netcdf wrfout_d01_0001-01-01_00:00:00 { dimensions: Time = UNLIMITED ; // (13 currently) DateStrLen = 19 ; west_east = 201 ; south_north = 2 ; west_east_stag = 202 ; bottom_top = 80 ; south_north_stag = 3 ; bottom_top_stag = 81 ; ext_scalar = 1 ; emissions_zdim_stag = 8 ; soil_layers_stag = 5 ; variables: char Times(Time, DateStrLen) ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; float NEST_POS(Time, south_north, west_east) ; NEST_POS:FieldType = 104 ; NEST_POS:MemoryOrder = "XY " ; NEST_POS:description = "-" ; NEST_POS:units = "-" ; NEST_POS:stagger = "" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; float ALT(Time, bottom_top, south_north, west_east) ; ALT:FieldType = 104 ; ALT:MemoryOrder = "XYZ" ; ALT:description = "inverse density" ; ALT:units = "m3 kg-1" ; ALT:stagger = "" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse dn values on full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "dn values on half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "dn values on full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "dn values on half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float CFN(Time, ext_scalar) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time, ext_scalar) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "" ; CFN1:units = "" ; CFN1:stagger = "" ; float EPSTS(Time, ext_scalar) ; EPSTS:FieldType = 104 ; EPSTS:MemoryOrder = "0 " ; EPSTS:description = "" ; EPSTS:units = "" ; EPSTS:stagger = "" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; float RDX(Time, ext_scalar) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time, ext_scalar) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time, ext_scalar) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; float ZETATOP(Time, ext_scalar) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float CF1(Time, ext_scalar) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time, ext_scalar) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time, ext_scalar) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; int ITIMESTEP(Time, ext_scalar) ; ITIMESTEP:FieldType = 106 ; ITIMESTEP:MemoryOrder = "0 " ; ITIMESTEP:description = "" ; ITIMESTEP:units = "" ; ITIMESTEP:stagger = "" ; float E_ISO(Time, emissions_zdim_stag, south_north, west_east) ; E_ISO:FieldType = 104 ; E_ISO:MemoryOrder = "XYZ" ; E_ISO:description = "Isoprene EMISSIONS (Anth. for RADM/RACM, Anth+Bio for CBMZ)" ; E_ISO:units = "ppm m/min" ; E_ISO:stagger = "Z" ; float E_SO2(Time, emissions_zdim_stag, south_north, west_east) ; E_SO2:FieldType = 104 ; E_SO2:MemoryOrder = "XYZ" ; E_SO2:description = "EMISSIONS" ; E_SO2:units = "ppm m/min" ; E_SO2:stagger = "Z" ; float E_NO(Time, emissions_zdim_stag, south_north, west_east) ; E_NO:FieldType = 104 ; E_NO:MemoryOrder = "XYZ" ; E_NO:description = "EMISSIONS" ; E_NO:units = "ppm m/min" ; E_NO:stagger = "Z" ; float E_CO(Time, emissions_zdim_stag, south_north, west_east) ; E_CO:FieldType = 104 ; E_CO:MemoryOrder = "XYZ" ; E_CO:description = "EMISSIONS" ; E_CO:units = "ppm m/min" ; E_CO:stagger = "Z" ; float E_ETH(Time, emissions_zdim_stag, south_north, west_east) ; E_ETH:FieldType = 104 ; E_ETH:MemoryOrder = "XYZ" ; E_ETH:description = "EMISSIONS" ; E_ETH:units = "ppm m/min" ; E_ETH:stagger = "Z" ; float E_HC3(Time, emissions_zdim_stag, south_north, west_east) ; E_HC3:FieldType = 104 ; E_HC3:MemoryOrder = "XYZ" ; E_HC3:description = "EMISSIONS" ; E_HC3:units = "ppm m/min" ; E_HC3:stagger = "Z" ; float E_HC5(Time, emissions_zdim_stag, south_north, west_east) ; E_HC5:FieldType = 104 ; E_HC5:MemoryOrder = "XYZ" ; E_HC5:description = "EMISSIONS" ; E_HC5:units = "ppm m/min" ; E_HC5:stagger = "Z" ; float E_HC8(Time, emissions_zdim_stag, south_north, west_east) ; E_HC8:FieldType = 104 ; E_HC8:MemoryOrder = "XYZ" ; E_HC8:description = "EMISSIONS" ; E_HC8:units = "ppm m/min" ; E_HC8:stagger = "Z" ; float E_XYL(Time, emissions_zdim_stag, south_north, west_east) ; E_XYL:FieldType = 104 ; E_XYL:MemoryOrder = "XYZ" ; E_XYL:description = "EMISSIONS" ; E_XYL:units = "ppm m/min" ; E_XYL:stagger = "Z" ; float E_OL2(Time, emissions_zdim_stag, south_north, west_east) ; E_OL2:FieldType = 104 ; E_OL2:MemoryOrder = "XYZ" ; E_OL2:description = "EMISSIONS" ; E_OL2:units = "ppm m/min" ; E_OL2:stagger = "Z" ; float E_OLT(Time, emissions_zdim_stag, south_north, west_east) ; E_OLT:FieldType = 104 ; E_OLT:MemoryOrder = "XYZ" ; E_OLT:description = "EMISSIONS" ; E_OLT:units = "ppm m/min" ; E_OLT:stagger = "Z" ; float E_OLI(Time, emissions_zdim_stag, south_north, west_east) ; E_OLI:FieldType = 104 ; E_OLI:MemoryOrder = "XYZ" ; E_OLI:description = "EMISSIONS" ; E_OLI:units = "ppm m/min" ; E_OLI:stagger = "Z" ; float E_TOL(Time, emissions_zdim_stag, south_north, west_east) ; E_TOL:FieldType = 104 ; E_TOL:MemoryOrder = "XYZ" ; E_TOL:description = "EMISSIONS" ; E_TOL:units = "ppm m/min" ; E_TOL:stagger = "Z" ; float E_CSL(Time, emissions_zdim_stag, south_north, west_east) ; E_CSL:FieldType = 104 ; E_CSL:MemoryOrder = "XYZ" ; E_CSL:description = "EMISSIONS" ; E_CSL:units = "ppm m/min" ; E_CSL:stagger = "Z" ; float E_HCHO(Time, emissions_zdim_stag, south_north, west_east) ; E_HCHO:FieldType = 104 ; E_HCHO:MemoryOrder = "XYZ" ; E_HCHO:description = "EMISSIONS" ; E_HCHO:units = "ppm m/min" ; E_HCHO:stagger = "Z" ; float E_ALD(Time, emissions_zdim_stag, south_north, west_east) ; E_ALD:FieldType = 104 ; E_ALD:MemoryOrder = "XYZ" ; E_ALD:description = "EMISSIONS" ; E_ALD:units = "ppm m/min" ; E_ALD:stagger = "Z" ; float E_KET(Time, emissions_zdim_stag, south_north, west_east) ; E_KET:FieldType = 104 ; E_KET:MemoryOrder = "XYZ" ; E_KET:description = "EMISSIONS" ; E_KET:units = "ppm m/min" ; E_KET:stagger = "Z" ; float E_ORA2(Time, emissions_zdim_stag, south_north, west_east) ; E_ORA2:FieldType = 104 ; E_ORA2:MemoryOrder = "XYZ" ; E_ORA2:description = "EMISSIONS" ; E_ORA2:units = "ppm m/min" ; E_ORA2:stagger = "Z" ; float E_NH3(Time, emissions_zdim_stag, south_north, west_east) ; E_NH3:FieldType = 104 ; E_NH3:MemoryOrder = "XYZ" ; E_NH3:description = "EMISSIONS" ; E_NH3:units = "ppm m/min" ; E_NH3:stagger = "Z" ; float E_PM25(Time, emissions_zdim_stag, south_north, west_east) ; E_PM25:FieldType = 104 ; E_PM25:MemoryOrder = "XYZ" ; E_PM25:description = "EMISSIONS" ; E_PM25:units = "ppm m/min" ; E_PM25:stagger = "Z" ; float E_PM10(Time, emissions_zdim_stag, south_north, west_east) ; E_PM10:FieldType = 104 ; E_PM10:MemoryOrder = "XYZ" ; E_PM10:description = "EMISSIONS" ; E_PM10:units = "ppm m/min" ; E_PM10:stagger = "Z" ; float E_PM25I(Time, emissions_zdim_stag, south_north, west_east) ; E_PM25I:FieldType = 104 ; E_PM25I:MemoryOrder = "XYZ" ; E_PM25I:description = "EMISSION RATE OF UNIDEN. PM2.5 MASS" ; E_PM25I:units = "ug m**-3 s**-1" ; E_PM25I:stagger = "Z" ; float E_PM25J(Time, emissions_zdim_stag, south_north, west_east) ; E_PM25J:FieldType = 104 ; E_PM25J:MemoryOrder = "XYZ" ; E_PM25J:description = "EMISSION RATE OF J-MODE UNIDEN. PM2.5 MASS" ; E_PM25J:units = "ug m**-3 s**-1" ; E_PM25J:stagger = "Z" ; float E_ECI(Time, emissions_zdim_stag, south_north, west_east) ; E_ECI:FieldType = 104 ; E_ECI:MemoryOrder = "XYZ" ; E_ECI:description = "EMISSION RATE OF I-MODE EC" ; E_ECI:units = "ug m**-3 s**-1" ; E_ECI:stagger = "Z" ; float E_ECJ(Time, emissions_zdim_stag, south_north, west_east) ; E_ECJ:FieldType = 104 ; E_ECJ:MemoryOrder = "XYZ" ; E_ECJ:description = "EMISSION RATE OF J-MODE EC" ; E_ECJ:units = "ug m**-3 s**-1" ; E_ECJ:stagger = "Z" ; float E_ORGI(Time, emissions_zdim_stag, south_north, west_east) ; E_ORGI:FieldType = 104 ; E_ORGI:MemoryOrder = "XYZ" ; E_ORGI:description = "EMISSION RATE OF I- MODE ORG. AER." ; E_ORGI:units = "ug m**-3 s**-1" ; E_ORGI:stagger = "Z" ; float E_ORGJ(Time, emissions_zdim_stag, south_north, west_east) ; E_ORGJ:FieldType = 104 ; E_ORGJ:MemoryOrder = "XYZ" ; E_ORGJ:description = "EMISSION RATE OF J- MODE ORG. AER." ; E_ORGJ:units = "ug m**-3 s**-1" ; E_ORGJ:stagger = "Z" ; float E_SO4I(Time, emissions_zdim_stag, south_north, west_east) ; E_SO4I:FieldType = 104 ; E_SO4I:MemoryOrder = "XYZ" ; E_SO4I:description = "EMISSION RATE OF i- MODE ORG. AER." ; E_SO4I:units = "ug m**-3 s**-1" ; E_SO4I:stagger = "Z" ; float E_SO4J(Time, emissions_zdim_stag, south_north, west_east) ; E_SO4J:FieldType = 104 ; E_SO4J:MemoryOrder = "XYZ" ; E_SO4J:description = "EMISSION RATE OF J- MODE ORG. AER." ; E_SO4J:units = "ug m**-3 s**-1" ; E_SO4J:stagger = "Z" ; float E_NO3I(Time, emissions_zdim_stag, south_north, west_east) ; E_NO3I:FieldType = 104 ; E_NO3I:MemoryOrder = "XYZ" ; E_NO3I:description = "EMISSION RATE OF i- MODE ORG. AER." ; E_NO3I:units = "ug m**-3 s**-1" ; E_NO3I:stagger = "Z" ; float E_NO3J(Time, emissions_zdim_stag, south_north, west_east) ; E_NO3J:FieldType = 104 ; E_NO3J:MemoryOrder = "XYZ" ; E_NO3J:description = "EMISSION RATE OF J- MODE ORG. AER." ; E_NO3J:units = "ug m**-3 s**-1" ; E_NO3J:stagger = "Z" ; float E_NO2(Time, emissions_zdim_stag, south_north, west_east) ; E_NO2:FieldType = 104 ; E_NO2:MemoryOrder = "XYZ" ; E_NO2:description = "EMISSIONS NO2" ; E_NO2:units = "ppm m/min" ; E_NO2:stagger = "Z" ; float E_CH3OH(Time, emissions_zdim_stag, south_north, west_east) ; E_CH3OH:FieldType = 104 ; E_CH3OH:MemoryOrder = "XYZ" ; E_CH3OH:description = "EMISSIONS CH3OH" ; E_CH3OH:units = "ppm m/min" ; E_CH3OH:stagger = "Z" ; float E_C2H5OH(Time, emissions_zdim_stag, south_north, west_east) ; E_C2H5OH:FieldType = 104 ; E_C2H5OH:MemoryOrder = "XYZ" ; E_C2H5OH:description = "EMISSIONS C2H5OH" ; E_C2H5OH:units = "ppm m/min" ; E_C2H5OH:stagger = "Z" ; float E_SO4C(Time, emissions_zdim_stag, south_north, west_east) ; E_SO4C:FieldType = 104 ; E_SO4C:MemoryOrder = "XYZ" ; E_SO4C:description = "EMISSIONS COARSE SO4 AER" ; E_SO4C:units = "ug/m3 m/s" ; E_SO4C:stagger = "Z" ; float E_NO3C(Time, emissions_zdim_stag, south_north, west_east) ; E_NO3C:FieldType = 104 ; E_NO3C:MemoryOrder = "XYZ" ; E_NO3C:description = "EMISSIONS COARSE NO3 AER" ; E_NO3C:units = "ug/m3 m/s" ; E_NO3C:stagger = "Z" ; float E_ORGC(Time, emissions_zdim_stag, south_north, west_east) ; E_ORGC:FieldType = 104 ; E_ORGC:MemoryOrder = "XYZ" ; E_ORGC:description = "EMISSIONS COARSE ORG AER" ; E_ORGC:units = "ug/m3 m/s" ; E_ORGC:stagger = "Z" ; float E_ECC(Time, emissions_zdim_stag, south_north, west_east) ; E_ECC:FieldType = 104 ; E_ECC:MemoryOrder = "XYZ" ; E_ECC:description = "EMISSIONS COARSE EC AER" ; E_ECC:units = "ug/m3 m/s" ; E_ECC:stagger = "Z" ; float EBIO_ISO(Time, south_north, west_east) ; EBIO_ISO:FieldType = 104 ; EBIO_ISO:MemoryOrder = "XY " ; EBIO_ISO:description = "Actual biog emiss" ; EBIO_ISO:units = "mol km**-2 hr-1" ; EBIO_ISO:stagger = "" ; float CU_CO_TEN(Time, bottom_top, south_north, west_east) ; CU_CO_TEN:FieldType = 104 ; CU_CO_TEN:MemoryOrder = "XYZ" ; CU_CO_TEN:description = "CONV. TRANSPORT FOR CO" ; CU_CO_TEN:units = "?" ; CU_CO_TEN:stagger = "" ; float PM2_5_DRY(Time, bottom_top, south_north, west_east) ; PM2_5_DRY:FieldType = 104 ; PM2_5_DRY:MemoryOrder = "XYZ" ; PM2_5_DRY:description = "pm2.5 aerosol dry mass" ; PM2_5_DRY:units = "ug/kg-dryair" ; PM2_5_DRY:stagger = "" ; float PM10(Time, bottom_top, south_north, west_east) ; PM10:FieldType = 104 ; PM10:MemoryOrder = "XYZ" ; PM10:description = "pm10 dry mass" ; PM10:units = "ug/kg-dryair" ; PM10:stagger = "" ; float PHOTR2(Time, bottom_top, south_north, west_east) ; PHOTR2:FieldType = 104 ; PHOTR2:MemoryOrder = "XYZ" ; PHOTR2:description = "O31D Photolysis Rate" ; PHOTR2:units = "min{-1}" ; PHOTR2:stagger = "" ; float PHOTR3(Time, bottom_top, south_north, west_east) ; PHOTR3:FieldType = 104 ; PHOTR3:MemoryOrder = "XYZ" ; PHOTR3:description = "O33P Photolysis Rate" ; PHOTR3:units = "min{-1}" ; PHOTR3:stagger = "" ; float PHOTR4(Time, bottom_top, south_north, west_east) ; PHOTR4:FieldType = 104 ; PHOTR4:MemoryOrder = "XYZ" ; PHOTR4:description = "NO2 Photolysis Rate" ; PHOTR4:units = "min{-1}" ; PHOTR4:stagger = "" ; float PHOTR5(Time, bottom_top, south_north, west_east) ; PHOTR5:FieldType = 104 ; PHOTR5:MemoryOrder = "XYZ" ; PHOTR5:description = "NO3O2 Photolysis Rate" ; PHOTR5:units = "min{-1}" ; PHOTR5:stagger = "" ; float PHOTR6(Time, bottom_top, south_north, west_east) ; PHOTR6:FieldType = 104 ; PHOTR6:MemoryOrder = "XYZ" ; PHOTR6:description = "NO3O Photolysis Rate" ; PHOTR6:units = "min{-1}" ; PHOTR6:stagger = "" ; float PHOTR7(Time, bottom_top, south_north, west_east) ; PHOTR7:FieldType = 104 ; PHOTR7:MemoryOrder = "XYZ" ; PHOTR7:description = "HNO2 Photolysis Rate" ; PHOTR7:units = "min{-1}" ; PHOTR7:stagger = "" ; float PHOTR8(Time, bottom_top, south_north, west_east) ; PHOTR8:FieldType = 104 ; PHOTR8:MemoryOrder = "XYZ" ; PHOTR8:description = "HNO3 Photolysis Rate" ; PHOTR8:units = "min{-1}" ; PHOTR8:stagger = "" ; float PHOTR9(Time, bottom_top, south_north, west_east) ; PHOTR9:FieldType = 104 ; PHOTR9:MemoryOrder = "XYZ" ; PHOTR9:description = "HNO4 Photolysis Rate" ; PHOTR9:units = "min{-1}" ; PHOTR9:stagger = "" ; float PHOTR10(Time, bottom_top, south_north, west_east) ; PHOTR10:FieldType = 104 ; PHOTR10:MemoryOrder = "XYZ" ; PHOTR10:description = "H2O2 Photolysis Rate" ; PHOTR10:units = "min{-1}" ; PHOTR10:stagger = "" ; float PHOTR11(Time, bottom_top, south_north, west_east) ; PHOTR11:FieldType = 104 ; PHOTR11:MemoryOrder = "XYZ" ; PHOTR11:description = "CH2OR Photolysis Rate" ; PHOTR11:units = "min{-1}" ; PHOTR11:stagger = "" ; float PHOTR12(Time, bottom_top, south_north, west_east) ; PHOTR12:FieldType = 104 ; PHOTR12:MemoryOrder = "XYZ" ; PHOTR12:description = "CH2OM Photolysis Rate" ; PHOTR12:units = "min{-1}" ; PHOTR12:stagger = "" ; float PHOTR13(Time, bottom_top, south_north, west_east) ; PHOTR13:FieldType = 104 ; PHOTR13:MemoryOrder = "XYZ" ; PHOTR13:description = "CH3CHO Photolysis Rate" ; PHOTR13:units = "min{-1}" ; PHOTR13:stagger = "" ; float PHOTR14(Time, bottom_top, south_north, west_east) ; PHOTR14:FieldType = 104 ; PHOTR14:MemoryOrder = "XYZ" ; PHOTR14:description = "CH3COCH3 Photolysis Rate" ; PHOTR14:units = "min{-1}" ; PHOTR14:stagger = "" ; float PHOTR15(Time, bottom_top, south_north, west_east) ; PHOTR15:FieldType = 104 ; PHOTR15:MemoryOrder = "XYZ" ; PHOTR15:description = "CH3COC2H5 Photolysis Rate" ; PHOTR15:units = "min{-1}" ; PHOTR15:stagger = "" ; float PHOTR16(Time, bottom_top, south_north, west_east) ; PHOTR16:FieldType = 104 ; PHOTR16:MemoryOrder = "XYZ" ; PHOTR16:description = "HCOCHO Photolysis Rate" ; PHOTR16:units = "min{-1}" ; PHOTR16:stagger = "" ; float PHOTR17(Time, bottom_top, south_north, west_east) ; PHOTR17:FieldType = 104 ; PHOTR17:MemoryOrder = "XYZ" ; PHOTR17:description = "CH3COCHO Photolysis Rate" ; PHOTR17:units = "min{-1}" ; PHOTR17:stagger = "" ; float PHOTR18(Time, bottom_top, south_north, west_east) ; PHOTR18:FieldType = 104 ; PHOTR18:MemoryOrder = "XYZ" ; PHOTR18:description = "HCOCHEST Photolysis Rate" ; PHOTR18:units = "min{-1}" ; PHOTR18:stagger = "" ; float PHOTR19(Time, bottom_top, south_north, west_east) ; PHOTR19:FieldType = 104 ; PHOTR19:MemoryOrder = "XYZ" ; PHOTR19:description = "CH3O2H Photolysis Rate" ; PHOTR19:units = "min{-1}" ; PHOTR19:stagger = "" ; float PHOTR20(Time, bottom_top, south_north, west_east) ; PHOTR20:FieldType = 104 ; PHOTR20:MemoryOrder = "XYZ" ; PHOTR20:description = "CH3COO2H Photolysis Rate" ; PHOTR20:units = "min{-1}" ; PHOTR20:stagger = "" ; float PHOTR21(Time, bottom_top, south_north, west_east) ; PHOTR21:FieldType = 104 ; PHOTR21:MemoryOrder = "XYZ" ; PHOTR21:description = "CH3ONO2 Photolysis Rate" ; PHOTR21:units = "min{-1}" ; PHOTR21:stagger = "" ; float PHOTR22(Time, bottom_top, south_north, west_east) ; PHOTR22:FieldType = 104 ; PHOTR22:MemoryOrder = "XYZ" ; PHOTR22:description = "HCOCHOB Photolysis Rate" ; PHOTR22:units = "min{-1}" ; PHOTR22:stagger = "" ; float PHOTR1(Time, bottom_top, south_north, west_east) ; PHOTR1:FieldType = 104 ; PHOTR1:MemoryOrder = "XYZ" ; PHOTR1:description = "MACR Photolysis Rate" ; PHOTR1:units = "min{-1}" ; PHOTR1:stagger = "" ; float PHOTR23(Time, bottom_top, south_north, west_east) ; PHOTR23:FieldType = 104 ; PHOTR23:MemoryOrder = "XYZ" ; PHOTR23:description = "N2O5 Photolysis Rate" ; PHOTR23:units = "min{-1}" ; PHOTR23:stagger = "" ; float PHOTR24(Time, bottom_top, south_north, west_east) ; PHOTR24:FieldType = 104 ; PHOTR24:MemoryOrder = "XYZ" ; PHOTR24:description = "O2 Photolysis Rate" ; PHOTR24:units = "min{-1}" ; PHOTR24:stagger = "" ; float TAUAER1(Time, bottom_top, south_north, west_east) ; TAUAER1:FieldType = 104 ; TAUAER1:MemoryOrder = "XYZ" ; TAUAER1:description = "bin 1 layer optical thickness" ; TAUAER1:units = "?" ; TAUAER1:stagger = "" ; float TAUAER2(Time, bottom_top, south_north, west_east) ; TAUAER2:FieldType = 104 ; TAUAER2:MemoryOrder = "XYZ" ; TAUAER2:description = "bin 2 layer optical thickness" ; TAUAER2:units = "?" ; TAUAER2:stagger = "" ; float TAUAER3(Time, bottom_top, south_north, west_east) ; TAUAER3:FieldType = 104 ; TAUAER3:MemoryOrder = "XYZ" ; TAUAER3:description = "bin 3 layer optical thickness" ; TAUAER3:units = "?" ; TAUAER3:stagger = "" ; float TAUAER4(Time, bottom_top, south_north, west_east) ; TAUAER4:FieldType = 104 ; TAUAER4:MemoryOrder = "XYZ" ; TAUAER4:description = "bin 4 layer optical thickness" ; TAUAER4:units = "?" ; TAUAER4:stagger = "" ; float GAER1(Time, bottom_top, south_north, west_east) ; GAER1:FieldType = 104 ; GAER1:MemoryOrder = "XYZ" ; GAER1:description = "bin 1 layer assymetry parameter" ; GAER1:units = "?" ; GAER1:stagger = "" ; float GAER2(Time, bottom_top, south_north, west_east) ; GAER2:FieldType = 104 ; GAER2:MemoryOrder = "XYZ" ; GAER2:description = "bin 2 layer assymetry parameter" ; GAER2:units = "?" ; GAER2:stagger = "" ; float GAER3(Time, bottom_top, south_north, west_east) ; GAER3:FieldType = 104 ; GAER3:MemoryOrder = "XYZ" ; GAER3:description = "bin 3 layer assymetry parameter" ; GAER3:units = "?" ; GAER3:stagger = "" ; float GAER4(Time, bottom_top, south_north, west_east) ; GAER4:FieldType = 104 ; GAER4:MemoryOrder = "XYZ" ; GAER4:description = "bin 4 layer assymetry parameter" ; GAER4:units = "?" ; GAER4:stagger = "" ; float WAER1(Time, bottom_top, south_north, west_east) ; WAER1:FieldType = 104 ; WAER1:MemoryOrder = "XYZ" ; WAER1:description = "bin 1 layer single-scattering albedo" ; WAER1:units = "?" ; WAER1:stagger = "" ; float WAER2(Time, bottom_top, south_north, west_east) ; WAER2:FieldType = 104 ; WAER2:MemoryOrder = "XYZ" ; WAER2:description = "bin 2 layer single-scattering albedo" ; WAER2:units = "?" ; WAER2:stagger = "" ; float WAER3(Time, bottom_top, south_north, west_east) ; WAER3:FieldType = 104 ; WAER3:MemoryOrder = "XYZ" ; WAER3:description = "bin 3 layer single-scattering albedo" ; WAER3:units = "?" ; WAER3:stagger = "" ; float WAER4(Time, bottom_top, south_north, west_east) ; WAER4:FieldType = 104 ; WAER4:MemoryOrder = "XYZ" ; WAER4:description = "bin 4 layer single-scattering albedo" ; WAER4:units = "?" ; WAER4:stagger = "" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; float XICE(Time, south_north, west_east) ; XICE:FieldType = 104 ; XICE:MemoryOrder = "XY " ; XICE:description = "SEA ICE FLAG" ; XICE:units = "" ; XICE:stagger = "" ; float SFROFF(Time, south_north, west_east) ; SFROFF:FieldType = 104 ; SFROFF:MemoryOrder = "XY " ; SFROFF:description = "SURFACE RUNOFF" ; SFROFF:units = "mm" ; SFROFF:stagger = "" ; float UDROFF(Time, south_north, west_east) ; UDROFF:FieldType = 104 ; UDROFF:MemoryOrder = "XY " ; UDROFF:description = "UNDERGROUND RUNOFF" ; UDROFF:units = "mm" ; UDROFF:stagger = "" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; float GRDFLX(Time, south_north, west_east) ; GRDFLX:FieldType = 104 ; GRDFLX:MemoryOrder = "XY " ; GRDFLX:description = "GROUND HEAT FLUX" ; GRDFLX:units = "W m-2" ; GRDFLX:stagger = "" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; float EXCH_H(Time, bottom_top, south_north, west_east) ; EXCH_H:FieldType = 104 ; EXCH_H:MemoryOrder = "XYZ" ; EXCH_H:description = "EXCHANGE COEFFICIENTS" ; EXCH_H:units = "-" ; EXCH_H:stagger = "" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; float P_TOP(Time, ext_scalar) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float LAT_LL_T(Time, ext_scalar) ; LAT_LL_T:FieldType = 104 ; LAT_LL_T:MemoryOrder = "0 " ; LAT_LL_T:description = "latitude lower left, temp point" ; LAT_LL_T:units = "degrees" ; LAT_LL_T:stagger = "" ; float LAT_UL_T(Time, ext_scalar) ; LAT_UL_T:FieldType = 104 ; LAT_UL_T:MemoryOrder = "0 " ; LAT_UL_T:description = "latitude up left, temp point" ; LAT_UL_T:units = "degrees" ; LAT_UL_T:stagger = "" ; float LAT_UR_T(Time, ext_scalar) ; LAT_UR_T:FieldType = 104 ; LAT_UR_T:MemoryOrder = "0 " ; LAT_UR_T:description = "latitude up right, temp point" ; LAT_UR_T:units = "degrees" ; LAT_UR_T:stagger = "" ; float LAT_LR_T(Time, ext_scalar) ; LAT_LR_T:FieldType = 104 ; LAT_LR_T:MemoryOrder = "0 " ; LAT_LR_T:description = "latitude lower right, temp point" ; LAT_LR_T:units = "degrees" ; LAT_LR_T:stagger = "" ; float LAT_LL_U(Time, ext_scalar) ; LAT_LL_U:FieldType = 104 ; LAT_LL_U:MemoryOrder = "0 " ; LAT_LL_U:description = "latitude lower left, u point" ; LAT_LL_U:units = "degrees" ; LAT_LL_U:stagger = "" ; float LAT_UL_U(Time, ext_scalar) ; LAT_UL_U:FieldType = 104 ; LAT_UL_U:MemoryOrder = "0 " ; LAT_UL_U:description = "latitude up left, u point" ; LAT_UL_U:units = "degrees" ; LAT_UL_U:stagger = "" ; float LAT_UR_U(Time, ext_scalar) ; LAT_UR_U:FieldType = 104 ; LAT_UR_U:MemoryOrder = "0 " ; LAT_UR_U:description = "latitude up right, u point" ; LAT_UR_U:units = "degrees" ; LAT_UR_U:stagger = "" ; float LAT_LR_U(Time, ext_scalar) ; LAT_LR_U:FieldType = 104 ; LAT_LR_U:MemoryOrder = "0 " ; LAT_LR_U:description = "latitude lower right, u point" ; LAT_LR_U:units = "degrees" ; LAT_LR_U:stagger = "" ; float LAT_LL_V(Time, ext_scalar) ; LAT_LL_V:FieldType = 104 ; LAT_LL_V:MemoryOrder = "0 " ; LAT_LL_V:description = "latitude lower left, v point" ; LAT_LL_V:units = "degrees" ; LAT_LL_V:stagger = "" ; float LAT_UL_V(Time, ext_scalar) ; LAT_UL_V:FieldType = 104 ; LAT_UL_V:MemoryOrder = "0 " ; LAT_UL_V:description = "latitude up left, v point" ; LAT_UL_V:units = "degrees" ; LAT_UL_V:stagger = "" ; float LAT_UR_V(Time, ext_scalar) ; LAT_UR_V:FieldType = 104 ; LAT_UR_V:MemoryOrder = "0 " ; LAT_UR_V:description = "latitude up right, v point" ; LAT_UR_V:units = "degrees" ; LAT_UR_V:stagger = "" ; float LAT_LR_V(Time, ext_scalar) ; LAT_LR_V:FieldType = 104 ; LAT_LR_V:MemoryOrder = "0 " ; LAT_LR_V:description = "latitude lower right, v point" ; LAT_LR_V:units = "degrees" ; LAT_LR_V:stagger = "" ; float LAT_LL_D(Time, ext_scalar) ; LAT_LL_D:FieldType = 104 ; LAT_LL_D:MemoryOrder = "0 " ; LAT_LL_D:description = "latitude lower left, massless point" ; LAT_LL_D:units = "degrees" ; LAT_LL_D:stagger = "" ; float LAT_UL_D(Time, ext_scalar) ; LAT_UL_D:FieldType = 104 ; LAT_UL_D:MemoryOrder = "0 " ; LAT_UL_D:description = "latitude up left, massless point" ; LAT_UL_D:units = "degrees" ; LAT_UL_D:stagger = "" ; float LAT_UR_D(Time, ext_scalar) ; LAT_UR_D:FieldType = 104 ; LAT_UR_D:MemoryOrder = "0 " ; LAT_UR_D:description = "latitude up right, massless point" ; LAT_UR_D:units = "degrees" ; LAT_UR_D:stagger = "" ; float LAT_LR_D(Time, ext_scalar) ; LAT_LR_D:FieldType = 104 ; LAT_LR_D:MemoryOrder = "0 " ; LAT_LR_D:description = "latitude lower right, massless point" ; LAT_LR_D:units = "degrees" ; LAT_LR_D:stagger = "" ; float LON_LL_T(Time, ext_scalar) ; LON_LL_T:FieldType = 104 ; LON_LL_T:MemoryOrder = "0 " ; LON_LL_T:description = "longitude lower left, temp point" ; LON_LL_T:units = "degrees" ; LON_LL_T:stagger = "" ; float LON_UL_T(Time, ext_scalar) ; LON_UL_T:FieldType = 104 ; LON_UL_T:MemoryOrder = "0 " ; LON_UL_T:description = "longitude up left, temp point" ; LON_UL_T:units = "degrees" ; LON_UL_T:stagger = "" ; float LON_UR_T(Time, ext_scalar) ; LON_UR_T:FieldType = 104 ; LON_UR_T:MemoryOrder = "0 " ; LON_UR_T:description = "longitude up right, temp point" ; LON_UR_T:units = "degrees" ; LON_UR_T:stagger = "" ; float LON_LR_T(Time, ext_scalar) ; LON_LR_T:FieldType = 104 ; LON_LR_T:MemoryOrder = "0 " ; LON_LR_T:description = "longitude lower right, temp point" ; LON_LR_T:units = "degrees" ; LON_LR_T:stagger = "" ; float LON_LL_U(Time, ext_scalar) ; LON_LL_U:FieldType = 104 ; LON_LL_U:MemoryOrder = "0 " ; LON_LL_U:description = "longitude lower left, u point" ; LON_LL_U:units = "degrees" ; LON_LL_U:stagger = "" ; float LON_UL_U(Time, ext_scalar) ; LON_UL_U:FieldType = 104 ; LON_UL_U:MemoryOrder = "0 " ; LON_UL_U:description = "longitude up left, u point" ; LON_UL_U:units = "degrees" ; LON_UL_U:stagger = "" ; float LON_UR_U(Time, ext_scalar) ; LON_UR_U:FieldType = 104 ; LON_UR_U:MemoryOrder = "0 " ; LON_UR_U:description = "longitude up right, u point" ; LON_UR_U:units = "degrees" ; LON_UR_U:stagger = "" ; float LON_LR_U(Time, ext_scalar) ; LON_LR_U:FieldType = 104 ; LON_LR_U:MemoryOrder = "0 " ; LON_LR_U:description = "longitude lower right, u point" ; LON_LR_U:units = "degrees" ; LON_LR_U:stagger = "" ; float LON_LL_V(Time, ext_scalar) ; LON_LL_V:FieldType = 104 ; LON_LL_V:MemoryOrder = "0 " ; LON_LL_V:description = "longitude lower left, v point" ; LON_LL_V:units = "degrees" ; LON_LL_V:stagger = "" ; float LON_UL_V(Time, ext_scalar) ; LON_UL_V:FieldType = 104 ; LON_UL_V:MemoryOrder = "0 " ; LON_UL_V:description = "longitude up left, v point" ; LON_UL_V:units = "degrees" ; LON_UL_V:stagger = "" ; float LON_UR_V(Time, ext_scalar) ; LON_UR_V:FieldType = 104 ; LON_UR_V:MemoryOrder = "0 " ; LON_UR_V:description = "longitude up right, v point" ; LON_UR_V:units = "degrees" ; LON_UR_V:stagger = "" ; float LON_LR_V(Time, ext_scalar) ; LON_LR_V:FieldType = 104 ; LON_LR_V:MemoryOrder = "0 " ; LON_LR_V:description = "longitude lower right, v point" ; LON_LR_V:units = "degrees" ; LON_LR_V:stagger = "" ; float LON_LL_D(Time, ext_scalar) ; LON_LL_D:FieldType = 104 ; LON_LL_D:MemoryOrder = "0 " ; LON_LL_D:description = "longitude lower left, massless point" ; LON_LL_D:units = "degrees" ; LON_LL_D:stagger = "" ; float LON_UL_D(Time, ext_scalar) ; LON_UL_D:FieldType = 104 ; LON_UL_D:MemoryOrder = "0 " ; LON_UL_D:description = "longitude up left, massless point" ; LON_UL_D:units = "degrees" ; LON_UL_D:stagger = "" ; float LON_UR_D(Time, ext_scalar) ; LON_UR_D:FieldType = 104 ; LON_UR_D:MemoryOrder = "0 " ; LON_UR_D:description = "longitude up right, massless point" ; LON_UR_D:units = "degrees" ; LON_UR_D:stagger = "" ; float LON_LR_D(Time, ext_scalar) ; LON_LR_D:FieldType = 104 ; LON_LR_D:MemoryOrder = "0 " ; LON_LR_D:description = "longitude lower right, massless point" ; LON_LR_D:units = "degrees" ; LON_LR_D:stagger = "" ; float RAINC(Time, south_north, west_east) ; RAINC:FieldType = 104 ; RAINC:MemoryOrder = "XY " ; RAINC:description = "ACCUMULATED TOTAL CUMULUS PRECIPITATION" ; RAINC:units = "mm" ; RAINC:stagger = "" ; float RAINNC(Time, south_north, west_east) ; RAINNC:FieldType = 104 ; RAINNC:MemoryOrder = "XY " ; RAINNC:description = "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" ; RAINNC:units = "mm" ; RAINNC:stagger = "" ; float SWDOWN(Time, south_north, west_east) ; SWDOWN:FieldType = 104 ; SWDOWN:MemoryOrder = "XY " ; SWDOWN:description = "DOWNWARD SHORT WAVE FLUX AT GROUND SURFACE" ; SWDOWN:units = "W m-2" ; SWDOWN:stagger = "" ; float GLW(Time, south_north, west_east) ; GLW:FieldType = 104 ; GLW:MemoryOrder = "XY " ; GLW:description = "DOWNWARD LONG WAVE FLUX AT GROUND SURFACE" ; GLW:units = "W m-2" ; GLW:stagger = "" ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; float RMOL(Time, south_north, west_east) ; RMOL:FieldType = 104 ; RMOL:MemoryOrder = "XY " ; RMOL:description = "1./Monin Ob. Length" ; RMOL:units = "" ; RMOL:stagger = "" ; float PBLH(Time, south_north, west_east) ; PBLH:FieldType = 104 ; PBLH:MemoryOrder = "XY " ; PBLH:description = "PBL HEIGHT" ; PBLH:units = "m" ; PBLH:stagger = "" ; float HFX(Time, south_north, west_east) ; HFX:FieldType = 104 ; HFX:MemoryOrder = "XY " ; HFX:description = "UPWARD HEAT FLUX AT THE SURFACE" ; HFX:units = "W m-2" ; HFX:stagger = "" ; float QFX(Time, south_north, west_east) ; QFX:FieldType = 104 ; QFX:MemoryOrder = "XY " ; QFX:description = "UPWARD MOISTURE FLUX AT THE SURFACE" ; QFX:units = "kg m-2 s-1" ; QFX:stagger = "" ; float LH(Time, south_north, west_east) ; LH:FieldType = 104 ; LH:MemoryOrder = "XY " ; LH:description = "LATENT HEAT FLUX AT THE SURFACE" ; LH:units = "W m-2" ; LH:stagger = "" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; // global attributes: :TITLE = " OUTPUT FROM WRF V2.0.3.1 MODEL" ; :START_DATE = "0001-01-01_00:00:00" ; :WEST-EAST_GRID_DIMENSION = 202 ; :SOUTH-NORTH_GRID_DIMENSION = 3 ; :BOTTOM-TOP_GRID_DIMENSION = 81 ; :GRIDTYPE = "C" ; :DYN_OPT = 2 ; :DIFF_OPT = 2 ; :KM_OPT = 1 ; :DAMP_OPT = 0 ; :KHDIF = 300.f ; :KVDIF = 0.f ; :MP_PHYSICS = 1 ; :RA_LW_PHYSICS = 0 ; :RA_SW_PHYSICS = 0 ; :SF_SFCLAY_PHYSICS = 0 ; :SF_SURFACE_PHYSICS = 0 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 201 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 202 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 2 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 3 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 80 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 81 ; :DX = 250.f ; :DY = 250.f ; :DT = 3.f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MMINLU = "" ; :ISWATER = 0 ; :ISICE = 0 ; :ISURBAN = 0 ; :ISOILWATER = 0 ; }