WRF Output VariablesΒΆ
The following is an edited list of output variables for the default namelist.input file. The list was composed using the following command:
> ncdump -h wrfout_d01_2016-03-23_00:00:00
netcdf wrfout_d01_2016-03-23_00\:00\:00 {
dimensions:
Time = UNLIMITED ; // (1 currently)
DateStrLen = 19 ;
west_east = 74 ;
south_north = 69 ;
bottom_top = 44 ;
bottom_top_stag = 45 ;
soil_layers_stag = 4 ;
west_east_stag = 75 ;
south_north_stag = 70 ;
seed_dim_stag = 2 ;
variables:
char Times(Time, DateStrLen) ;
float XLAT(Time, south_north, west_east) ;
XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ;
XLAT:units = "degree_north" ;
float XLONG(Time, south_north, west_east) ;
XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ;
XLONG:units = "degree_east" ;
float LU_INDEX(Time, south_north, west_east) ;
LU_INDEX:description = "LAND USE CATEGORY" ;
LU_INDEX:units = "" ;
float ZNU(Time, bottom_top) ;
ZNU:description = "eta values on half (mass) levels" ;
ZNU:units = "" ;
float ZNW(Time, bottom_top_stag) ;
ZNW:description = "eta values on full (w) levels" ;
ZNW:units = "" ;
float ZS(Time, soil_layers_stag) ;
ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ;
ZS:units = "m" ;
float DZS(Time, soil_layers_stag) ;
DZS:description = "THICKNESSES OF SOIL LAYERS" ;
DZS:units = "m" ;
float VAR_SSO(Time, south_north, west_east) ;
VAR_SSO:description = "variance of subgrid-scale orography" ;
VAR_SSO:units = "m2" ;
int BATHYMETRY_FLAG(Time) ;
BATHYMETRY_FLAG:description = "Flag for bathymetry in the global attributes for metgrid data" ;
BATHYMETRY_FLAG:units = "-" ;
float U(Time, bottom_top, south_north, west_east_stag) ;
U:description = "x-wind component" ;
U:units = "m s-1" ;
float V(Time, bottom_top, south_north_stag, west_east) ;
V:description = "y-wind component" ;
V:units = "m s-1" ;
float W(Time, bottom_top_stag, south_north, west_east) ;
W:description = "z-wind component" ;
W:units = "m s-1" ;
float PH(Time, bottom_top_stag, south_north, west_east) ;
PH:description = "perturbation geopotential" ;
PH:units = "m2 s-2" ;
float PHB(Time, bottom_top_stag, south_north, west_east) ;
PHB:description = "base-state geopotential" ;
PHB:units = "m2 s-2" ;
float T(Time, bottom_top, south_north, west_east) ;
T:description = "perturbation potential temperature theta-t0" ;
T:units = "K" ;
float THM(Time, bottom_top, south_north, west_east) ;
THM:description = "either 1) pert moist pot temp=(1+Rv/Rd Qv)*(theta)-T0, or 2) pert dry pot temp=t" ;
THM:units = "K" ;
float HFX_FORCE(Time) ;
HFX_FORCE:description = "SCM ideal surface sensible heat flux" ;
HFX_FORCE:units = "W m-2" ;
float LH_FORCE(Time) ;
LH_FORCE:description = "SCM ideal surface latent heat flux" ;
LH_FORCE:units = "W m-2" ;
float TSK_FORCE(Time) ;
TSK_FORCE:description = "SCM ideal surface skin temperature" ;
TSK_FORCE:units = "W m-2" ;
float HFX_FORCE_TEND(Time) ;
HFX_FORCE_TEND:description = "SCM ideal surface sensible heat flux tendency" ;
HFX_FORCE_TEND:units = "W m-2 s-1" ;
float LH_FORCE_TEND(Time) ;
LH_FORCE_TEND:description = "SCM ideal surface latent heat flux tendency" ;
LH_FORCE_TEND:units = "W m-2 s-1" ;
float TSK_FORCE_TEND(Time) ;
TSK_FORCE_TEND:description = "SCM ideal surface skin temperature tendency" ;
TSK_FORCE_TEND:units = "W m-2 s-1" ;
float MU(Time, south_north, west_east) ;
MU:description = "perturbation dry air mass in column" ;
MU:units = "Pa" ;
float MUB(Time, south_north, west_east) ;
MUB:description = "base state dry air mass in column" ;
MUB:units = "Pa" ;
float NEST_POS(Time, south_north, west_east) ;
NEST_POS:description = "-" ;
NEST_POS:units = "-" ;
float P(Time, bottom_top, south_north, west_east) ;
P:description = "perturbation pressure" ;
P:units = "Pa" ;
float PB(Time, bottom_top, south_north, west_east) ;
PB:description = "BASE STATE PRESSURE" ;
PB:units = "Pa" ;
float FNM(Time, bottom_top) ;
FNM:description = "upper weight for vertical stretching" ;
FNM:units = "" ;
float FNP(Time, bottom_top) ;
FNP:description = "lower weight for vertical stretching" ;
FNP:units = "" ;
float RDNW(Time, bottom_top) ;
RDNW:description = "inverse d(eta) values between full (w) levels" ;
RDNW:units = "" ;
float RDN(Time, bottom_top) ;
RDN:description = "inverse d(eta) values between half (mass) levels" ;
RDN:units = "" ;
float DNW(Time, bottom_top) ;
DNW:description = "d(eta) values between full (w) levels" ;
DNW:units = "" ;
float DN(Time, bottom_top) ;
DN:description = "d(eta) values between half (mass) levels" ;
DN:units = "" ;
float CFN(Time) ;
CFN:description = "extrapolation constant" ;
CFN:units = "" ;
float CFN1(Time) ;
CFN1:description = "extrapolation constant" ;
CFN1:units = "" ;
int THIS_IS_AN_IDEAL_RUN(Time) ;
THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ;
THIS_IS_AN_IDEAL_RUN:units = "-" ;
float P_HYD(Time, bottom_top, south_north, west_east) ;
P_HYD:description = "hydrostatic pressure" ;
P_HYD:units = "Pa" ;
float Q2(Time, south_north, west_east) ;
Q2:description = "QV at 2 M" ;
Q2:units = "kg kg-1" ;
float T2(Time, south_north, west_east) ;
T2:description = "TEMP at 2 M" ;
T2:units = "K" ;
float TH2(Time, south_north, west_east) ;
TH2:description = "POT TEMP at 2 M" ;
TH2:units = "K" ;
float PSFC(Time, south_north, west_east) ;
PSFC:description = "SFC PRESSURE" ;
PSFC:units = "Pa" ;
float U10(Time, south_north, west_east) ;
U10:description = "U at 10 M" ;
U10:units = "m s-1" ;
float V10(Time, south_north, west_east) ;
V10:description = "V at 10 M" ;
V10:units = "m s-1" ;
float RDX(Time) ;
RDX:description = "INVERSE X GRID LENGTH" ;
RDX:units = "m-1" ;
float RDY(Time) ;
RDY:description = "INVERSE Y GRID LENGTH" ;
RDY:units = "m-1" ;
float AREA2D(Time, south_north, west_east) ;
AREA2D:description = "Horizontal grid cell area, using dx, dy, and map factors" ;
AREA2D:units = "m2" ;
float DX2D(Time, south_north, west_east) ;
DX2D:description = "Horizontal grid distance: sqrt(area2d)" ;
DX2D:units = "m" ;
float RESM(Time) ;
RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ;
RESM:units = "" ;
float ZETATOP(Time) ;
ZETATOP:description = "ZETA AT MODEL TOP" ;
ZETATOP:units = "" ;
float CF1(Time) ;
CF1:description = "2nd order extrapolation constant" ;
CF1:units = "" ;
float CF2(Time) ;
CF2:description = "2nd order extrapolation constant" ;
CF2:units = "" ;
float CF3(Time) ;
CF3:description = "2nd order extrapolation constant" ;
CF3:units = "" ;
int ITIMESTEP(Time) ;
ITIMESTEP:description = "" ;
ITIMESTEP:units = "" ;
float XTIME(Time) ;
XTIME:description = "minutes since 2016-03-23 00:00:00" ;
XTIME:units = "minutes since 2016-03-23 00:00:00" ;
float QVAPOR(Time, bottom_top, south_north, west_east) ;
QVAPOR:description = "Water vapor mixing ratio" ;
QVAPOR:units = "kg kg-1" ;
float QCLOUD(Time, bottom_top, south_north, west_east) ;
QCLOUD:description = "Cloud water mixing ratio" ;
QCLOUD:units = "kg kg-1" ;
float QRAIN(Time, bottom_top, south_north, west_east) ;
QRAIN:description = "Rain water mixing ratio" ;
QRAIN:units = "kg kg-1" ;
float QICE(Time, bottom_top, south_north, west_east) ;
QICE:description = "Ice mixing ratio" ;
QICE:units = "kg kg-1" ;
float QSNOW(Time, bottom_top, south_north, west_east) ;
QSNOW:description = "Snow mixing ratio" ;
QSNOW:units = "kg kg-1" ;
float QGRAUP(Time, bottom_top, south_north, west_east) ;
QGRAUP:description = "Graupel mixing ratio" ;
QGRAUP:units = "kg kg-1" ;
float QNICE(Time, bottom_top, south_north, west_east) ;
QNICE:description = "Ice Number concentration" ;
QNICE:units = " kg-1" ;
float QNRAIN(Time, bottom_top, south_north, west_east) ;
QNRAIN:description = "Rain Number concentration" ;
QNRAIN:units = " kg(-1)" ;
float SHDMAX(Time, south_north, west_east) ;
SHDMAX:description = "ANNUAL MAX VEG FRACTION" ;
SHDMAX:units = "" ;
float SHDMIN(Time, south_north, west_east) ;
SHDMIN:description = "ANNUAL MIN VEG FRACTION" ;
SHDMIN:units = "" ;
float SNOALB(Time, south_north, west_east) ;
SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ;
SNOALB:units = "" ;
float TSLB(Time, soil_layers_stag, south_north, west_east) ;
TSLB:description = "SOIL TEMPERATURE" ;
TSLB:units = "K" ;
float SMOIS(Time, soil_layers_stag, south_north, west_east) ;
SMOIS:description = "SOIL MOISTURE" ;
SMOIS:units = "m3 m-3" ;
float SH2O(Time, soil_layers_stag, south_north, west_east) ;
SH2O:description = "SOIL LIQUID WATER" ;
SH2O:units = "m3 m-3" ;
float SMCREL(Time, soil_layers_stag, south_north, west_east) ;
SMCREL:description = "RELATIVE SOIL MOISTURE" ;
SMCREL:units = "" ;
float SEAICE(Time, south_north, west_east) ;
SEAICE:description = "SEA ICE FLAG" ;
SEAICE:units = "" ;
float XICEM(Time, south_north, west_east) ;
XICEM:description = "SEA ICE FLAG (PREVIOUS STEP)" ;
XICEM:units = "" ;
float SFROFF(Time, south_north, west_east) ;
SFROFF:description = "SURFACE RUNOFF" ;
SFROFF:units = "mm" ;
float UDROFF(Time, south_north, west_east) ;
UDROFF:description = "UNDERGROUND RUNOFF" ;
UDROFF:units = "mm" ;
int IVGTYP(Time, south_north, west_east) ;
IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ;
IVGTYP:units = "" ;
int ISLTYP(Time, south_north, west_east) ;
ISLTYP:description = "DOMINANT SOIL CATEGORY" ;
ISLTYP:units = "" ;
float VEGFRA(Time, south_north, west_east) ;
VEGFRA:description = "VEGETATION FRACTION" ;
VEGFRA:units = "" ;
float GRDFLX(Time, south_north, west_east) ;
GRDFLX:description = "GROUND HEAT FLUX" ;
GRDFLX:units = "W m-2" ;
float ACGRDFLX(Time, south_north, west_east) ;
ACGRDFLX:description = "ACCUMULATED GROUND HEAT FLUX" ;
ACGRDFLX:units = "J m-2" ;
float ACSNOM(Time, south_north, west_east) ;
ACSNOM:description = "ACCUMULATED MELTED SNOW" ;
ACSNOM:units = "kg m-2" ;
float SNOW(Time, south_north, west_east) ;
SNOW:description = "SNOW WATER EQUIVALENT" ;
SNOW:units = "kg m-2" ;
float SNOWH(Time, south_north, west_east) ;
SNOWH:description = "PHYSICAL SNOW DEPTH" ;
SNOWH:units = "m" ;
float CANWAT(Time, south_north, west_east) ;
CANWAT:description = "CANOPY WATER" ;
CANWAT:units = "kg m-2" ;
float SSTSK(Time, south_north, west_east) ;
SSTSK:description = "SKIN SEA SURFACE TEMPERATURE" ;
SSTSK:units = "K" ;
float WATER_DEPTH(Time, south_north, west_east) ;
WATER_DEPTH:description = "global water depth" ;
WATER_DEPTH:units = "m" ;
float COSZEN(Time, south_north, west_east) ;
COSZEN:description = "COS of SOLAR ZENITH ANGLE" ;
COSZEN:units = "dimensionless" ;
float LAI(Time, south_north, west_east) ;
LAI:description = "LEAF AREA INDEX" ;
LAI:units = "m-2/m-2" ;
float U10E(Time, south_north, west_east) ;
U10E:description = "Special U at 10 M from MYJSFC" ;
U10E:units = "m s-1" ;
float V10E(Time, south_north, west_east) ;
V10E:description = "Special V at 10 M from MYJSFC" ;
V10E:units = "m s-1" ;
float DTAUX3D(Time, bottom_top, south_north, west_east) ;
DTAUX3D:description = "LOCAL U GWDO STRESS" ;
DTAUX3D:units = "m s-1" ;
float DTAUY3D(Time, bottom_top, south_north, west_east) ;
DTAUY3D:description = "LOCAL V GWDO STRESS" ;
DTAUY3D:units = "m s-1" ;
float DUSFCG(Time, south_north, west_east) ;
DUSFCG:description = "COLUMN-INTEGRATED U GWDO STRESS" ;
DUSFCG:units = "Pa m s-1" ;
float DVSFCG(Time, south_north, west_east) ;
DVSFCG:description = "COLUMN-INTEGRATED V GWDO STRESS" ;
DVSFCG:units = "Pa m s-1" ;
float VAR(Time, south_north, west_east) ;
VAR:description = "STANDARD DEVIATION OF SUBGRID-SCALE OROGRAPHY" ;
VAR:units = "m" ;
float CON(Time, south_north, west_east) ;
CON:description = "OROGRAPHIC CONVEXITY" ;
CON:units = "" ;
float OA1(Time, south_north, west_east) ;
OA1:description = "ASYMMETRY OF SUBGRID-SCALE OROGRAPHY FOR WESTERLY FLOW" ;
OA1:units = "" ;
float OA2(Time, south_north, west_east) ;
OA2:description = "ASYMMETRY OF SUBGRID-SCALE OROGRAPHY FOR SOUTHERLY FLOW" ;
OA2:units = "" ;
float OA3(Time, south_north, west_east) ;
OA3:description = "ASYMMETRY OF SUBGRID-SCALE OROGRAPHY FOR SOUTH-WESTERLY FLOW" ;
OA3:units = "" ;
float OA4(Time, south_north, west_east) ;
OA4:description = "ASYMMETRY OF SUBGRID-SCALE OROGRAPHY FOR NORTH-WESTERLY FLOW" ;
OA4:units = "" ;
float OL1(Time, south_north, west_east) ;
OL1:description = "NON-DIMENSIONAL EFFECTIVE OROGRAPHIC LENGTH FOR WESTERLY FLOW" ;
OL1:units = "" ;
float OL2(Time, south_north, west_east) ;
OL2:description = "NON-DIMENSIONAL EFFECTIVE OROGRAPHIC LENGTH FOR SOUTHERLY FLOW" ;
OL2:units = "" ;
float OL3(Time, south_north, west_east) ;
OL3:description = "NON-DIMENSIONAL EFFECTIVE OROGRAPHIC LENGTH FOR SOUTH-WESTERLY FLOW" ;
OL3:units = "" ;
float OL4(Time, south_north, west_east) ;
OL4:description = "NON-DIMENSIONAL EFFECTIVE OROGRAPHIC LENGTH FOR NORTH-WESTERLY FLOW" ;
OL4:units = "" ;
float TKE_PBL(Time, bottom_top_stag, south_north, west_east) ;
TKE_PBL:description = "TKE from PBL" ;
TKE_PBL:units = "m2 s-2" ;
float EL_PBL(Time, bottom_top_stag, south_north, west_east) ;
EL_PBL:description = "Length scale from PBL" ;
EL_PBL:units = "m" ;
float MAPFAC_M(Time, south_north, west_east) ;
MAPFAC_M:description = "Map scale factor on mass grid" ;
MAPFAC_M:units = "" ;
float MAPFAC_U(Time, south_north, west_east_stag) ;
MAPFAC_U:description = "Map scale factor on u-grid" ;
MAPFAC_U:units = "" ;
float MAPFAC_V(Time, south_north_stag, west_east) ;
MAPFAC_V:description = "Map scale factor on v-grid" ;
MAPFAC_V:units = "" ;
float MAPFAC_MX(Time, south_north, west_east) ;
MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ;
MAPFAC_MX:units = "" ;
float MAPFAC_MY(Time, south_north, west_east) ;
MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ;
MAPFAC_MY:units = "" ;
float MAPFAC_UX(Time, south_north, west_east_stag) ;
MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ;
MAPFAC_UX:units = "" ;
float MAPFAC_UY(Time, south_north, west_east_stag) ;
MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ;
MAPFAC_UY:units = "" ;
float MAPFAC_VX(Time, south_north_stag, west_east) ;
MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ;
MAPFAC_VX:units = "" ;
float MF_VX_INV(Time, south_north_stag, west_east) ;
MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ;
MF_VX_INV:units = "" ;
float MAPFAC_VY(Time, south_north_stag, west_east) ;
MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ;
MAPFAC_VY:units = "" ;
float F(Time, south_north, west_east) ;
F:description = "Coriolis sine latitude term" ;
F:units = "s-1" ;
float E(Time, south_north, west_east) ;
E:description = "Coriolis cosine latitude term" ;
E:units = "s-1" ;
float SINALPHA(Time, south_north, west_east) ;
SINALPHA:description = "Local sine of map rotation" ;
SINALPHA:units = "" ;
float COSALPHA(Time, south_north, west_east) ;
COSALPHA:description = "Local cosine of map rotation" ;
COSALPHA:units = "" ;
float HGT(Time, south_north, west_east) ;
HGT:description = "Terrain Height" ;
HGT:units = "m" ;
float TSK(Time, south_north, west_east) ;
TSK:description = "SURFACE SKIN TEMPERATURE" ;
TSK:units = "K" ;
float P_TOP(Time) ;
P_TOP:description = "PRESSURE TOP OF THE MODEL" ;
P_TOP:units = "Pa" ;
int GOT_VAR_SSO(Time) ;
GOT_VAR_SSO:description = "whether VAR_SSO was included in WPS output (beginning V3.4)" ;
GOT_VAR_SSO:units = "" ;
float T00(Time) ;
T00:description = "BASE STATE TEMPERATURE" ;
T00:units = "K" ;
float P00(Time) ;
P00:description = "BASE STATE PRESSURE" ;
P00:units = "Pa" ;
float TLP(Time) ;
TLP:description = "BASE STATE LAPSE RATE" ;
TLP:units = "" ;
float TISO(Time) ;
TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ;
TISO:units = "K" ;
float TLP_STRAT(Time) ;
TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ;
TLP_STRAT:units = "K" ;
float P_STRAT(Time) ;
P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ;
P_STRAT:units = "Pa" ;
float MAX_MSFTX(Time) ;
MAX_MSFTX:description = "Max map factor in domain" ;
MAX_MSFTX:units = "" ;
float MAX_MSFTY(Time) ;
MAX_MSFTY:description = "Max map factor in domain" ;
MAX_MSFTY:units = "" ;
float RAINC(Time, south_north, west_east) ;
RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ;
RAINC:units = "mm" ;
float RAINSH(Time, south_north, west_east) ;
RAINSH:description = "ACCUMULATED SHALLOW CUMULUS PRECIPITATION" ;
RAINSH:units = "mm" ;
float RAINNC(Time, south_north, west_east) ;
RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ;
RAINNC:units = "mm" ;
float SNOWNC(Time, south_north, west_east) ;
SNOWNC:description = "ACCUMULATED TOTAL GRID SCALE SNOW AND ICE" ;
SNOWNC:units = "mm" ;
float GRAUPELNC(Time, south_north, west_east) ;
GRAUPELNC:description = "ACCUMULATED TOTAL GRID SCALE GRAUPEL" ;
GRAUPELNC:units = "mm" ;
float HAILNC(Time, south_north, west_east) ;
HAILNC:description = "ACCUMULATED TOTAL GRID SCALE HAIL" ;
HAILNC:units = "mm" ;
float CLDFRA(Time, bottom_top, south_north, west_east) ;
CLDFRA:description = "CLOUD FRACTION" ;
CLDFRA:units = "" ;
float SWDOWN(Time, south_north, west_east) ;
SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ;
SWDOWN:units = "W m-2" ;
float GLW(Time, south_north, west_east) ;
GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ;
GLW:units = "W m-2" ;
float SWNORM(Time, south_north, west_east) ;
SWNORM:description = "NORMAL SHORT WAVE FLUX AT GROUND SURFACE (SLOPE-DEPENDENT)" ;
SWNORM:units = "W m-2" ;
float ACSWUPT(Time, south_north, west_east) ;
ACSWUPT:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT TOP" ;
ACSWUPT:units = "J m-2" ;
float ACSWUPTC(Time, south_north, west_east) ;
ACSWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ;
ACSWUPTC:units = "J m-2" ;
float ACSWDNT(Time, south_north, west_east) ;
ACSWDNT:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT TOP" ;
ACSWDNT:units = "J m-2" ;
float ACSWDNTC(Time, south_north, west_east) ;
ACSWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ;
ACSWDNTC:units = "J m-2" ;
float ACSWUPB(Time, south_north, west_east) ;
ACSWUPB:description = "ACCUMULATED UPWELLING SHORTWAVE FLUX AT BOTTOM" ;
ACSWUPB:units = "J m-2" ;
float ACSWUPBC(Time, south_north, west_east) ;
ACSWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ;
ACSWUPBC:units = "J m-2" ;
float ACSWDNB(Time, south_north, west_east) ;
ACSWDNB:description = "ACCUMULATED DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ;
ACSWDNB:units = "J m-2" ;
float ACSWDNBC(Time, south_north, west_east) ;
ACSWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ;
ACSWDNBC:units = "J m-2" ;
float ACLWUPT(Time, south_north, west_east) ;
ACLWUPT:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT TOP" ;
ACLWUPT:units = "J m-2" ;
float ACLWUPTC(Time, south_north, west_east) ;
ACLWUPTC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ;
ACLWUPTC:units = "J m-2" ;
float ACLWDNT(Time, south_north, west_east) ;
ACLWDNT:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT TOP" ;
ACLWDNT:units = "J m-2" ;
float ACLWDNTC(Time, south_north, west_east) ;
ACLWDNTC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ;
ACLWDNTC:units = "J m-2" ;
float ACLWUPB(Time, south_north, west_east) ;
ACLWUPB:description = "ACCUMULATED UPWELLING LONGWAVE FLUX AT BOTTOM" ;
ACLWUPB:units = "J m-2" ;
float ACLWUPBC(Time, south_north, west_east) ;
ACLWUPBC:description = "ACCUMULATED UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ;
ACLWUPBC:units = "J m-2" ;
float ACLWDNB(Time, south_north, west_east) ;
ACLWDNB:description = "ACCUMULATED DOWNWELLING LONGWAVE FLUX AT BOTTOM" ;
ACLWDNB:units = "J m-2" ;
float ACLWDNBC(Time, south_north, west_east) ;
ACLWDNBC:description = "ACCUMULATED DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ;
ACLWDNBC:units = "J m-2" ;
float SWUPT(Time, south_north, west_east) ;
SWUPT:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT TOP" ;
SWUPT:units = "W m-2" ;
float SWUPTC(Time, south_north, west_east) ;
SWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ;
SWUPTC:units = "W m-2" ;
float SWDNT(Time, south_north, west_east) ;
SWDNT:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT TOP" ;
SWDNT:units = "W m-2" ;
float SWDNTC(Time, south_north, west_east) ;
SWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT TOP" ;
SWDNTC:units = "W m-2" ;
float SWUPB(Time, south_north, west_east) ;
SWUPB:description = "INSTANTANEOUS UPWELLING SHORTWAVE FLUX AT BOTTOM" ;
SWUPB:units = "W m-2" ;
float SWUPBC(Time, south_north, west_east) ;
SWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ;
SWUPBC:units = "W m-2" ;
float SWDNB(Time, south_north, west_east) ;
SWDNB:description = "INSTANTANEOUS DOWNWELLING SHORTWAVE FLUX AT BOTTOM" ;
SWDNB:units = "W m-2" ;
float SWDNBC(Time, south_north, west_east) ;
SWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY SHORTWAVE FLUX AT BOTTOM" ;
SWDNBC:units = "W m-2" ;
float LWUPT(Time, south_north, west_east) ;
LWUPT:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT TOP" ;
LWUPT:units = "W m-2" ;
float LWUPTC(Time, south_north, west_east) ;
LWUPTC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ;
LWUPTC:units = "W m-2" ;
float LWDNT(Time, south_north, west_east) ;
LWDNT:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT TOP" ;
LWDNT:units = "W m-2" ;
float LWDNTC(Time, south_north, west_east) ;
LWDNTC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT TOP" ;
LWDNTC:units = "W m-2" ;
float LWUPB(Time, south_north, west_east) ;
LWUPB:description = "INSTANTANEOUS UPWELLING LONGWAVE FLUX AT BOTTOM" ;
LWUPB:units = "W m-2" ;
float LWUPBC(Time, south_north, west_east) ;
LWUPBC:description = "INSTANTANEOUS UPWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ;
LWUPBC:units = "W m-2" ;
float LWDNB(Time, south_north, west_east) ;
LWDNB:description = "INSTANTANEOUS DOWNWELLING LONGWAVE FLUX AT BOTTOM" ;
LWDNB:units = "W m-2" ;
float LWDNBC(Time, south_north, west_east) ;
LWDNBC:description = "INSTANTANEOUS DOWNWELLING CLEAR SKY LONGWAVE FLUX AT BOTTOM" ;
LWDNBC:units = "W m-2" ;
float OLR(Time, south_north, west_east) ;
OLR:description = "TOA OUTGOING LONG WAVE" ;
OLR:units = "W m-2" ;
float XLAT_U(Time, south_north, west_east_stag) ;
XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ;
XLAT_U:units = "degree_north" ;
float XLONG_U(Time, south_north, west_east_stag) ;
XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ;
XLONG_U:units = "degree_east" ;
float XLAT_V(Time, south_north_stag, west_east) ;
XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ;
XLAT_V:units = "degree_north" ;
float XLONG_V(Time, south_north_stag, west_east) ;
XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ;
XLONG_V:units = "degree_east" ;
float ALBEDO(Time, south_north, west_east) ;
ALBEDO:description = "ALBEDO" ;
ALBEDO:units = "-" ;
float CLAT(Time, south_north, west_east) ;
CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ;
CLAT:units = "degree_north" ;
float ALBBCK(Time, south_north, west_east) ;
ALBBCK:description = "BACKGROUND ALBEDO" ;
ALBBCK:units = "" ;
float EMISS(Time, south_north, west_east) ;
EMISS:description = "SURFACE EMISSIVITY" ;
EMISS:units = "" ;
float NOAHRES(Time, south_north, west_east) ;
NOAHRES:description = "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" ;
NOAHRES:units = "W m{-2}" ;
float TMN(Time, south_north, west_east) ;
TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ;
TMN:units = "K" ;
float XLAND(Time, south_north, west_east) ;
XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ;
XLAND:units = "" ;
float UST(Time, south_north, west_east) ;
UST:description = "U* IN SIMILARITY THEORY" ;
UST:units = "m s-1" ;
float PBLH(Time, south_north, west_east) ;
PBLH:description = "PBL HEIGHT" ;
PBLH:units = "m" ;
float HFX(Time, south_north, west_east) ;
HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ;
HFX:units = "W m-2" ;
float QFX(Time, south_north, west_east) ;
QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ;
QFX:units = "kg m-2 s-1" ;
float LH(Time, south_north, west_east) ;
LH:description = "LATENT HEAT FLUX AT THE SURFACE" ;
LH:units = "W m-2" ;
float ACHFX(Time, south_north, west_east) ;
ACHFX:description = "ACCUMULATED UPWARD HEAT FLUX AT THE SURFACE" ;
ACHFX:units = "J m-2" ;
float ACLHF(Time, south_north, west_east) ;
ACLHF:description = "ACCUMULATED UPWARD LATENT HEAT FLUX AT THE SURFACE" ;
ACLHF:units = "J m-2" ;
float SNOWC(Time, south_north, west_east) ;
SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ;
SNOWC:units = "" ;
float SR(Time, south_north, west_east) ;
SR:description = "fraction of frozen precipitation" ;
SR:units = "-" ;
int SAVE_TOPO_FROM_REAL(Time) ;
SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ;
SAVE_TOPO_FROM_REAL:units = "flag" ;
int ISEEDARR_SPPT(Time, seed_dim_stag) ;
ISEEDARR_SPPT:description = "Array to hold seed for restart, SPPT" ;
ISEEDARR_SPPT:units = "" ;
int ISEEDARR_SKEBS(Time, seed_dim_stag) ;
ISEEDARR_SKEBS:description = "Array to hold seed for restart, SKEBS" ;
ISEEDARR_SKEBS:units = "" ;
int ISEEDARR_RAND_PERTURB(Time, seed_dim_stag) ;
ISEEDARR_RAND_PERTURB:description = "Array to hold seed for restart, RAND_PERT" ;
ISEEDARR_RAND_PERTURB:units = "" ;
int ISEEDARRAY_SPP_CONV(Time, seed_dim_stag) ;
ISEEDARRAY_SPP_CONV:description = "Array to hold seed for restart, RAND_PERT2" ;
ISEEDARRAY_SPP_CONV:units = "" ;
int ISEEDARRAY_SPP_PBL(Time, seed_dim_stag) ;
ISEEDARRAY_SPP_PBL:description = "Array to hold seed for restart, RAND_PERT3" ;
ISEEDARRAY_SPP_PBL:units = "" ;
int ISEEDARRAY_SPP_LSM(Time, seed_dim_stag) ;
ISEEDARRAY_SPP_LSM:description = "Array to hold seed for restart, RAND_PERT4" ;
ISEEDARRAY_SPP_LSM:units = "" ;
float C1H(Time, bottom_top) ;
C1H:description = "half levels, c1h = d bf / d eta, using znw" ;
C1H:units = "Dimensionless" ;
float C2H(Time, bottom_top) ;
C2H:description = "half levels, c2h = (1-c1h)*(p0-pt)" ;
C2H:units = "Pa" ;
float C1F(Time, bottom_top_stag) ;
C1F:description = "full levels, c1f = d bf / d eta, using znu" ;
C1F:units = "Dimensionless" ;
float C2F(Time, bottom_top_stag) ;
C2F:description = "full levels, c2f = (1-c1f)*(p0-pt)" ;
C2F:units = "Pa" ;
float C3H(Time, bottom_top) ;
C3H:description = "half levels, c3h = bh" ;
C3H:units = "Dimensionless" ;
float C4H(Time, bottom_top) ;
C4H:description = "half levels, c4h = (eta-bh)*(p0-pt), using znu" ;
C4H:units = "Pa" ;
float C3F(Time, bottom_top_stag) ;
C3F:description = "full levels, c3f = bf" ;
C3F:units = "Dimensionless" ;
float C4F(Time, bottom_top_stag) ;
C4F:description = "full levels, c4f = (eta-bf)*(p0-pt), using znw" ;
C4F:units = "Pa" ;
float PCB(Time, south_north, west_east) ;
PCB:description = "base state dry air mass in column" ;
PCB:units = "Pa" ;
float PC(Time, south_north, west_east) ;
PC:description = "perturbation dry air mass in column" ;
PC:units = "Pa" ;
float LANDMASK(Time, south_north, west_east) ;
LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ;
LANDMASK:units = "" ;
float LAKEMASK(Time, south_north, west_east) ;
LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ;
LAKEMASK:units = "" ;
float SST(Time, south_north, west_east) ;
SST:description = "SEA SURFACE TEMPERATURE" ;
SST:units = "K" ;
float SST_INPUT(Time, south_north, west_east) ;
SST_INPUT:description = "SEA SURFACE TEMPERATURE FROM WRFLOWINPUT FILE" ;
SST_INPUT:units = "K" ;
// global attributes:
:TITLE = " OUTPUT FROM WRF V4.4.1 MODEL" ;
:START_DATE = "2016-03-23_00:00:00" ;
:SIMULATION_START_DATE = "2016-03-23_00:00:00" ;
:WEST-EAST_GRID_DIMENSION = 75 ;
:SOUTH-NORTH_GRID_DIMENSION = 70 ;
:BOTTOM-TOP_GRID_DIMENSION = 45 ;
:DX = 30000.f ;
:DY = 30000.f ;
:AERCU_OPT = 0 ;
:AERCU_FCT = 1.f ;
:IDEAL_CASE = 0 ;
:DIFF_6TH_SLOPEOPT = 0 ;
:AUTO_LEVELS_OPT = 2 ;
:DIFF_6TH_THRESH = 0.1f ;
:DZBOT = 50.f ;
:DZSTRETCH_S = 1.3f ;
:DZSTRETCH_U = 1.1f ;
:SKEBS_ON = 0 ;
:USE_Q_DIABATIC = 0 ;
:GRIDTYPE = "C" ;
:DIFF_OPT = 1 ;
:KM_OPT = 4 ;
:DAMP_OPT = 0 ;
:DAMPCOEF = 0.2f ;
:KHDIF = 0.f ;
:KVDIF = 0.f ;
:MP_PHYSICS = 8 ;
:RA_LW_PHYSICS = 4 ;
:RA_SW_PHYSICS = 4 ;
:SF_SFCLAY_PHYSICS = 2 ;
:SF_SURFACE_PHYSICS = 2 ;
:BL_PBL_PHYSICS = 2 ;
:CU_PHYSICS = 6 ;
:SF_LAKE_PHYSICS = 0 ;
:SURFACE_INPUT_SOURCE = 1 ;
:SST_UPDATE = 0 ;
:GHG_INPUT = 1 ;
:GRID_FDDA = 0 ;
:GFDDA_INTERVAL_M = 0 ;
:GFDDA_END_H = 0 ;
:GRID_SFDDA = 0 ;
:SGFDDA_INTERVAL_M = 0 ;
:SGFDDA_END_H = 0 ;
:HYPSOMETRIC_OPT = 2 ;
:USE_THETA_M = 1 ;
:GWD_OPT = 1 ;
:SF_URBAN_PHYSICS = 0 ;
:SF_SURFACE_MOSAIC = 0 ;
:SF_OCEAN_PHYSICS = 0 ;
:SHCU_PHYSICS = 0 ;
:MFSHCONV = 0 ;
:FEEDBACK = 1 ;
:SMOOTH_OPTION = 0 ;
:SWRAD_SCAT = 1.f ;
:W_DAMPING = 0 ;
:DT = 180.f ;
:RADT = 30.f ;
:BLDT = 0.f ;
:CUDT = 5.f ;
:AER_OPT = 0 ;
:SWINT_OPT = 0 ;
:AER_TYPE = 1 ;
:AER_AOD550_OPT = 1 ;
:AER_ANGEXP_OPT = 1 ;
:AER_SSA_OPT = 1 ;
:AER_ASY_OPT = 1 ;
:AER_AOD550_VAL = 0.12f ;
:AER_ANGEXP_VAL = 1.3f ;
:AER_SSA_VAL = 0.85f ;
:AER_ASY_VAL = 0.9f ;
:MOIST_ADV_OPT = 1 ;
:SCALAR_ADV_OPT = 1 ;
:TKE_ADV_OPT = 1 ;
:DIFF_6TH_OPT = 0 ;
:DIFF_6TH_FACTOR = 0.12f ;
:OBS_NUDGE_OPT = 0 ;
:BUCKET_MM = -1.f ;
:BUCKET_J = -1.f ;
:PREC_ACC_DT = 0.f ;
:ISFTCFLX = 0 ;
:ISHALLOW = 0 ;
:ISFFLX = 1 ;
:ICLOUD = 1 ;
:ICLOUD_CU = 0 ;
:TRACER_PBLMIX = 1 ;
:SCALAR_PBLMIX = 0 ;
:YSU_TOPDOWN_PBLMIX = 1 ;
:GRAV_SETTLING = 0 ;
:CLDOVRLP = 2 ;
:IDCOR = 0 ;
:DFI_OPT = 0 ;
:NTASKS_X = 6 ;
:NTASKS_Y = 6 ;
:NTASKS_TOTAL = 36 ;
:SIMULATION_INITIALIZATION_TYPE = "REAL-DATA CASE" ;
:WEST-EAST_PATCH_START_UNSTAG = 1 ;
:WEST-EAST_PATCH_END_UNSTAG = 74 ;
:WEST-EAST_PATCH_START_STAG = 1 ;
:WEST-EAST_PATCH_END_STAG = 75 ;
:SOUTH-NORTH_PATCH_START_UNSTAG = 1 ;
:SOUTH-NORTH_PATCH_END_UNSTAG = 69 ;
:SOUTH-NORTH_PATCH_START_STAG = 1 ;
:SOUTH-NORTH_PATCH_END_STAG = 70 ;
:BOTTOM-TOP_PATCH_START_UNSTAG = 1 ;
:BOTTOM-TOP_PATCH_END_UNSTAG = 44 ;
:BOTTOM-TOP_PATCH_START_STAG = 1 ;
:BOTTOM-TOP_PATCH_END_STAG = 45 ;
:GRID_ID = 1 ;
:PARENT_ID = 0 ;
:I_PARENT_START = 1 ;
:J_PARENT_START = 1 ;
:PARENT_GRID_RATIO = 1 ;
:CEN_LAT = 39.f ;
:CEN_LON = -105.f ;
:TRUELAT1 = 30.f ;
:TRUELAT2 = 60.f ;
:MOAD_CEN_LAT = 39.f ;
:STAND_LON = -105.f ;
:POLE_LAT = 90.f ;
:POLE_LON = 0.f ;
:GMT = 0.f ;
:JULYR = 2016 ;
:JULDAY = 83 ;
:MAP_PROJ = 1 ;
:MAP_PROJ_CHAR = "Lambert Conformal" ;
:MMINLU = "MODIFIED_IGBP_MODIS_NOAH" ;
:NUM_LAND_CAT = 21 ;
:ISWATER = 17 ;
:ISLAKE = 21 ;
:ISICE = 15 ;
:ISURBAN = 13 ;
:ISOILWATER = 14 ;
:HYBRID_OPT = 2 ;
:ETAC = 0.2f ;