from snow SNOINTABS : Fraction of incoming solar absorbed by lower snow layers SNOOCMCL : mass of OC in snow column SNOOCMSL : mass of OC in top snow layer SNOTXMASS : snow temperature times layer mass, layer sum; to get mass-weighted temperature, divide by (SNOWICE+SNOWLIQ) SNOTXMASS_ICE : snow temperature times layer mass, layer sum (ice landunits only); to get mass-weighted temperature, divide by (SNOWICE_ICE+SNOWLIQ_ICE) SNOUNLOAD : Canopy snow unloading SNOW : atmospheric snow, after rain/snow repartitioning based on temperature SNOWDP : gridcell mean snow height SNOWICE : snow ice SNOWICE_ICE : snow ice (ice landunits only) SNOWLIQ : snow liquid water SNOWLIQ_ICE : snow liquid water (ice landunits only) SNOW_DEPTH : snow height of snow covered area SNOW_FROM_ATM : atmospheric snow received from atmosphere (pre-repartitioning) SNOW_ICE : atmospheric snow, after rain/snow repartitioning based on temperature (ice landunits only) SNOW_PERSISTENCE : Length of time of continuous snow cover (nat. veg. landunits only) SNOW_SINKS : snow sinks (liquid water) SNOW_SOURCES : snow sources (liquid water) SOIL1C : SOIL1 C SOIL1N : SOIL1 N SOIL2C : SOIL2 C SOIL2N : SOIL2 N SOIL3C : SOIL3 C SOIL3N : SOIL3 N SOILC_CHANGE : C change in soil SOILC_HR : soil C heterotrophic respiration SOILICE : soil ice (vegetated landunits only) SOILLIQ : soil liquid water (vegetated landunits only) SOILRESIS : soil resistance to evaporation SOILWATER_10CM : soil liquid water + ice in top 10cm of soil (veg landunits only) SOMC_FIRE : C loss due to peat burning SOM_C_LEACHED : total flux of C from SOM pools due to leaching SR : total soil respiration (HR + root resp) STORVEGC : stored vegetation carbon, excluding cpool STORVEGN : stored vegetation nitrogen SUPPLEMENT_TO_SMINN : supplemental N supply SWBGT : 2 m Simplified Wetbulb Globe Temp SWBGT_R : Rural 2 m Simplified Wetbulb Globe Temp SWBGT_U : Urban 2 m Simplified Wetbulb Globe Temp TAUX : zonal surface stress TAUY : meridional surface stress TBOT : atmospheric air temperature (downscaled to columns in glacier regions) TBUILD : internal urban building air temperature TG : ground temperature TG_ICE : ground temperature (ice landunits only) TH2OSFC : surface water temperature THBOT : atmospheric air potential temperature (downscaled to columns in glacier regions) TKE1 : top lake level eddy thermal conductivity TLAI : total projected leaf area index TLAKE : lake temperature TOPO_COL_ICE : column-level topographic height (ice landunits only) TOTCOLC : total column carbon, incl veg and cpool but excl product pools TOTCOLCH4 : total belowground CH4 (0 for non-lake special landunits in the absence of dynamic landunits) TOTCOLN : total column-level N, excluding product pools TOTECOSYSC : total ecosystem carbon, incl veg but excl cpool and product pools TOTECOSYSN : total ecosystem N, excluding product pools TOTLITC : total litter carbon TOTLITC_1m : total litter carbon to 1 meter depth TOTLITN : total litter N TOTLITN_1m : total litter N to 1 meter TOTPFTC : total patch-level carbon, including cpool TOTPFTN : total patch-level nitrogen TOTSOILICE : vertically summed soil cie (veg landunits only) TOTSOILLIQ : vertically summed soil liquid water (veg landunits only) TOTSOMC : total soil organic matter carbon TOTSOMC_1m : total soil organic matter carbon to 1 meter depth TOTSOMN : total soil organic matter N TOTSOMN_1m : total soil organic matter N to 1 meter TOTVEGC : total vegetation carbon, excluding cpool TOTVEGN : total vegetation nitrogen TOT_WOODPRODC : total wood product C TOT_WOODPRODC_LOSS : total loss from wood product pools TOT_WOODPRODN : total wood product N TOT_WOODPRODN_LOSS : total loss from wood product pools TPU25T : canopy profile of tpu TREFMNAV : daily minimum of average 2-m temperature TREFMXAV : daily maximum of average 2-m temperature TSA : 2m air temperature TSAI : total projected stem area index TSA_ICE : 2m air temperature (ice landunits only) TSKIN : skin temperature TSL : temperature of near-surface soil layer (vegetated landunits only) TSOI : soil temperature (vegetated landunits only) TSOI_10CM : soil temperature in top 10cm of soil TSOI_ICE : soil temperature (ice landunits only) TV : vegetation temperature TWS : total water storage T_SCALAR : temperature inhibition of decomposition U10 : 10-m wind U10_DUST : 10-m wind for dust model URBAN_AC : urban air conditioning flux URBAN_HEAT : urban heating flux UST_LAKE : friction velocity (lakes only) VCMX25T : canopy profile of vcmax25 VEGWP : vegetation water matric potential for sun/sha canopy,xyl,root segments VOLR : river channel total water storage VOLRMCH : river channel main channel water storage Vcmx25Z : canopy profile of vcmax25 predicted by LUNA model WA : water in the unconfined aquifer (vegetated landunits only) WASTEHEAT : sensible heat flux from heating/cooling sources of urban waste heat WBT : 2 m Stull Wet Bulb WBT_R : Rural 2 m Stull Wet Bulb WBT_U : Urban 2 m Stull Wet Bulb WIND : atmospheric wind velocity magnitude WOODC : wood C WOODC_ALLOC : wood C eallocation WOODC_LOSS : wood C loss WOOD_HARVESTC : wood harvest carbon (to product pools) WOOD_HARVESTN : wood harvest N (to product pools) WTGQ : surface tracer conductance W_SCALAR : Moisture (dryness) inhibition of decomposition XSMRPOOL : temporary photosynthate C pool XSMRPOOL_RECOVER : C flux assigned to recovery of negative xsmrpool ZBOT : atmospheric reference height ZWT : water table depth (vegetated landunits only) ZWT_CH4_UNSAT : depth of water table for methane production used in non-inundated area ZWT_PERCH : perched water table depth (vegetated landunits only) h1 stream (monthly average, finest sub-grid) AGNPP : aboveground NPP AR : autotrophic respiration (MR + GR) BTRANMN : daily minimum of transpiration beta factor CPHASE : crop phenology phase FCEV : canopy evaporation FCTR : canopy transpiration FGEV : ground evaporation FIRA : net infrared (longwave) radiation FIRE : emitted infrared (longwave) radiation FSA : absorbed solar radiation FSH : sensible heat not including correction for land use change and rain/snow conversion FSR : reflected solar radiation GPP : gross primary production GRAINC_TO_FOOD : grain C to food GSSHALN : shaded leaf stomatal conductance at local noon GSSUNLN : sunlit leaf stomatal conductance at local noon HR : total heterotrophic respiration HTOP : canopy top NFERTILIZATION : fertilizer added NPP : net primary production NPP_NUPTAKE : Total C used by N uptake in FUN QIRRIG : water added through irrigation QVEGT : canopy transpiration TLAI : total projected leaf area index TOTVEGC : total vegetation carbon, excluding cpool TREFMNAV : daily minimum of average 2-m temperature TREFMXAV : daily maximum of average 2-m temperature TSA : 2m air temperature TSKIN : skin temperature VEGWP : vegetation water matric potential for sun/sha canopy,xyl,root segments Vcmx25Z : canopy profile of vcmax25 predicted by LUNA model h2 stream (monthly average, landunit-level) AR : autotrophic respiration (MR + GR) COL_FIRE_CLOSS : total column-level fire C loss for non-peat fires outside land-type converted region DWT_CONV_CFLUX_PATCH : patch-level conversion C flux (immediate loss to atm) (0 at all times except first timestep of year) (per-area-gridcell; only makes sense with dov2xy=.false.) DWT_SLASH_CFLUX : slash C flux to litter and CWD due to land use DWT_WOOD_PRODUCTC_GAIN_PATCH : patch-level landcover change-driven addition to wood product pools(0 at all times except first timestep of year) (per-area-gridcell; only makes sense with dov2xy=.false.) EFLX_GRND_LAKE : net heat flux into lake/snow surface, excluding light transmission EFLX_LH_TOT : total latent heat flux [+ to atm] FGR : heat flux into soil/snow including snow melt and lake / snow light transmission FIRA : net infrared (longwave) radiation FIRE : emitted infrared (longwave) radiation FLDS : atmospheric longwave radiation (downscaled to columns in glacier regions) FROOTC : fine root C FSA : absorbed solar radiation FSH : sensible heat not including correction for land use change and rain/snow conversion FSM : snow melt heat flux FSR : reflected solar radiation GPP : gross primary production GRAINC_TO_FOOD : grain C to food H2OSNO : snow depth (liquid water) HIA : 2 m NWS Heat Index HR : total heterotrophic respiration HTOP : canopy top HUMIDEX : 2 m Humidex NPP : net primary production Q2M : 2m specific humidity QIRRIG : water added through irrigation QRUNOFF : total liquid runoff not including correction for land use change RH2M : 2m relative humidity SABG : solar rad absorbed by ground SLASH_HARVESTC : slash harvest carbon (to litter) SNOWDP : gridcell mean snow height SOILWATER_10CM : soil liquid water + ice in top 10cm of soil (veg landunits only) SWBGT : 2 m Simplified Wetbulb Globe Temp SoilAlpha_U : urban factor limiting ground evap TBUILD : internal urban building air temperature TG : ground temperature TLAI : total projected leaf area index TOTSOILICE : vertically summed soil cie (veg landunits only) TOTSOILLIQ : vertically summed soil liquid water (veg landunits only) TREFMNAV : daily minimum of average 2-m temperature TREFMXAV : daily maximum of average 2-m temperature TSA : 2m air temperature TSKIN : skin temperature TSOI_10CM : soil temperature in top 10cm of soil U10 : 10-m wind URBAN_AC : urban air conditioning flux URBAN_HEAT : urban heating flux WASTEHEAT : sensible heat flux from heating/cooling sources of urban waste heat WOOD_HARVESTC : wood harvest carbon (to product pools) h3 stream (yearly average, gridcell-level) CROPPROD1C : 1-yr grain product C CWDC_vr : CWD C (vertically resolved) CWDN_vr : CWD N (vertically resolved) FSNO_ICE : fraction of ground covered by snow (ice landunits only) LITR1C_vr : LITR1 C (vertically resolved) LITR1N_vr : LITR1 N (vertically resolved) LITR2C_vr : LITR2 C (vertically resolved) LITR2N_vr : LITR2 N (vertically resolved) LITR3C_vr : LITR3 C (vertically resolved) LITR3N_vr : LITR3 N (vertically resolved) PCT_CFT : % of each crop on the crop landunit PCT_GLC_MEC : % of each GLC elevation class on the glc_mec landunit PCT_LANDUNIT : % of each landunit on grid cell PCT_NAT_PFT : % of each PFT on the natural vegetation (i.e., soil) landunit QICE_FORC : qice forcing sent to GLC SOIL1C_vr : SOIL1 C (vertically resolved) SOIL2C_vr : SOIL2 C (vertically resolved) SOIL3C_vr : SOIL3 C (vertically resolved) SOILC_vr : SOIL C (vertically resolved) SOILN_vr : SOIL N (vertically resolved) TOPO_FORC : topograephic height sent to GLC TOTLITC : total litter carbon TOTSOMC : total soil organic matter carbon TOTVEGC : total vegetation carbon, excluding cpool TOT_WOODPRODC : total wood product C TSRF_FORC : surface temperature sent to GLC h4 stream (yearly average, landunit-level) DEADCROOTC : dead coarse root C FROOTC : fine root C LIVECROOTC : live coarse root C TOTECOSYSC : total ecosystem carbon, incl veg but excl cpool and product pools TOTLITC : total litter carbon TOTSOMC : total soil organic matter carbon TOTSOMC_1m : total soil organic matter carbon to 1 meter depth TOTVEGC : total vegetation carbon, excluding cpool WOODC : wood C h5 stream (daily average, gridcell-level) ALT : current active layer thickness AR : autotrophic respiration (MR + GR) BTRANMN : daily minimum of transpiration beta factor CPHASE : crop phenology phase EFLX_GRND_LAKE : net heat flux into lake/snow surface, excluding light transmission FAREA_BURNED : timestep fractional area burned FCEV : canopy evaporation FCTR : canopy transpiration FGEV : ground evaporation FGR12 : heat flux between soil layers 1 and 2 FSA : absorbed solar radiation FSDS : atmospheric incident solar radiation FSDSND : direct nir incident solar radiation FSDSNDLN : direct nir incident solar radiation at local noon FSDSNI : diffuse nir incident solar radiation FSDSVD : direct vis incident solar radiation FSDSVDLN : direct vis incident solar radiation at local noon FSDSVI : diffuse vis incident solar radiation FSH : sensible heat not including correction for land use change and rain/snow conversion FSNO : fraction of ground covered by snow FSR : reflected solar radiation FSRNDLN : direct nir reflected solar radiation at local noon FSRNI : diffuse nir reflected solar radiation FSRVDLN : direct vis reflected solar radiation at local noon FSRVI : diffuse vis reflected solar radiation GPP : gross primary production H2OCAN : intercepted water H2OSFC : surface water depth H2OSNO : snow depth (liquid water) HR : total heterotrophic respiration LAKEICETHICK : thickness of lake ice (including physical expansion on freezing) NBP : net biome production, includes fire, landuse, harvest and hrv_xsmrpool flux (latter smoothed over the year), positive for sink (same as net carbon exchange between land and atmosphere) NEP : net ecosystem production, excludes fire, landuse, and harvest flux, positive for sink NFIRE : fire counts valid only in Reg.C NPP : net primary production QDRAI : sub-surface drainage QDRAI_PERCH : perched wt drainage QFLX_SNOW_DRAIN : drainage from snow pack QFLX_SUB_SNOW : sublimation rate from snow pack (also includes bare ice sublimation from glacier columns) QINTR : interception QOVER : surface runoff QRGWL : surface runoff at glaciers (liquid only), wetlands, lakes; also includes melted ice runoff from QSNWCPICE QRUNOFF : total liquid runoff not including correction for land use change QSNOEVAP : evaporation from snow QSNOFRZ : column-integrated snow freezing rate QSOIL : Ground evaporation (soil/snow evaporation + soil/snow sublimation - dew) QVEGE : canopy evaporation QVEGT : canopy transpiration RAIN : atmospheric rain, after rain/snow repartitioning based on temperature SNOBCMSL : mass of BC in top snow layer SNOCAN : intercepted snow SNOFSRND : direct nir reflected solar radiation from snow SNOFSRNI : diffuse nir reflected solar radiation from snow SNOFSRVD : direct vis reflected solar radiation from snow SNOFSRVI : diffuse vis reflected solar radiation from snow SNOTXMASS : snow temperature times layer mass, layer sum; to get mass-weighted temperature, divide by (SNOWICE+SNOWLIQ) SNOW : atmospheric snow, after rain/snow repartitioning based on temperature SNOWDP : gridcell mean snow height SNOWICE : snow ice SNOWLIQ : snow liquid water SOILICE : soil ice (vegetated landunits only) SOILLIQ : soil liquid water (vegetated landunits only) SOILWATER_10CM : soil liquid water + ice in top 10cm of soil (veg landunits only) TAUX : zonal surface stress TAUY : meridional surface stress TG : ground temperature TLAI : total projected leaf area index TLAKE : lake temperature TOTSOILICE : vertically summed soil cie (veg landunits only) TOTSOILLIQ : vertically summed soil liquid water (veg landunits only) TSKIN : skin temperature TSOI : soil temperature (vegetated landunits only) TSOI_10CM : soil temperature in top 10cm of soil TV : vegetation temperature TWS : total water storage UST_LAKE : friction velocity (lakes only) h6 stream (daily average, landunit-level) QRGWL : surface runoff at glaciers (liquid only), wetlands, lakes; also includes melted ice runoff from QSNWCPICE TREFMNAV : daily minimum of average 2-m temperature TREFMXAV : daily maximum of average 2-m temperature h7 stream (3-hourly average, gridcell-level) PBOT : atmospheric pressure at surface (downscaled to columns in glacier regions) RH2M : 2m relative humidity TSA : 2m air temperature WBT : 2 m Stull Wet Bulb h8 stream (daily average, PFT-level) AR : autotrophic respiration (MR + GR) CPHASE : crop phenology phase GPP : gross primary production TLAI : total projected leaf area index