netcdf _SOUTHERN_csm_b030.05_lnd_hist_lsmh_1980-01 { dimensions: longitude = 128 ; latitude = 64 ; soil_layer_index = 6 ; time = UNLIMITED ; // (1 currently) strlen = 256 ; basins = 19 ; variables: float longitude(longitude) ; longitude:long_name = "longitude" ; longitude:units = "degrees_east" ; float latitude(latitude) ; latitude:long_name = "latitude" ; latitude:units = "degrees_north" ; float lon2d(latitude, longitude) ; lon2d:long_name = "reduced grid 2d longitude array" ; lon2d:units = "degrees_east" ; float lat2d(latitude, longitude) ; lat2d:long_name = "reduced grid 2d latitude array" ; lat2d:units = "degrees_north" ; int mask2d(latitude, longitude) ; mask2d:long_name = "reduced grid 2d mask array" ; mask2d:units = "unitless" ; int surface_type(latitude, longitude) ; surface_type:long_name = "surface type" ; surface_type:units = "unitless" ; int mdbase ; mdbase:long_name = "base day for this case" ; mdbase:units = "unitless" ; int msbase ; msbase:long_name = "seconds to complete base day" ; msbase:units = "s" ; int mbdate ; mbdate:long_name = "base date as 6 digit integer (YYMMDD)" ; mbdate:units = "unitless" ; int mbsec ; mbsec:long_name = "seconds to complete base date" ; mbsec:units = "s" ; float dtlsm ; dtlsm:long_name = "model timestep" ; dtlsm:units = "s" ; int nhtfrq ; nhtfrq:long_name = "frequency of model writes (timesteps)" ; nhtfrq:units = "unitless" ; char inifil(strlen) ; inifil:long_name = "input initial data" ; char flnfil(strlen) ; flnfil:long_name = "fractional land data" ; int date(time) ; date:long_name = "current date as 6 digit integer (YYMMDD)" ; date:units = "unitless" ; int datesec(time) ; datesec:long_name = "seconds into current date" ; datesec:units = "s" ; float time(time) ; time:long_name = "current day" ; time:units = "unitless" ; int timestep(time) ; timestep:long_name = "simulation time step" ; timestep:units = "unitless" ; char timecom(time, strlen) ; timecom:long_name = "time comment" ; float TAM(time, latitude, longitude) ; TAM:Title = "aerodynamic temperature at height z0m+d " ; TAM:long_name = "aerodynamic temperature at height z0m+d " ; TAM:units = "K " ; TAM:field_type = "average " ; TAM:level_flag = "multi_level" ; TAM:missing_value = 1.e+30f ; float TAH(time, latitude, longitude) ; TAH:Title = "surface temperature at height z0h+d " ; TAH:long_name = "surface temperature at height z0h+d " ; TAH:units = "K " ; TAH:field_type = "average " ; TAH:level_flag = "multi_level" ; TAH:missing_value = 1.e+30f ; float TSA(time, latitude, longitude) ; TSA:Title = "2 m air temperature " ; TSA:long_name = "2 m air temperature " ; TSA:units = "K " ; TSA:field_type = "average " ; TSA:level_flag = "single_level" ; TSA:missing_value = 1.e+30f ; float TV(time, latitude, longitude) ; TV:Title = "vegetation temperature " ; TV:long_name = "vegetation temperature " ; TV:units = "K " ; TV:field_type = "average " ; TV:level_flag = "single_level" ; TV:missing_value = 1.e+30f ; float TG(time, latitude, longitude) ; TG:Title = "ground temperature " ; TG:long_name = "ground temperature " ; TG:units = "K " ; TG:field_type = "average " ; TG:level_flag = "single_level" ; TG:missing_value = 1.e+30f ; float DTV(time, latitude, longitude) ; DTV:Title = "change in tv last iteration " ; DTV:long_name = "change in tv last iteration " ; DTV:units = "K " ; DTV:field_type = "average " ; DTV:level_flag = "single_level" ; DTV:missing_value = 1.e+30f ; float DTG(time, latitude, longitude) ; DTG:Title = "change in tg last iteration " ; DTG:long_name = "change in tg last iteration " ; DTG:units = "K " ; DTG:field_type = "average " ; DTG:level_flag = "single_level" ; DTG:missing_value = 1.e+30f ; float FSA(time, latitude, longitude) ; FSA:Title = "absorbed solar radiation " ; FSA:long_name = "absorbed solar radiation " ; FSA:units = "W/M2 " ; FSA:field_type = "average " ; FSA:level_flag = "single_level" ; FSA:missing_value = 1.e+30f ; float FSR(time, latitude, longitude) ; FSR:Title = "reflected solar radiation " ; FSR:long_name = "reflected solar radiation " ; FSR:units = "W/M2 " ; FSR:field_type = "average " ; FSR:level_flag = "single_level" ; FSR:missing_value = 1.e+30f ; float NDVI(time, latitude, longitude) ; NDVI:Title = "surface ndvi " ; NDVI:long_name = "surface ndvi " ; NDVI:units = " " ; NDVI:field_type = "average " ; NDVI:level_flag = "single_level" ; NDVI:missing_value = 1.e+30f ; float FCTR(time, latitude, longitude) ; FCTR:Title = "canopy transpiration " ; FCTR:long_name = "canopy transpiration " ; FCTR:units = "W/M2 " ; FCTR:field_type = "average " ; FCTR:level_flag = "single_level" ; FCTR:missing_value = 1.e+30f ; float FCEV(time, latitude, longitude) ; FCEV:Title = "canopy evaporation " ; FCEV:long_name = "canopy evaporation " ; FCEV:units = "W/M2 " ; FCEV:field_type = "average " ; FCEV:level_flag = "single_level" ; FCEV:missing_value = 1.e+30f ; float FGEV(time, latitude, longitude) ; FGEV:Title = "ground evaporation " ; FGEV:long_name = "ground evaporation " ; FGEV:units = "W/M2 " ; FGEV:field_type = "average " ; FGEV:level_flag = "single_level" ; FGEV:missing_value = 1.e+30f ; float FIRA(time, latitude, longitude) ; FIRA:Title = "net infrared (longwave) radiation " ; FIRA:long_name = "net infrared (longwave) radiation " ; FIRA:units = "W/M2 " ; FIRA:field_type = "average " ; FIRA:level_flag = "single_level" ; FIRA:missing_value = 1.e+30f ; float FGR(time, latitude, longitude) ; FGR:Title = "heat flux into soil " ; FGR:long_name = "heat flux into soil " ; FGR:units = "W/M2 " ; FGR:field_type = "average " ; FGR:level_flag = "single_level" ; FGR:missing_value = 1.e+30f ; float FSM(time, latitude, longitude) ; FSM:Title = "snow melt heat flux " ; FSM:long_name = "snow melt heat flux " ; FSM:units = "W/M2 " ; FSM:field_type = "average " ; FSM:level_flag = "single_level" ; FSM:missing_value = 1.e+30f ; float CN(time, latitude, longitude) ; CN:Title = "neutral momentum drag coefficient " ; CN:long_name = "neutral momentum drag coefficient " ; CN:units = " " ; CN:field_type = "average " ; CN:level_flag = "single_level" ; CN:missing_value = 1.e+30f ; float CM(time, latitude, longitude) ; CM:Title = "momentum drag coefficient " ; CM:long_name = "momentum drag coefficient " ; CM:units = " " ; CM:field_type = "average " ; CM:level_flag = "single_level" ; CM:missing_value = 1.e+30f ; float ELAI(time, latitude, longitude) ; ELAI:Title = "exposed one-sided leaf area index " ; ELAI:long_name = "exposed one-sided leaf area index " ; ELAI:units = "M2/M2 " ; ELAI:field_type = "average " ; ELAI:level_flag = "single_level" ; ELAI:missing_value = 1.e+30f ; float ESAI(time, latitude, longitude) ; ESAI:Title = "exposed one-sided stem area index " ; ESAI:long_name = "exposed one-sided stem area index " ; ESAI:units = "M2/M2 " ; ESAI:field_type = "average " ; ESAI:level_flag = "single_level" ; ESAI:missing_value = 1.e+30f ; float RSSUN(time, latitude, longitude) ; RSSUN:Title = "sunlit leaf stomatal resistance " ; RSSUN:long_name = "sunlit leaf stomatal resistance " ; RSSUN:units = "S/M " ; RSSUN:field_type = "minimum " ; RSSUN:level_flag = "single_level" ; RSSUN:missing_value = 1.e+30f ; float RSSHA(time, latitude, longitude) ; RSSHA:Title = "shaded leaf stomatal resistance " ; RSSHA:long_name = "shaded leaf stomatal resistance " ; RSSHA:units = "S/M " ; RSSHA:field_type = "minimum " ; RSSHA:level_flag = "single_level" ; RSSHA:missing_value = 1.e+30f ; float FMICR(time, latitude, longitude) ; FMICR:Title = "microbial respiration " ; FMICR:long_name = "microbial respiration " ; FMICR:units = "UMOL/M2S" ; FMICR:field_type = "average " ; FMICR:level_flag = "single_level" ; FMICR:missing_value = 1.e+30f ; float FPSN(time, latitude, longitude) ; FPSN:Title = "photosynthesis " ; FPSN:long_name = "photosynthesis " ; FPSN:units = "UMOL/M2S" ; FPSN:field_type = "average " ; FPSN:level_flag = "single_level" ; FPSN:missing_value = 1.e+30f ; float FRMS(time, latitude, longitude) ; FRMS:Title = "stem maintenance respiration " ; FRMS:long_name = "stem maintenance respiration " ; FRMS:units = "UMOL/M2S" ; FRMS:field_type = "average " ; FRMS:level_flag = "single_level" ; FRMS:missing_value = 1.e+30f ; float FRMR(time, latitude, longitude) ; FRMR:Title = "root maintenance respiration " ; FRMR:long_name = "root maintenance respiration " ; FRMR:units = "UMOL/M2S" ; FRMR:field_type = "average " ; FRMR:level_flag = "single_level" ; FRMR:missing_value = 1.e+30f ; float FRMF(time, latitude, longitude) ; FRMF:Title = "foliage maintenance respiration " ; FRMF:long_name = "foliage maintenance respiration " ; FRMF:units = "UMOL/M2S" ; FRMF:field_type = "average " ; FRMF:level_flag = "single_level" ; FRMF:missing_value = 1.e+30f ; float FRG(time, latitude, longitude) ; FRG:Title = "growth respiration " ; FRG:long_name = "growth respiration " ; FRG:units = "UMOL/M2S" ; FRG:field_type = "average " ; FRG:level_flag = "single_level" ; FRG:missing_value = 1.e+30f ; float FCO2(time, latitude, longitude) ; FCO2:Title = "net co2 flux " ; FCO2:long_name = "net co2 flux " ; FCO2:units = "UMOL/M2S" ; FCO2:field_type = "average " ; FCO2:level_flag = "single_level" ; FCO2:missing_value = 1.e+30f ; float DMI(time, latitude, longitude) ; DMI:Title = "net primary production " ; DMI:long_name = "net primary production " ; DMI:units = "UG/M2S " ; DMI:field_type = "average " ; DMI:level_flag = "single_level" ; DMI:missing_value = 1.e+30f ; float H2OCAN(time, latitude, longitude) ; H2OCAN:Title = "intercepted water " ; H2OCAN:long_name = "intercepted water " ; H2OCAN:units = "MM " ; H2OCAN:field_type = "average " ; H2OCAN:level_flag = "single_level" ; H2OCAN:missing_value = 1.e+30f ; float BEVAP(time, latitude, longitude) ; BEVAP:Title = "ground evaporation beta factor " ; BEVAP:long_name = "ground evaporation beta factor " ; BEVAP:units = " " ; BEVAP:field_type = "average " ; BEVAP:level_flag = "single_level" ; BEVAP:missing_value = 1.e+30f ; float BTRAN(time, latitude, longitude) ; BTRAN:Title = "transpiration beta factor " ; BTRAN:long_name = "transpiration beta factor " ; BTRAN:units = " " ; BTRAN:field_type = "average " ; BTRAN:level_flag = "single_level" ; BTRAN:missing_value = 1.e+30f ; float QINFL(time, latitude, longitude) ; QINFL:Title = "infiltration " ; QINFL:long_name = "infiltration " ; QINFL:units = "MM/S " ; QINFL:field_type = "average " ; QINFL:level_flag = "single_level" ; QINFL:missing_value = 1.e+30f ; float QOVER(time, latitude, longitude) ; QOVER:Title = "surface runoff " ; QOVER:long_name = "surface runoff " ; QOVER:units = "MM/S " ; QOVER:field_type = "average " ; QOVER:level_flag = "single_level" ; QOVER:missing_value = 1.e+30f ; float QDRAI(time, latitude, longitude) ; QDRAI:Title = "sub-surface drainage " ; QDRAI:long_name = "sub-surface drainage " ; QDRAI:units = "MM/S " ; QDRAI:field_type = "average " ; QDRAI:level_flag = "single_level" ; QDRAI:missing_value = 1.e+30f ; float QINTR(time, latitude, longitude) ; QINTR:Title = "interception " ; QINTR:long_name = "interception " ; QINTR:units = "MM/S " ; QINTR:field_type = "average " ; QINTR:level_flag = "single_level" ; QINTR:missing_value = 1.e+30f ; float QDRIP(time, latitude, longitude) ; QDRIP:Title = "throughfall " ; QDRIP:long_name = "throughfall " ; QDRIP:units = "MM/S " ; QDRIP:field_type = "average " ; QDRIP:level_flag = "single_level" ; QDRIP:missing_value = 1.e+30f ; float QMELT(time, latitude, longitude) ; QMELT:Title = "snow melt " ; QMELT:long_name = "snow melt " ; QMELT:units = "MM/S " ; QMELT:field_type = "average " ; QMELT:level_flag = "single_level" ; QMELT:missing_value = 1.e+30f ; float QSOIL(time, latitude, longitude) ; QSOIL:Title = "ground evaporation " ; QSOIL:long_name = "ground evaporation " ; QSOIL:units = "MM/S " ; QSOIL:field_type = "average " ; QSOIL:level_flag = "single_level" ; QSOIL:missing_value = 1.e+30f ; float QVEGE(time, latitude, longitude) ; QVEGE:Title = "canopy evaporation " ; QVEGE:long_name = "canopy evaporation " ; QVEGE:units = "MM/S " ; QVEGE:field_type = "average " ; QVEGE:level_flag = "single_level" ; QVEGE:missing_value = 1.e+30f ; float QVEGT(time, latitude, longitude) ; QVEGT:Title = "canopy transpiration " ; QVEGT:long_name = "canopy transpiration " ; QVEGT:units = "MM/S " ; QVEGT:field_type = "average " ; QVEGT:level_flag = "single_level" ; QVEGT:missing_value = 1.e+30f ; float QPRECC(time, latitude, longitude) ; QPRECC:Title = "convective precipitation " ; QPRECC:long_name = "convective precipitation " ; QPRECC:units = "MM/S " ; QPRECC:field_type = "average " ; QPRECC:level_flag = "single_level" ; QPRECC:missing_value = 1.e+30f ; float QPRECL(time, latitude, longitude) ; QPRECL:Title = "large-scale precipitation " ; QPRECL:long_name = "large-scale precipitation " ; QPRECL:units = "MM/S " ; QPRECL:field_type = "average " ; QPRECL:level_flag = "single_level" ; QPRECL:missing_value = 1.e+30f ; float ERRSOI(time, latitude, longitude) ; ERRSOI:Title = "soil/lake energy conservation error " ; ERRSOI:long_name = "soil/lake energy conservation error " ; ERRSOI:units = "W/M2 " ; ERRSOI:field_type = "average " ; ERRSOI:level_flag = "single_level" ; ERRSOI:missing_value = 1.e+30f ; float ERRSEB(time, latitude, longitude) ; ERRSEB:Title = "surface energy conservation error " ; ERRSEB:long_name = "surface energy conservation error " ; ERRSEB:units = "W/M2 " ; ERRSEB:field_type = "average " ; ERRSEB:level_flag = "single_level" ; ERRSEB:missing_value = 1.e+30f ; float ERRSOL(time, latitude, longitude) ; ERRSOL:Title = "solar radiation conservation error " ; ERRSOL:long_name = "solar radiation conservation error " ; ERRSOL:units = "W/M2 " ; ERRSOL:field_type = "average " ; ERRSOL:level_flag = "single_level" ; ERRSOL:missing_value = 1.e+30f ; float ERRH2O(time, latitude, longitude) ; ERRH2O:Title = "total water conservation error " ; ERRH2O:long_name = "total water conservation error " ; ERRH2O:units = "MM " ; ERRH2O:field_type = "average " ; ERRH2O:level_flag = "single_level" ; ERRH2O:missing_value = 1.e+30f ; float TGCM(time, latitude, longitude) ; TGCM:Title = "atmospheric air temperature " ; TGCM:long_name = "atmospheric air temperature " ; TGCM:units = "K " ; TGCM:field_type = "average " ; TGCM:level_flag = "single_level" ; TGCM:missing_value = 1.e+30f ; float VMAGGCM(time, latitude, longitude) ; VMAGGCM:Title = "atmospheric wind velocity magnitude " ; VMAGGCM:long_name = "atmospheric wind velocity magnitude " ; VMAGGCM:units = "M/S " ; VMAGGCM:field_type = "average " ; VMAGGCM:level_flag = "single_level" ; VMAGGCM:missing_value = 1.e+30f ; float PGCM(time, latitude, longitude) ; PGCM:Title = "atmospheric pressure " ; PGCM:long_name = "atmospheric pressure " ; PGCM:units = "PA " ; PGCM:field_type = "average " ; PGCM:level_flag = "single_level" ; PGCM:missing_value = 1.e+30f ; float QGCM(time, latitude, longitude) ; QGCM:Title = "atmospheric specific humidity " ; QGCM:long_name = "atmospheric specific humidity " ; QGCM:units = "KG/KG " ; QGCM:field_type = "average " ; QGCM:level_flag = "single_level" ; QGCM:missing_value = 1.e+30f ; float ZGCM(time, latitude, longitude) ; ZGCM:Title = "atmospheric reference height " ; ZGCM:long_name = "atmospheric reference height " ; ZGCM:units = "M " ; ZGCM:field_type = "average " ; ZGCM:level_flag = "single_level" ; ZGCM:missing_value = 1.e+30f ; float L_DOWN(time, latitude, longitude) ; L_DOWN:Title = "incident longwave radiation " ; L_DOWN:long_name = "incident longwave radiation " ; L_DOWN:units = "W/M2 " ; L_DOWN:field_type = "average " ; L_DOWN:level_flag = "single_level" ; L_DOWN:missing_value = 1.e+30f ; float S_DOWN(time, latitude, longitude) ; S_DOWN:Title = "incident solar radiation " ; S_DOWN:long_name = "incident solar radiation " ; S_DOWN:units = "W/M2 " ; S_DOWN:field_type = "average " ; S_DOWN:level_flag = "single_level" ; S_DOWN:missing_value = 1.e+30f ; float TSRAD(time, latitude, longitude) ; TSRAD:Title = "surface radiative temperature " ; TSRAD:long_name = "surface radiative temperature " ; TSRAD:units = "K " ; TSRAD:field_type = "average " ; TSRAD:level_flag = "single_level" ; TSRAD:missing_value = 1.e+30f ; float ASDIR(time, latitude, longitude) ; ASDIR:Title = "albedo solar - direct " ; ASDIR:long_name = "albedo solar - direct " ; ASDIR:units = "FRACTION" ; ASDIR:field_type = "average " ; ASDIR:level_flag = "single_level" ; ASDIR:missing_value = 1.e+30f ; float ALDIR(time, latitude, longitude) ; ALDIR:Title = "albedo longwave - direct " ; ALDIR:long_name = "albedo longwave - direct " ; ALDIR:units = "FRACTION" ; ALDIR:field_type = "average " ; ALDIR:level_flag = "single_level" ; ALDIR:missing_value = 1.e+30f ; float ASDIF(time, latitude, longitude) ; ASDIF:Title = "albedo - solar diffuse " ; ASDIF:long_name = "albedo - solar diffuse " ; ASDIF:units = "FRACTION" ; ASDIF:field_type = "average " ; ASDIF:level_flag = "single_level" ; ASDIF:missing_value = 1.e+30f ; float ALDIF(time, latitude, longitude) ; ALDIF:Title = "albedo - longwve diffuse " ; ALDIF:long_name = "albedo - longwve diffuse " ; ALDIF:units = "FRACTION" ; ALDIF:field_type = "average " ; ALDIF:level_flag = "single_level" ; ALDIF:missing_value = 1.e+30f ; float H2OSNO(time, latitude, longitude) ; H2OSNO:Title = "snow depth (liquid water) " ; H2OSNO:long_name = "snow depth (liquid water) " ; H2OSNO:units = "MM " ; H2OSNO:field_type = "average " ; H2OSNO:level_flag = "single_level" ; H2OSNO:missing_value = 1.e+30f ; float TAUX(time, latitude, longitude) ; TAUX:Title = "zonal surface stress " ; TAUX:long_name = "zonal surface stress " ; TAUX:units = "KG/MS2 " ; TAUX:field_type = "average " ; TAUX:level_flag = "single_level" ; TAUX:missing_value = 1.e+30f ; float TAUY(time, latitude, longitude) ; TAUY:Title = "meridional surface stress " ; TAUY:long_name = "meridional surface stress " ; TAUY:units = "KG/MS2 " ; TAUY:field_type = "average " ; TAUY:level_flag = "single_level" ; TAUY:missing_value = 1.e+30f ; float FLH(time, latitude, longitude) ; FLH:Title = "latent heat " ; FLH:long_name = "latent heat " ; FLH:units = "W/M2 " ; FLH:field_type = "average " ; FLH:level_flag = "single_level" ; FLH:missing_value = 1.e+30f ; float FSH(time, latitude, longitude) ; FSH:Title = "sensible heat " ; FSH:long_name = "sensible heat " ; FSH:units = "W/M2 " ; FSH:field_type = "average " ; FSH:level_flag = "single_level" ; FSH:missing_value = 1.e+30f ; float FIRE(time, latitude, longitude) ; FIRE:Title = "emitted infrared (longwave) radiation " ; FIRE:long_name = "emitted infrared (longwave) radiation " ; FIRE:units = "W/M2 " ; FIRE:field_type = "average " ; FIRE:level_flag = "single_level" ; FIRE:missing_value = 1.e+30f ; float EVAP(time, latitude, longitude) ; EVAP:Title = "total evaporative flux " ; EVAP:long_name = "total evaporative flux " ; EVAP:units = "KG/M2/S " ; EVAP:field_type = "average " ; EVAP:level_flag = "single_level" ; EVAP:missing_value = 1.e+30f ; float TSOI(time, soil_layer_index, latitude, longitude) ; TSOI:Title = "soil temperature " ; TSOI:units = "K " ; TSOI:field_type = "average " ; float H2OSOI(time, soil_layer_index, latitude, longitude) ; H2OSOI:Title = "volumetric soil water " ; H2OSOI:units = "MM3/MM3 " ; H2OSOI:field_type = "average " ; float BASIN_RUNOFF(time, basins) ; BASIN_RUNOFF:long_name = "total runoff to various basins" ; BASIN_RUNOFF:units = "kg/sec" ; BASIN_RUNOFF:basin_01 = "basin 01 Eurasian Arctic" ; BASIN_RUNOFF:basin_02 = "basin 02 N. American Arctic" ; BASIN_RUNOFF:basin_03 = "basin 03 N. American Atlantic" ; BASIN_RUNOFF:basin_04 = "basin 04 European Atlantic" ; BASIN_RUNOFF:basin_05 = "basin 05 S. American Atlantic" ; BASIN_RUNOFF:basin_06 = "basin 06 African Atlantic" ; BASIN_RUNOFF:basin_07 = "basin 07 African Indian" ; BASIN_RUNOFF:basin_08 = "basin 08 Asian Indian" ; BASIN_RUNOFF:basin_09 = "basin 09 Asian Pacific" ; BASIN_RUNOFF:basin_10 = "basin 10 N. American Pacific" ; BASIN_RUNOFF:basin_11 = "basin 11 S. American Pacific" ; BASIN_RUNOFF:basin_12 = "basin 12 Australian Southern" ; BASIN_RUNOFF:basin_13 = "basin 13 Antarctic Southern" ; BASIN_RUNOFF:basin_14 = "basin 14 Mediterranean" ; BASIN_RUNOFF:basin_15 = "basin 15 Caspian Sea" ; BASIN_RUNOFF:basin_16 = "basin 16 Black Sea" ; BASIN_RUNOFF:basin_17 = "basin 17 Red Sea / Persian Gulf" ; BASIN_RUNOFF:basin_18 = "basin 18 Baltic Sea" ; BASIN_RUNOFF:basin_19 = "basin 19 Hudson Bay" ; // global attributes: :case_title = "b030.05 : b030.05 CSM1.2 (CASE-A2:PROGSUL,tauvis=.01,s04 dir,6hr data)" ; :history = "Data created 10/12/99 20:42:21 $" ; :Source = "Land Surface Model: lsm1.1" ; }