CLM5 standard set-up output

mcdate = “current date (YYYYMMDD)”

mcsec = “current seconds of current date”

mdcur = “current day (from base day)”

mscur = “current seconds of current day”

nstep = “time step”

time_bounds = “history time interval endpoints”

date_written

time_written

area = “grid cell areas”

landfrac = “land fraction”

landmask = “land/ocean mask (0.=ocean and 1.=land)”

pftmask = “pft real/fake mask (0.=fake and 1.=real)”

nbedrock = “index of shallowest bedrock layer”

ZSOI = “soil depth”

DZSOI = “soil thickness”

WATSAT = “saturated soil water content (porosity)”

SUCSAT = “saturated soil matric potential”

BSW = “slope of soil water retention curve”

HKSAT = “saturated hydraulic conductivity”

ZLAKE = “lake layer node depth”

DZLAKE = “lake layer thickness”

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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”

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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”

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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”

CONC_O2_SAT = “O2 soil Concentration for inundated / lake area”

CONC_O2_UNSAT = “O2 soil Concentration for non-inundated area”

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”

CWDC_vr = “CWD C (vertically resolved)”

CWDN = “CWD N”

CWDN_vr = “CWD N (vertically resolved)”

---

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”

---

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_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_R = “Rural emitted infrared (longwave) radiation”

FLDS = “atmospheric longwave radiation (downscaled to columns in glacier regions)”

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”

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_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”

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”

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”

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ICE_CONTENT1 = “initial gridcell total ice content”

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JMX25T = “canopy profile of jmax”

Jmx25Z = “canopy profile of vcmax25 predicted by LUNA model”

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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_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_vr = “LITR1 C (vertically resolved)”

LITR1N = “LITR1 N”

LITR1N_vr = “LITR1 N (vertically resolved)”

LITR2C = “LITR2 C”

LITR2C_vr = “LITR2 C (vertically resolved)”

LITR2N = “LITR2 N”

LITR2N_vr = “LITR2 N (vertically resolved)”

LITR3C = “LITR3 C”

LITR3C_vr = “LITR3 C (vertically resolved)”

LITR3N = “LITR3 N”

LITR3N_vr = “LITR3 N (vertically resolved)”

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”

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MEG_carene_3 = “MEGAN flux”

MEG_isoprene = “MEGAN flux”

MEG_limonene = “MEGAN flux”

MEG_myrcene = “MEGAN flux”

MEG_ocimene_t_b = “MEGAN flux”

MEG_pinene_a = “MEGAN flux”

MEG_pinene_b = “MEGAN flux”

MEG_sabinene = “MEGAN flux”

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”

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OCDEP = “total OC deposition (dry+wet) from atmosphere”

O_SCALAR = “fraction by which decomposition is reduced due to anoxia”

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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_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”

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)”

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_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)”

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”

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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”

SMINN_vr = “soil mineral N”

SMIN_NH4 = “soil mineral NH4”

SMIN_NH4_vr = “soil mineral NH4 (vert. res.)”

SMIN_NO3 = “soil mineral NO3”

SMIN_NO3_LEACHED = “soil NO3 pool loss to leaching”

SMIN_NO3_RUNOFF = “soil NO3 pool loss to runoff”

SMIN_NO3_vr = “soil mineral NO3 (vert. res.)”

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)”

SNOUNLOAD = “Canopy snow unloading”

SNOW = “atmospheric snow, after rain/snow repartitioning based on temperature”

SNOWDP = “gridcell mean snow height”

SNOWICE = “snow ice”

SNOWLIQ = “snow liquid water”

SNOW_DEPTH = “snow height of snow covered area”

SNOW_FROM_ATM = “atmospheric snow received from atmosphere (pre-repartitioning)”

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”

SOIL1C_vr = “SOIL1 C (vertically resolved)”

SOIL1N = “SOIL1 N”

SOIL1N_vr = “SOIL1 N (vertically resolved)”

SOIL2C = “SOIL2 C”

SOIL2C_vr = “SOIL2 C (vertically resolved)”

SOIL2N = “SOIL2 N”

SOIL2N_vr = “SOIL2 N (vertically resolved)”

SOIL3C = “SOIL3 C”

SOIL3C_vr = “SOIL3 C (vertically resolved)”

SOIL3N = “SOIL3 N”

SOIL3N_vr = “SOIL3 N (vertically resolved)”

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”

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”

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”

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”

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U10 = “10-m wind”

U10_DUST = “10-m wind for dust model”

URBAN_AC = “urban air conditioning flux”

URBAN_HEAT = “urban heating flux”

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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”

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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”

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XSMRPOOL = “temporary photosynthate C pool”

XSMRPOOL_RECOVER = “C flux assigned to recovery of negative xsmrpool”

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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)”