netcdf Neckar_VCS_v1_CLM_1_6970537000848241904 {
dimensions:
time = 32 ;
bnds = 2 ;
lon = 535 ;
lat = 605 ;
levsoi = 10 ;
variables:
float time(time) ;
time:standard_name = "time" ;
time:long_name = "time" ;
time:bounds = "time_bnds" ;
time:units = "days since 2007-01-01 00:00:00" ;
time:calendar = "365_day" ;
time:axis = "T" ;
double time_bnds(time, bnds) ;
float lon(lon) ;
lon:standard_name = "longitude" ;
lon:long_name = "coordinate longitude" ;
lon:units = "degrees_east" ;
lon:axis = "X" ;
float lat(lat) ;
lat:standard_name = "latitude" ;
lat:long_name = "coordinate latitude" ;
lat:units = "degrees_north" ;
lat:axis = "Y" ;
float levsoi(levsoi) ;
levsoi:long_name = "coordinate soil levels" ;
levsoi:units = "m" ;
levsoi:axis = "Z" ;
int mcdate(time) ;
mcdate:long_name = "current date (YYYYMMDD)" ;
int mcsec(time) ;
mcsec:long_name = "current seconds of current date" ;
mcsec:units = "s" ;
int mdcur(time) ;
mdcur:long_name = "current day (from base day)" ;
int mscur(time) ;
mscur:long_name = "current seconds of current day" ;
int nstep(time) ;
nstep:long_name = "time step" ;
float ZSOI(levsoi, lat, lon) ;
ZSOI:long_name = "soil depth" ;
ZSOI:units = "m" ;
ZSOI:_FillValue = 1.e+36f ;
ZSOI:missing_value = 1.e+36f ;
float DZSOI(levsoi, lat, lon) ;
DZSOI:long_name = "soil thickness" ;
DZSOI:units = "m" ;
DZSOI:_FillValue = 1.e+36f ;
DZSOI:missing_value = 1.e+36f ;
float WATSAT(levsoi, lat, lon) ;
WATSAT:long_name = "saturated soil water content (porosity)" ;
WATSAT:units = "mm3/mm3" ;
WATSAT:_FillValue = 1.e+36f ;
WATSAT:missing_value = 1.e+36f ;
float SUCSAT(levsoi, lat, lon) ;
SUCSAT:long_name = "saturated soil matric potential" ;
SUCSAT:units = "mm" ;
SUCSAT:_FillValue = 1.e+36f ;
SUCSAT:missing_value = 1.e+36f ;
float BSW(levsoi, lat, lon) ;
BSW:long_name = "slope of soil water retention curve" ;
BSW:units = "unitless" ;
BSW:_FillValue = 1.e+36f ;
BSW:missing_value = 1.e+36f ;
float longxy(lat, lon) ;
longxy:long_name = "longitude" ;
longxy:units = "degrees_east" ;
longxy:_FillValue = 1.e+36f ;
longxy:missing_value = 1.e+36f ;
float latixy(lat, lon) ;
latixy:long_name = "latitude" ;
latixy:units = "degrees_north" ;
latixy:_FillValue = 1.e+36f ;
latixy:missing_value = 1.e+36f ;
float area(lat, lon) ;
area:long_name = "grid cell areas" ;
area:units = "km^2" ;
area:_FillValue = 1.e+36f ;
area:missing_value = 1.e+36f ;
float areaupsc(lat, lon) ;
areaupsc:long_name = "normalized grid cell areas related to upscaling" ;
areaupsc:units = "km^2" ;
areaupsc:_FillValue = 1.e+36f ;
areaupsc:missing_value = 1.e+36f ;
float topo(lat, lon) ;
topo:long_name = "grid cell topography" ;
topo:units = "m" ;
topo:_FillValue = 1.e+36f ;
topo:missing_value = 1.e+36f ;
float topodnsc(lat, lon) ;
topodnsc:long_name = "normalized grid cell topography related to downscaling" ;
topodnsc:units = "m" ;
topodnsc:_FillValue = 1.e+36f ;
topodnsc:missing_value = 1.e+36f ;
float landfrac(lat, lon) ;
landfrac:long_name = "land fraction" ;
landfrac:_FillValue = 1.e+36f ;
landfrac:missing_value = 1.e+36f ;
int landmask(lat, lon) ;
landmask:long_name = "land/ocean mask (0.=ocean and 1.=land)" ;
int pftmask(lat, lon) ;
pftmask:long_name = "pft real/fake mask (0.=fake and 1.=real)" ;
pftmask:_FillValue = -9999 ;
pftmask:missing_value = -9999 ;
int indxupsc(lat, lon) ;
indxupsc:long_name = "upscaling atm global grid index" ;
indxupsc:_FillValue = -9999 ;
indxupsc:missing_value = -9999 ;
float BTRAN(time, lat, lon) ;
BTRAN:long_name = "transpiration beta factor" ;
BTRAN:units = "unitless" ;
BTRAN:_FillValue = 1.e+36f ;
BTRAN:missing_value = 1.e+36f ;
BTRAN:cell_method = "time: instantaneous" ;
float ELAI(time, lat, lon) ;
ELAI:long_name = "exposed one-sided leaf area index" ;
ELAI:units = "m^2/m^2" ;
ELAI:_FillValue = 1.e+36f ;
ELAI:missing_value = 1.e+36f ;
ELAI:cell_method = "time: instantaneous" ;
float ESAI(time, lat, lon) ;
ESAI:long_name = "exposed one-sided stem area index" ;
ESAI:units = "m^2/m^2" ;
ESAI:_FillValue = 1.e+36f ;
ESAI:missing_value = 1.e+36f ;
ESAI:cell_method = "time: instantaneous" ;
float FCEV(time, lat, lon) ;
FCEV:long_name = "canopy evaporation" ;
FCEV:units = "watt/m^2" ;
FCEV:_FillValue = 1.e+36f ;
FCEV:missing_value = 1.e+36f ;
FCEV:cell_method = "time: instantaneous" ;
float FCOV(time, lat, lon) ;
FCOV:long_name = "fractional area with water table at surface" ;
FCOV:units = "unitless" ;
FCOV:_FillValue = 1.e+36f ;
FCOV:missing_value = 1.e+36f ;
FCOV:cell_method = "time: instantaneous" ;
float FCTR(time, lat, lon) ;
FCTR:long_name = "canopy transpiration" ;
FCTR:units = "watt/m^2" ;
FCTR:_FillValue = 1.e+36f ;
FCTR:missing_value = 1.e+36f ;
FCTR:cell_method = "time: instantaneous" ;
float FGEV(time, lat, lon) ;
FGEV:long_name = "ground evaporation" ;
FGEV:units = "watt/m^2" ;
FGEV:_FillValue = 1.e+36f ;
FGEV:missing_value = 1.e+36f ;
FGEV:cell_method = "time: instantaneous" ;
float FGR(time, lat, lon) ;
FGR:long_name = "heat flux into soil" ;
FGR:units = "watt/m^2" ;
FGR:_FillValue = 1.e+36f ;
FGR:missing_value = 1.e+36f ;
FGR:cell_method = "time: instantaneous" ;
float FIRA(time, lat, lon) ;
FIRA:long_name = "net infrared (longwave) radiation" ;
FIRA:units = "watt/m^2" ;
FIRA:_FillValue = 1.e+36f ;
FIRA:missing_value = 1.e+36f ;
FIRA:cell_method = "time: instantaneous" ;
float FIRE(time, lat, lon) ;
FIRE:long_name = "emitted infrared (longwave) radiation" ;
FIRE:units = "watt/m^2" ;
FIRE:_FillValue = 1.e+36f ;
FIRE:missing_value = 1.e+36f ;
FIRE:cell_method = "time: instantaneous" ;
float FLDS(time, lat, lon) ;
FLDS:long_name = "atmospheric longwave radiation" ;
FLDS:units = "watt/m^2" ;
FLDS:_FillValue = 1.e+36f ;
FLDS:missing_value = 1.e+36f ;
FLDS:cell_method = "time: instantaneous" ;
float FPLRES(time, lat, lon) ;
FPLRES:long_name = "plant respiration" ;
FPLRES:units = "umol/m2s" ;
FPLRES:_FillValue = 1.e+36f ;
FPLRES:missing_value = 1.e+36f ;
FPLRES:cell_method = "time: instantaneous" ;
float FPSN(time, lat, lon) ;
FPSN:long_name = "photosynthesis" ;
FPSN:units = "umol/m2s" ;
FPSN:_FillValue = 1.e+36f ;
FPSN:missing_value = 1.e+36f ;
FPSN:cell_method = "time: instantaneous" ;
float FSA(time, lat, lon) ;
FSA:long_name = "absorbed solar radiation" ;
FSA:units = "watt/m^2" ;
FSA:_FillValue = 1.e+36f ;
FSA:missing_value = 1.e+36f ;
FSA:cell_method = "time: instantaneous" ;
float FSDS(time, lat, lon) ;
FSDS:long_name = "atmospheric incident solar radiation" ;
FSDS:units = "watt/m^2" ;
FSDS:_FillValue = 1.e+36f ;
FSDS:missing_value = 1.e+36f ;
FSDS:cell_method = "time: instantaneous" ;
float FSDSND(time, lat, lon) ;
FSDSND:long_name = "direct nir incident solar radiation" ;
FSDSND:units = "watt/m^2" ;
FSDSND:_FillValue = 1.e+36f ;
FSDSND:missing_value = 1.e+36f ;
FSDSND:cell_method = "time: instantaneous" ;
float FSDSNI(time, lat, lon) ;
FSDSNI:long_name = "diffuse nir incident solar radiation" ;
FSDSNI:units = "watt/m^2" ;
FSDSNI:_FillValue = 1.e+36f ;
FSDSNI:missing_value = 1.e+36f ;
FSDSNI:cell_method = "time: instantaneous" ;
float FSDSVD(time, lat, lon) ;
FSDSVD:long_name = "direct vis incident solar radiation" ;
FSDSVD:units = "watt/m^2" ;
FSDSVD:_FillValue = 1.e+36f ;
FSDSVD:missing_value = 1.e+36f ;
FSDSVD:cell_method = "time: instantaneous" ;
float FSDSVI(time, lat, lon) ;
FSDSVI:long_name = "diffuse vis incident solar radiation" ;
FSDSVI:units = "watt/m^2" ;
FSDSVI:_FillValue = 1.e+36f ;
FSDSVI:missing_value = 1.e+36f ;
FSDSVI:cell_method = "time: instantaneous" ;
float FSH(time, lat, lon) ;
FSH:long_name = "sensible heat" ;
FSH:units = "watt/m^2" ;
FSH:_FillValue = 1.e+36f ;
FSH:missing_value = 1.e+36f ;
FSH:cell_method = "time: instantaneous" ;
float FSH_G(time, lat, lon) ;
FSH_G:long_name = "sensible heat from ground" ;
FSH_G:units = "watt/m^2" ;
FSH_G:_FillValue = 1.e+36f ;
FSH_G:missing_value = 1.e+36f ;
FSH_G:cell_method = "time: instantaneous" ;
float FSH_V(time, lat, lon) ;
FSH_V:long_name = "sensible heat from veg" ;
FSH_V:units = "watt/m^2" ;
FSH_V:_FillValue = 1.e+36f ;
FSH_V:missing_value = 1.e+36f ;
FSH_V:cell_method = "time: instantaneous" ;
float FSM(time, lat, lon) ;
FSM:long_name = "snow melt heat flux" ;
FSM:units = "watt/m^2" ;
FSM:_FillValue = 1.e+36f ;
FSM:missing_value = 1.e+36f ;
FSM:cell_method = "time: instantaneous" ;
float FSNO(time, lat, lon) ;
FSNO:long_name = "fraction of ground covered by snow" ;
FSNO:units = "unitless" ;
FSNO:_FillValue = 1.e+36f ;
FSNO:missing_value = 1.e+36f ;
FSNO:cell_method = "time: instantaneous" ;
float FSR(time, lat, lon) ;
FSR:long_name = "reflected solar radiation" ;
FSR:units = "watt/m^2" ;
FSR:_FillValue = 1.e+36f ;
FSR:missing_value = 1.e+36f ;
FSR:cell_method = "time: instantaneous" ;
float FSRND(time, lat, lon) ;
FSRND:long_name = "direct nir reflected solar radiation" ;
FSRND:units = "watt/m^2" ;
FSRND:_FillValue = 1.e+36f ;
FSRND:missing_value = 1.e+36f ;
FSRND:cell_method = "time: instantaneous" ;
float FSRNI(time, lat, lon) ;
FSRNI:long_name = "diffuse nir reflected solar radiation" ;
FSRNI:units = "watt/m^2" ;
FSRNI:_FillValue = 1.e+36f ;
FSRNI:missing_value = 1.e+36f ;
FSRNI:cell_method = "time: instantaneous" ;
float FSRVD(time, lat, lon) ;
FSRVD:long_name = "direct vis reflected solar radiation" ;
FSRVD:units = "watt/m^2" ;
FSRVD:_FillValue = 1.e+36f ;
FSRVD:missing_value = 1.e+36f ;
FSRVD:cell_method = "time: instantaneous" ;
float FSRVI(time, lat, lon) ;
FSRVI:long_name = "diffuse vis reflected solar radiation" ;
FSRVI:units = "watt/m^2" ;
FSRVI:_FillValue = 1.e+36f ;
FSRVI:missing_value = 1.e+36f ;
FSRVI:cell_method = "time: instantaneous" ;
float H2OCAN(time, lat, lon) ;
H2OCAN:long_name = "intercepted water" ;
H2OCAN:units = "mm" ;
H2OCAN:_FillValue = 1.e+36f ;
H2OCAN:missing_value = 1.e+36f ;
H2OCAN:cell_method = "time: instantaneous" ;
float H2OSNO(time, lat, lon) ;
H2OSNO:long_name = "snow depth (liquid water)" ;
H2OSNO:units = "mm" ;
H2OSNO:_FillValue = 1.e+36f ;
H2OSNO:missing_value = 1.e+36f ;
H2OSNO:cell_method = "time: instantaneous" ;
float H2OSOI(time, levsoi, lat, lon) ;
H2OSOI:long_name = "volumetric soil water" ;
H2OSOI:units = "mm3/mm3" ;
H2OSOI:_FillValue = 1.e+36f ;
H2OSOI:missing_value = 1.e+36f ;
H2OSOI:cell_method = "time: instantaneous" ;
float LAISHA(time, lat, lon) ;
LAISHA:long_name = "shaded projected leaf area index" ;
LAISHA:units = "none" ;
LAISHA:_FillValue = 1.e+36f ;
LAISHA:missing_value = 1.e+36f ;
LAISHA:cell_method = "time: instantaneous" ;
float LAISUN(time, lat, lon) ;
LAISUN:long_name = "sunlit projected leaf area index" ;
LAISUN:units = "none" ;
LAISUN:_FillValue = 1.e+36f ;
LAISUN:missing_value = 1.e+36f ;
LAISUN:cell_method = "time: instantaneous" ;
float Q2M(time, lat, lon) ;
Q2M:long_name = "2m specific humidity" ;
Q2M:units = "kg/kg" ;
Q2M:_FillValue = 1.e+36f ;
Q2M:missing_value = 1.e+36f ;
Q2M:cell_method = "time: instantaneous" ;
float QBOT(time, lat, lon) ;
QBOT:long_name = "atmospheric specific humidity" ;
QBOT:units = "kg/kg" ;
QBOT:_FillValue = 1.e+36f ;
QBOT:missing_value = 1.e+36f ;
QBOT:cell_method = "time: instantaneous" ;
float QDRAI(time, lat, lon) ;
QDRAI:long_name = "sub-surface drainage" ;
QDRAI:units = "mm/s" ;
QDRAI:_FillValue = 1.e+36f ;
QDRAI:missing_value = 1.e+36f ;
QDRAI:cell_method = "time: instantaneous" ;
float QDRIP(time, lat, lon) ;
QDRIP:long_name = "throughfall" ;
QDRIP:units = "mm/s" ;
QDRIP:_FillValue = 1.e+36f ;
QDRIP:missing_value = 1.e+36f ;
QDRIP:cell_method = "time: instantaneous" ;
float QINFL(time, lat, lon) ;
QINFL:long_name = "infiltration" ;
QINFL:units = "mm/s" ;
QINFL:_FillValue = 1.e+36f ;
QINFL:missing_value = 1.e+36f ;
QINFL:cell_method = "time: instantaneous" ;
float QINTR(time, lat, lon) ;
QINTR:long_name = "interception" ;
QINTR:units = "mm/s" ;
QINTR:_FillValue = 1.e+36f ;
QINTR:missing_value = 1.e+36f ;
QINTR:cell_method = "time: instantaneous" ;
float QMELT(time, lat, lon) ;
QMELT:long_name = "snow melt" ;
QMELT:units = "mm/s" ;
QMELT:_FillValue = 1.e+36f ;
QMELT:missing_value = 1.e+36f ;
QMELT:cell_method = "time: instantaneous" ;
float QSOIL(time, lat, lon) ;
QSOIL:long_name = "ground evaporation" ;
QSOIL:units = "mm/s" ;
QSOIL:_FillValue = 1.e+36f ;
QSOIL:missing_value = 1.e+36f ;
QSOIL:cell_method = "time: instantaneous" ;
float QVEGE(time, lat, lon) ;
QVEGE:long_name = "canopy evaporation" ;
QVEGE:units = "mm/s" ;
QVEGE:_FillValue = 1.e+36f ;
QVEGE:missing_value = 1.e+36f ;
QVEGE:cell_method = "time: instantaneous" ;
float QVEGT(time, lat, lon) ;
QVEGT:long_name = "canopy transpiration" ;
QVEGT:units = "mm/s" ;
QVEGT:_FillValue = 1.e+36f ;
QVEGT:missing_value = 1.e+36f ;
QVEGT:cell_method = "time: instantaneous" ;
float RAIN(time, lat, lon) ;
RAIN:long_name = "atmospheric rain" ;
RAIN:units = "mm/s" ;
RAIN:_FillValue = 1.e+36f ;
RAIN:missing_value = 1.e+36f ;
RAIN:cell_method = "time: instantaneous" ;
float RSSHA(time, lat, lon) ;
RSSHA:long_name = "shaded leaf stomatal resistance" ;
RSSHA:units = "s/m" ;
RSSHA:_FillValue = 1.e+36f ;
RSSHA:missing_value = 1.e+36f ;
RSSHA:cell_method = "time: instantaneous" ;
float RSSUN(time, lat, lon) ;
RSSUN:long_name = "sunlit leaf stomatal resistance" ;
RSSUN:units = "s/m" ;
RSSUN:_FillValue = 1.e+36f ;
RSSUN:missing_value = 1.e+36f ;
RSSUN:cell_method = "time: instantaneous" ;
float SABG(time, lat, lon) ;
SABG:long_name = "solar rad absorbed by ground" ;
SABG:units = "watt/m^2" ;
SABG:_FillValue = 1.e+36f ;
SABG:missing_value = 1.e+36f ;
SABG:cell_method = "time: instantaneous" ;
float SABV(time, lat, lon) ;
SABV:long_name = "solar rad absorbed by veg" ;
SABV:units = "watt/m^2" ;
SABV:_FillValue = 1.e+36f ;
SABV:missing_value = 1.e+36f ;
SABV:cell_method = "time: instantaneous" ;
float SNOW(time, lat, lon) ;
SNOW:long_name = "atmospheric snow" ;
SNOW:units = "mm/s" ;
SNOW:_FillValue = 1.e+36f ;
SNOW:missing_value = 1.e+36f ;
SNOW:cell_method = "time: instantaneous" ;
float SNOWAGE(time, lat, lon) ;
SNOWAGE:long_name = "snow age" ;
SNOWAGE:units = "unitless" ;
SNOWAGE:_FillValue = 1.e+36f ;
SNOWAGE:missing_value = 1.e+36f ;
SNOWAGE:cell_method = "time: instantaneous" ;
float SNOWDP(time, lat, lon) ;
SNOWDP:long_name = "snow height" ;
SNOWDP:units = "m" ;
SNOWDP:_FillValue = 1.e+36f ;
SNOWDP:missing_value = 1.e+36f ;
SNOWDP:cell_method = "time: instantaneous" ;
float SNOWICE(time, lat, lon) ;
SNOWICE:long_name = "snow ice" ;
SNOWICE:units = "kg/m2" ;
SNOWICE:_FillValue = 1.e+36f ;
SNOWICE:missing_value = 1.e+36f ;
SNOWICE:cell_method = "time: instantaneous" ;
float SNOWLIQ(time, lat, lon) ;
SNOWLIQ:long_name = "snow liquid water" ;
SNOWLIQ:units = "kg/m2" ;
SNOWLIQ:_FillValue = 1.e+36f ;
SNOWLIQ:missing_value = 1.e+36f ;
SNOWLIQ:cell_method = "time: instantaneous" ;
float SOILICE(time, levsoi, lat, lon) ;
SOILICE:long_name = "soil ice" ;
SOILICE:units = "kg/m2" ;
SOILICE:_FillValue = 1.e+36f ;
SOILICE:missing_value = 1.e+36f ;
SOILICE:cell_method = "time: instantaneous" ;
float SOILLIQ(time, levsoi, lat, lon) ;
SOILLIQ:long_name = "soil liquid water" ;
SOILLIQ:units = "kg/m2" ;
SOILLIQ:_FillValue = 1.e+36f ;
SOILLIQ:missing_value = 1.e+36f ;
SOILLIQ:cell_method = "time: instantaneous" ;
float SoilAlpha(time, lat, lon) ;
SoilAlpha:long_name = "factor limiting ground evap" ;
SoilAlpha:units = "unitless" ;
SoilAlpha:_FillValue = 1.e+36f ;
SoilAlpha:missing_value = 1.e+36f ;
SoilAlpha:cell_method = "time: instantaneous" ;
float TAUX(time, lat, lon) ;
TAUX:long_name = "zonal surface stress" ;
TAUX:units = "kg/m/s^2" ;
TAUX:_FillValue = 1.e+36f ;
TAUX:missing_value = 1.e+36f ;
TAUX:cell_method = "time: instantaneous" ;
float TAUY(time, lat, lon) ;
TAUY:long_name = "meridional surface stress" ;
TAUY:units = "kg/m/s^2" ;
TAUY:_FillValue = 1.e+36f ;
TAUY:missing_value = 1.e+36f ;
TAUY:cell_method = "time: instantaneous" ;
float TBOT(time, lat, lon) ;
TBOT:long_name = "atmospheric air temperature" ;
TBOT:units = "K" ;
TBOT:_FillValue = 1.e+36f ;
TBOT:missing_value = 1.e+36f ;
TBOT:cell_method = "time: instantaneous" ;
float TG(time, lat, lon) ;
TG:long_name = "ground temperature" ;
TG:units = "K" ;
TG:_FillValue = 1.e+36f ;
TG:missing_value = 1.e+36f ;
TG:cell_method = "time: instantaneous" ;
float THBOT(time, lat, lon) ;
THBOT:long_name = "atmospheric air potential temperature" ;
THBOT:units = "K" ;
THBOT:_FillValue = 1.e+36f ;
THBOT:missing_value = 1.e+36f ;
THBOT:cell_method = "time: instantaneous" ;
float TLAI(time, lat, lon) ;
TLAI:long_name = "total projected leaf area index" ;
TLAI:units = "none" ;
TLAI:_FillValue = 1.e+36f ;
TLAI:missing_value = 1.e+36f ;
TLAI:cell_method = "time: instantaneous" ;
float TSA(time, lat, lon) ;
TSA:long_name = "2m air temperature" ;
TSA:units = "K" ;
TSA:_FillValue = 1.e+36f ;
TSA:missing_value = 1.e+36f ;
TSA:cell_method = "time: instantaneous" ;
float TSAI(time, lat, lon) ;
TSAI:long_name = "total projected stem area index" ;
TSAI:units = "none" ;
TSAI:_FillValue = 1.e+36f ;
TSAI:missing_value = 1.e+36f ;
TSAI:cell_method = "time: instantaneous" ;
float TSNOW(time, lat, lon) ;
TSNOW:long_name = "snow temperature" ;
TSNOW:units = "K" ;
TSNOW:_FillValue = 1.e+36f ;
TSNOW:missing_value = 1.e+36f ;
TSNOW:cell_method = "time: instantaneous" ;
float TSOI(time, levsoi, lat, lon) ;
TSOI:long_name = "soil temperature" ;
TSOI:units = "K" ;
TSOI:_FillValue = 1.e+36f ;
TSOI:missing_value = 1.e+36f ;
TSOI:cell_method = "time: instantaneous" ;
float TV(time, lat, lon) ;
TV:long_name = "vegetation temperature" ;
TV:units = "K" ;
TV:_FillValue = 1.e+36f ;
TV:missing_value = 1.e+36f ;
TV:cell_method = "time: instantaneous" ;
float WIND(time, lat, lon) ;
WIND:long_name = "atmospheric wind velocity magnitude" ;
WIND:units = "m/s" ;
WIND:_FillValue = 1.e+36f ;
WIND:missing_value = 1.e+36f ;
WIND:cell_method = "time: instantaneous" ;
float ZBOT(time, lat, lon) ;
ZBOT:long_name = "atmospheric reference height" ;
ZBOT:units = "m" ;
ZBOT:_FillValue = 1.e+36f ;
ZBOT:missing_value = 1.e+36f ;
ZBOT:cell_method = "time: instantaneous" ;
// global attributes:
:_NCProperties = "version=1|netcdflibversion=4.6.1|hdf5libversion=1.8.20" ;
:CDI = "Climate Data Interface version 1.9.5 (http://mpimet.mpg.de/cdi)" ;
:history = "Wed Nov 07 18:22:18 2018: cdo -delname,ERRH2O,ERRSEB,ERRSOI,ERRSOL,FSDSNDLN,FSDSVDLN,FSRNDLN,FSRVDLN,QCHARGE,QOVER,QRGWL,TREFMNAV,TREFMXAV,WT,WA,ZWT,TLAKE VR1_CLM_temp.nc VR1_CLM_temp2.nc\nWed Nov 07 18:13:06 2018: cdo -seltimestep,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32 clmoas.clm2.h0.2007-01-02-00900.nc VR1_CLM_temp.nc\ncreated on 09/14/16 13:03:42" ;
:source = "Community Land Model: CLM3" ;
:Conventions = "CF-1.6" ;
:conventions = "CF-1.0" ;
:logname = "hbn291" ;
:version = "$HeadURL" ;
:revision_id = "$Id: histFileMod.F90 4183 2007-04-30 20:20:27Z erik $" ;
:case_title = "clmoas" ;
:case_id = "clmoas" ;
:Surface_dataset = "surfdata_0605x0535.nc" ;
:Initial_conditions_dataset = "clminidat.nc" ;
:PFT_physiological_constants_dataset = "pft-physiology.c070207" ;
:RTM_input_datset = "rdirc.05.061026" ;
:CDO = "Climate Data Operators version 1.9.5 (http://mpimet.mpg.de/cdo)" ;
}