SURFEX

9.2.8. Chemical diagnostics

2012-02-20T16:05:13Z

NBEQ>0:
- CCH_DRY_DEP='WES89' (NAM_CH_SEAFLUXn, NAM_CH_WATFLUXn, NAM_CH_TEBn, NAM_CH_ISBAn): DV_NAT_name, DV_TEB_name, DV_WAT_name, DV_SEA_name
- LCH_BIO_FLUX (NAM_CH_ISBAn): FISO, FMONO: isoprene and monoterpenes emission fluxes

CDSTYN='Y': FLX_DSTd: dust variables to be send to output

if CCH_EMIS=="SNAP": E_name: emission data at time t (ppm*m/s)

9.2.3. ISBA & GARDEN

2012-02-20T15:59:29Z

To get fields names for GARDEN, add GD_ at beginning of following names. (For albedos _ISBA, replace _ISBA by _T).

LPGD (values by patch) (and LGARDEN for garden):
- CPHOTO='NON' or CPHOTO='AGS' or CPHOTO='AST': LAI
- VEG, Z0VEG, DGl: vegetation fraction, surface roughness length, fraction for each patch, soil depth
- Z0REL: orography roughness length
- CHORT='SGH': DICE: soil ice depth for runoff
- VEGTY_Pp: fraction of each vegetation type for each patch
- RSMIN, GAMMA, CV, RGL, EMIS_ISBA, WRMAX_CF: minimum stomatal resistance, coefficient for RSMIN calculation, vegetation thermal inertia coefficient, maximum solar radiation usable in photosynthesis, surface emissivity, coefficient for maximum water interception
- LSURF_DIAG_ALBEDO: ALBNIR_S, ALBVIS_S, ALBUV_S, ALBNIR_ISBA, ALBVIS_ISBA, ALBUV_ISBA: near infrared, visible, uv soil and total albedos

LPGD is in namelists NAM_DIAG_ISBAn and NAM_DIAG_TEBn.
LGARDEN is in namelist NAM_PGD_SCHEMES.
CHORT is in namelist NAM_SGH_ISBAn.
LSURF_DIAG_ALBEDO is now activated in namelist NAM_DIAG_ISBAn, and can be used during PREP step.

9.2.5. TEB

2012-02-20T15:56:28Z

LSURF_MISC_BUDGET (NAM_DIAG_TEBn):
In case of the use of TEB patches, add Tn_ at beginning of fields name, where n is the number of the current TEB patch.
- D_RD: road fraction
- Z0_TOWN: town roughness length
- XQF_BLD: domestic heating
- XFLX_BLD: heat flux from bld
- XQF_TOWN: total anthropogenic heat
- RUNOFF_TW: aggregated runoff for town (+CUM)
- XDQS_TOWN: heat storage inside building
- RN_RD, H_RD, LE_RD, GFLUX_RD: fluxes for road
- RUNOFF_RD: road surface_runoff (+CUM)
- IRRIGC_RD: cumulated road irrigation
- if CWALL_OPT=="UNIF": RN_WL, H_WL, GFLUX_WL: fluxes for wall
- if CWALL_OPT=="TWO ": RN_WLA, RN_WLB,H_WALLA, H_WALLB, GFLUX_WLA, GFLUX_WLB: fluxes for wall
- RN_RF, H_ROOF, LE_ROOF, GFLUX_RF: fluxes for roof
- RUNOFF_RF: aggregated roof runoff (+CUM)
- if LGARDEN:
  RN_GD, H_GD, LE_GD, GFLUX_GD: fluxes for garden
  RUNOFF_GD: garden surface runoff. (+CUM)
  DRAINC_GD, IRRIGC_GD: cumulated garden surface drainage and irrigation
  SWA_GD, LWA_GD : sdown and ldown absorbed by garden
- RN_BLT, H_BLT, LE_BLT, GFLUX_BLT: fluxes for built surfaces
- SWA_RF, SWA_SN_RF, LWA_RF, LWA_SN_RF: sdown and ldown absorbed by roof and by snow on roof
- SWA_RD, SWA_SN_RD, LWA_RD, LWA_SN_RD: sdown and ldown absorbed by road and by snow on road
- IF CWALL_OPT=="UNIF": SWA_WL, LWA_WL: sdown and ldown absorbed by wall
- IF CWALL_OPT=="TWO ": SWA_WLA, LWA_WLA, SWA_WLB, LWA_WLB: sdown and ldown absorbed by wall A and B
- REF_SW_GO, LWE_GO: total solar rad reflected by ground, LW emitted by ground (w/m2)
- REF_SW_FA, LWE_FA: total solar rad reflected by facade, LW emitted by facade (W/m2)
- IF CBEM=="BEM":
  CL_CURT: Current Cooling system temperature set point
  HT_CURT: Current Heating system temperature set point
  QIN_CUR: Current Building internal heat loads
  H_BLD_CL: sensible cooling demand (W/m2)
  T_BLD_CL: total cooling demand (W/m2)
  H_BLD_HT: sensible heating demand (W/m2)
  LE_BLD_: latent cooling demand (W/m2)
  LE_BLD_HT: latent heating demand (W/m2)
  H_WASTE: sensible waste heat from HVAC (W/m2)
  LE_WASTE: latent waste heat from HVAC (W/m2)
  HVAC_CL: cooling energy consumption (W/m2) (+CUM)
  HVAC_HT: heating energy consumption (W/m2) (+CUM)
  CAP_SYS: actual capacity of the cooling system (W m-2(bld))
  M_SYS: actual HVAC mass flow rate (kg s-1 m-2(bld)
  COP: actual COP of the cooling system ()
  Q_SYS: supply air specific humidity (kg kg-1)
  T_SYS: supply air temperature (K)
  TR_SW_WIN: solar radiation transmitted through windows (W m-2(bld))
  FAN_POWER: HVAC fan power (W m-2(bld))
  T_RAD_IND: indoor mean radiant temperature (K)
  HU_BLD: indoor relative humidity (-)
  SWA_WIN: Sdown absorbed by windows (W/m2)
  LWA_WIN: Ldown absorbed by windows (W/m2)
- IF LGREENROOF:
  RN_GR, H_GR, LE_GR, GFLUX_GR:fluxes for greenroofs
  SWA_GR: Sdown absorbed by greenroofs (W/m2)
  LWA_GR: Ldown absorbed by greenroofs (W/m2)
  G_GR_ROOF: heatflux between greenroof and roof (W/m2)
  RUNOFF_GR: greenroof soil surface runoff (kg/m2/s) (+CUM)
  DRAIN_GR: greenroof total vertical drainage (kg/m2/s) (+CUM)
  IRRIGC_GR: GREENROOF cumulated irrigation
  RN_SR: structural roof net radiation
  H_SR: structural roof sensible heat flux
  LE_SR: structural roof latent heat flux
  GFLUX_SR: structural roof conduction flux
  RUNOFF_SR: structural roof surface runoff (+CUM)
- if LSOLAR_PANEL:
  SWA_SP: Shortwave absorbed by solar panels on roofs
  LWA_SP: Longwave absorbed by solar panels on roofs
  RN_SP: Net radiation of solar panels on roofs
  H_SP: Sensible Heat flux from solar panels on roofs
  PHOT_SP: Photovolatic production / photovoltaic panel
  THER_SP: Hot Water production / thermal panel
  PROD_SP: Production by solar panels on roofs
  PHOT_BLD: Photovolatic production (+CUM)
  THER_BLD: Hot Water production (+CUM)

LPGD:
BLD: building fraction
WALL_O_HOR: wall surface over plan area surface
BLD_HEIGHT: building height (m)
Z0_TOWN: town roughness length (m)
ROAD_DIR: road direction
GD_FRAC: garden fraction
GR_FRAC: greenroof fraction
ALB_ROOF: roof albedo
EMIS_ROOF: roof emissivity
HC_ROOFl: roof heat capacity for each layer
TC_ROOFl: roof thermal conductivity for each layer
D_ROOFl: roof layer thickness for each layer
ROUGH_ROOF: roof roughness
ALB_WALL: wall albedo
EMIS_WALL: wall emissivity
HC_WALLl: wall heat capacity for each layer
TC_WALLl: wall thermal conductivity for each layer
D_WALLl: wall layer thickness for each layer
ROUGH_WALL: wall roughness
ALB_ROAD: road albedo
EMIS_ROAD: road emissivity
HC_ROADl: road heat capacity for each layer
TC_ROADl: road thermal conductivity for each layer
D_ROADl: road layer thickness for each layer
H_TRAFFIC: traffic heat flux
LE_TRAFFIC: traffic latent flux
H_INDUSTRY: industry heat flux
LE_INDUSTRY: industry latent flux
PANEL_FRAC: Solar Panel fraction
RESIDENTIAL: Residential use fraction

LPGD AND CBEM=="BEM":
HC_FLOORl: floor heat capacity for each layer
TC_FLOORl: floor thermal conductivity for each layer
D_FLOORl: floor layer thickness for each layer

N2M>0 AND LUTCI:
UTCI_IN_stress: UTCI for person indoor (°C)
UTCI_OUTSUN: UTCI for person at sun (°C)
UTCI_OUTSHAD:UTCI for person in shade (°C)
TRAD_SUN: mean radiant temperature seen by person at sun (K)
TRAD_SHADE: mean radiant temperature seen by person in shade (K)
UTCIC_IN_istress: Cumulated time spent in istress range for person indoor
UTCIC_SU_istress: cumulated time spent in istress range for person at sun
UTCIC_SH_istress: Cumulated time spent in istress range for person in shade

9.2.7. WATFLUX

2012-02-20T15:46:43Z

EVAP_WAT, SUBL_WAT, EVAPC_WAT, SUBLC_WAT
LWATER_PROFILE (for FLAKE) (NAM_DIAG_FLAKEn):
TW_d: water temperature in output levels
FLAKE:
LSURF_BUDGET.OR.LSURF_BUDGETC:
TALB_WAT: total albedo over tile water
WSN_WAT: snow water equivalent over tile water
IF LPROVAR_TO_DIAG:
TS_WATER

9.2.6. SEAFLUX

2012-02-20T15:41:21Z

((N2M>=1.OR.LSURF_BUDGET.OR.LSURF_BUDGETC).AND.LHANDLE_SIC):
TS_SEA, TSRAD_SEA
if LSURF_BUDGET: EVAP_SEA, SUBL_SEA, EVAPC_SEA, SUBLC_SEA
LDIAG_OCEAN (NAM_DIAG_OCEANn):
TOML, SOML, UOML, VOML, DOML: mean temperature, salinity, zonal current, meridian current, density
LDIAG_SEAICE (NAM_SEA_ICE)
TSICE, IALB : sea-ice temperature and albedo
GELATO:
SIT, SND, SIMLT : sea-ice thickness, depth of snow on sea-ice, Sea mixed layer temp for Glt

9.2.4. ISBA

2012-02-20T15:15:11Z

LSURF_EVAP_BUDGET (with LSURF_BUDGETC, can be cumulated in ...C_ISBA) (NAM_DIAG_ISBAn):
LEG_ISBA, LEGI_ISBA, LEV_ISBA, LES_ISBA, LER_ISBA, LETR_ISBA: bare ground evaporation and sublimation, vegetation evaporation and sublimation, evaporation due to interception for tile nature, vegetation evapotranspiration
if CSNOW=="3-L" or CSNOW=="CRO":
LESL_ISBA: liquid water evaporation over snow
SNDRIF_ISBA: blowing snow sublimation for tile nature
EVAP_ISBA, DRAIN_ISBA, RUNOFF_ISBA, SUBL_ISBA: total evaporation flux, drainage, runoff, sublimation flux
DRIVEG_ISBA, RRVEG_ISBA, SNOMLT_ISBA: dripping from the vegetation reservoir, precipitation intercepted by vegetation, snow melt
if LAGRIP: IRRIG_ISBA irrigation rate.
CHORT='SGH' (NAM_SGH_ISBAn) and CISBA='DIF' (NAM_ISBA):
QSB_ISBA: lateral subsurface flow
CHORT='SGH' (NAM_SGH_ISBAn) or CISBA='DIF' (NAM_ISBA):
HORTON_ISBA: horton runoff
LFLOOD (NAM_SGH_ISBAn):
IFLOOD_ISBA, PFLOOD_ISBA: floodplains infiltration, precipitation intercepted by the floodplains
LEF_ISBA, LEIF_ISBA: floodplains evaporation and sublimation
CPHOTO/='NON' (NAM_ISBA): GPP_ISBA, R_AUTO_ISBA, R_ECO_ISBA: gross primary production, autotrophic respiration, ecosystem respiration
LWATER_BUDGET (NAM_DIAG_ISBAn):
RAINF_ISBA, SNOWF_ISBA, DWG_ISBA, DWGI_ISBA, DWR_ISBA, DSWE_ISBA, WATBUD_ISBA: input rainfall rate, input snowfall rate, change in liquid soil moisture, change in solide soil moisture, change in water on canopy, change in snow water equivalent, isba water budget as residue
ISIZE_LMEB_PATCH > 0 :
LEVCV_: total evapotranspiration from vegetation canopy overstory
LESCC_ISBA: total snow sublimation from vegetation canopy overstory
LETRGV_ISBA: transpiration from understory vegetation
LETRCV_ISBA: transpiration from overstory canopy vegetation
LERGV_ISBA: interception evaporation from understory vegetation
LELIT_ISBA: interception evaporation from understory vegetation [W/m2]
LELITI_ISBA: interception evaporation from understory vegetation [W/m2]
DRIPLIT_ISBA:
RRLIT_ISBA:
LERCV_ISBA: interception evaporation from overstory canopy vegetation
LE_C_A_ISBA: latent heat flux from canopy air space to the atmosphere
LE_V_C_ISBA: latent heat flux from vegetation canopy overstory
LE_G_C_ISBA: latent heat flux from understory
LE_N_C_ISBA: latent heat flux from the snow on the ground
SWNT_V_ISBA: net vegetation canopy shortwave radiation
SWNT_G_ISBA: net ground shortwave radiation
SWNT_N_ISBA: net snow shortwave radiation
SWNT_NS_ISBA: net snow shortwave radiation for *surface* layer
LWNT_V_ISBA: net vegetation canopy longwave radiation
LWNT_G_ISBA: net ground longwave radiation
LWNT_N_ISBA: net snow longwave radiation
SWDN_GN_ISBA: total shortwave radiation transmitted through the canopy reaching the snowpack/ground understory
LWDN_GN_ISBA: total shortwave radiation transmitted through and emitted by the canopy reaching the snowpack/ground understory (explicit part)
H_V_C_ISBA: sensible heat flux from vegetation canopy overstory
H_G_C_ISBA: sensible heat flux from understory
H_C_A_ISBA: sensible heat flux from canopy air space to the atmosphere
H_N_C_ISBA: sensible heat flux from the snow on the ground
SR_GN_ISBA: snow unloading rate from the overstory reservoir
MELTCV_ISBA: snow melt rate from the overstory snow reservoir
FRZCV_ISBA: snow refreeze rate from the overstory snow reservoir
–
LSURF_BUDGETC (NAM_DIAG_SURFn) and LGLACIER (NAM_ISBAn):
ICE_FC_ISBA: ice flux
LPATCH_BUDGET (NAM_DIAG_ISBAn) and NPATCH > 1 :
upper and common fields can be given by patch by replacing _ISBA by _P in their names.
LSURF_MISC_BUDGET (NAM_DIAG_ISBAn):
HV_ISBA: Halstead coefficient
PSNG_ISBA, PSNV_ISBA, PSN_ISBA: snow fraction over ground, vegetation and total
TALB_ISBA: total albedo
CSNOW='3-L' or CSNOW='CRO' (NAM_PREP_ISBA_SNOW):
TS_ISBA, TSRAD_ISBA: total surface and radiative temperature
CSNOW='CRO' and LPROSNOW (NAM_DIAG_ISBAn):
SD_1DY_ISBA, SD_3DY_ISBA, SD_5DY_ISBA, SD_7DY_ISBA, SWE_1DY_ISBA, SWE_3DY_ISBA, SWE_5DY_ISBA, SWE_7DY_ISBA, RAMSOND_ISBA, WEt_TH_ISBA, REFRZTH_ISBA
SWIl_ISBA, TSWIl_ISBA: soil wetness index and total swi by layer
TSWI_T_ISBA: total soil wetness index over the soil column
SWI_T_ISBA: soil wetness index over the soil column
WGTOT_T_ISBA, WGI_T_ISBA: total water and ice content over the soil column
WGTOT_ISBA, WGI_ISBA: total ice content (solid) and total volumetric water content (liquid+solid) over the soil column
CISBA='DIF' (NAM_ISBA) AND LSURF_MISC_DIF (NAM_DIAG_ISBAn):
TSWI_D2_ISBA, WG_D2_ISBA, WGI_D2_ISBA: total soil wetness index, water and ice contents over comparable FR-DG2 reservoir
TSWI_D3_ISBA, WG_D3_ISBA, WGI_D3_ISBA: total soil wetness index, water and ice contents over comparable FR-DG3 reservoir
CISBA='DIF' (NAM_ISBA) :
ALT_ISBA, FLT_ISBA: active layer thickness over permafrost, frozen layer thickness over non-permafrost
WSN_T_ISBA, DSN_T_ISBA, TSN_T_ISBA: total snow reservoir, depth and temperature
CRUNOFF='SGH' or CRUNOFF='DT92' (NAM_SGH_ISBAn):
FSAT_ISBA: soil saturated fraction
CRAIN='SGH' (NAM_SGH_ISBAn):
MUF_ISBA: fraction of the grid cell reached by the rainfall
LFLOOD (NAM_SGH_ISBAn):
FFG_ISBA, FFV_ISBA, FF_ISBA: flood fraction over ground, vegetation and total
FFLOOD_ISBA, PIFLOOD_ISBA: grid-cell potential flood fraction and floodplain inflitration
CPHOTO/='NON' .OR.NPATCH>1: LAI_ISBA: leaf area index
LWTD :
FWTD_ISBA: grid-cell fraction of water table to rise
WTD_ISBA: water table depth from RRM model or observation
LPATCH_BUDGET: previously defined fields for each patch:
SWIl, TSWIl
if CISBA=='DIF': ALT_P, FLT_P
HV, PSNG, PSNV, PSN, TALB
CSNOW='3-L' or CSNOW='CRO': TS_P, TSRAD_P, SNOWLIQl, SNOWTEMPl
CSNOW='CRO' and LPROSNOW: SD_1DY_P, SD_3DY_P, SD_5DY_P, SD_7DY_P, SWE_1DY_P, SWE_3DY_P, SWE_5DY_P, SWE_7DY_P, RAMSOND_P, WET_TH_P, REFRZTH_P
WSN_T_P, DSN_T_P, TSN_T_P
CRUNOFF='DT92': FSAT_P
LFLOOD: FFG_P, FFV_P, FF_P
LAGRIP (NAM_AGRI): IRRISEUIL: irrigation threshold
LTR_ML (NAM_ISBA):
FAPAR, FAPIR, FAPAR_BS, FAPIR_BS, DFAPARC, DFAPIRC: fapar and fapir of vegetation, of bare soil, and cumulated from 0 UTC
DLAI_EFFC: cumulated effective LAI
LPGD (values by patch):
CPHOTO=='NON'.OR.CPHOTO=='AGS'.OR.CPHOTO=='AST':
LAI: leaf area index
IF ISIZE_LMEB_PATCH > 0:
LAIGV: understory leaf area index
IF ISIZE_LMEB_PATCH > 0:
GNDLITTER: ground litter fraction
Z0LITTER: ground litter roughness length (without snow)
IF NPATCH>1:
DGI_ISBA: averaged soil depth layer I
CISBA='DIF':
DROOT_DIF, DG2_DIF, RUNOFFD, DTOT_DIF, ROOTFRACl: root depth, dg2 depth, runoff depth, total soil depth for moisture, root fraction by layer
DG2_DIF_ISBA: Averaged DG2 depth in ISBA-DIF
DTOTDF_ISBA: Averaged Total soil depth for moisture in ISBA-DIF
IF (ISIZE_LMEB_PATCH>0):
ROOTFRACGVI: understory root fraction by layer
IF LSOC : FRACSOCI: SOC fraction by layer
WSATl, WFCl, WWILTl: soil porosity, field capacity, wilting point, by layer (not by patch)
LAGRIP AND (CPHOTO=LAI' or CPHOTO='LST' or CPHOTO='NIT' or CPHOTO='NCB'):
TSEED, TREAP: dates of seeding and reaping
IRRIG, WATSUP: flag for irrigation, water supply during irrigation process
IF ISIZE_LMEB_PATCH>0:
RSMINGV: understory minimum stomatal resistance
GAMMAGV: understory coefficient for RSMIN calculation
RGLGV: understory maximum solar radiation usable in photosynthesis
WRMAX_CFGV: understory coefficient for maximum water interception
H_VEG:height of vegetation
LPROVAR_TO_DIAG (NAM_WRITE_DIAG_SURFn):
TGl_ISBA, WGl_ISBA, WGIl_ISBA, WR_ISBA
LGLACIER: ICE_STO_ISBA
ASN_ISBA
CSNOW='3-L' or CSNOW='CRO': WSN_l_ISBA, DSN_l_ISBA, TSN_l_ISBA, AGSN_I_ISBA
CPHOTO='NIT'.OR.CPHOTO='NCB': BIOMI_ISBA
CRESPSL='CNT': LIT1_I_ISBA, LIT2_I_ISBA, LIGSTRI_ISBA, SCARBI_ISBA
LASSIM and CASSIM_ISBA=="EKF ":
ANAL_INCRvar: analysis increment for variable var
HOvar_obs_time_p: jacobian by patch
INNOVobs_time: innovation
RESIDobs_time: residual

9.2.2. For each tile and all tiles aggregated

2012-02-20T14:20:09Z

Replace "TILE" by ISBA, WAT, SEA or TEB to get names of diagnostic fields.
If a sea-ice scheme is set (see 6.2.3. Sea-ice schemes), tile "SEA" includes the sea-ice part and diagnostics for tile SEAICE are also available
For the tiles aggregation, discard "_TILE" from the names of the fields.

All the following flags are in namelist NAM_DIAG_SURFn.

N2M>=1 ):
RI_TILE: Bulk-Richardson number
T2M_TILE, T2MMIN_TILE, T2MMAX_TILE: air temperature at 2 meters
Q2M_TILE: air humidity at 2 meters
HU2M_TILE, HU2MMIN_TILE, HU2MMAX_TILE: air relative humidity at 2 meters
ZON10M_TILE, MER10M_TILE, W10M_TILE, W10MMAX_TILE: zonal, meridian, wind at 10 meter (only if 1^st level of atmospheric model is upper than 10 m)
SFCO2_TILE: CO2 flux (kgCO2/kg air * m/s) (not for sea and water for the moment)
LSURF_BUDGET:
RN_TILE, H_TILE, LE_TILE, LEI_TILE (if .NOT.LDIAG_SEAICE on SEA), GFLUX_TILE: net radiation at surface, sensible heat flux, total latent heat flux, sublimation latent heat flux, net soil-vegetation flux
LRAD_BUDGET:
SWD_TILE, SWU_TILE, LWD_TILE, LWU_TILE, SWD_TILE_b, SWU_TILE_b: short wave downward and upward radiation, long wave downward and upward radiation, short wave downward and upward radiation by spectral band
FMU, FMV: zonal and meridian frictions, without and with SSO. (Pa)
LSURF_BUDGETC (not for TEB) :
RNC_TILE, HC_TILE, LEC_TILE, LEIC_TILE, GFLUXC_TILE:cumulated fluxes at surface
LRAD_BUDGET:
SWDC_TILE, SWUC_TILE, LWDC_TILE, LWUC_TILE: cumulated radiations
FMUC_TILE, FMVC_TILE: cumulated frictions with SSO
LCOEF:
CD_TILE, CH_TILE, CE_TILE: drag coefficients for wind, heat, vapor
Z0_TILE, Z0H_TILE: roughness lengths for momentum and heat
LSURF_VARS (not for aggregated tiles):
QS_TILE: specific humidity

9.2.1. All tiles aggregated

2012-02-20T14:03:50Z

LFRAC (NAM_DIAG_SURF_ATMn):
FRAC_SEA, FRAC_NATURE, FRAC_WATER, FRAC_TOWN: fractions for each tile
N2M>=1 + L2M_MIN_ZS=T (NAM_DIAG_SURFn):
T2M_MIN_ZS, Q2M_MIN_ZS, HU2M_MIN_ZS: temperature, air humidity and air relative humidity at 2 meters brought back to min zs.
LSURF_BUDGET:
FMUNOSSO, FMVNOSSO: zonal and meridian frictions, without and with SSO. (Pa)
EVAP, SUBL, EVAPC, SUBLC: evaporation and sublimation (+CUM)
N2M>=1 or LSURF_BUDGET or LSURF_BUDGETC:
TS, TSRAD, EMIS: surface temperature, radiative temperature, surface emissivity
LCOEF:
UREF, ZREF: reference heights for momentum and heat
LCPL_GCM:
RAIN_GCM: RAINFALL FOR RESTART
SNOW_GCM: SNOWFALL FOR RESTART
Z0_GCM: Z0 FOR RESTART
Z0H_GCM: Z0H FOR RESTART
QS_GCM: QS FOR RESTART
LSURF_VARS:
QS: surface humidity