diff --git a/ACCESS_Archiver.sh b/ACCESS_Archiver.sh index 5c5bf82..296cb1c 100755 --- a/ACCESS_Archiver.sh +++ b/ACCESS_Archiver.sh @@ -102,6 +102,8 @@ echo -e "\n---- Setting up jobs ----" #---- um2nc parallel job ----# cp $here/subroutines/run_um2nc.py $here/tmp/$loc_exp/run_um2nc.py +cp $here/subroutines/um2netcdf4.py $here/tmp/$loc_exp/um2netcdf4.py # TFL: use local stashvars +cp $here/subroutines/stashvar_cmip6.py $here/tmp/$loc_exp/stashvar_cmip6.py # cat << EOF > $here/tmp/$loc_exp/job_um2nc.qsub.sh #!/bin/bash @@ -117,7 +119,8 @@ module use /g/data/hh5/public/modules module use ~access/modules module load cdo module load nco -module load pythonlib/um2netcdf4/2.0 +#module load pythonlib/um2netcdf4/2.0 # TFL replaced by local um2netcdf4.py +module load conda/analysis3-23.10 set -a ncpus=\$PBS_NCPUS here=$here @@ -139,7 +142,7 @@ echo "arch dir: $arch_dir" echo "local exp: $loc_exp" echo "access version: $access_version" -python -W ignore $here/tmp/$loc_exp/run_um2nc.py +python3 -W ignore $here/tmp/$loc_exp/run_um2nc.py EOF if [[ $access_version != om2 ]]; then diff --git a/subroutines/stashvar_cmip6.py b/subroutines/stashvar_cmip6.py new file mode 100644 index 0000000..f20f1dc --- /dev/null +++ b/subroutines/stashvar_cmip6.py @@ -0,0 +1,4799 @@ +# UM STASH variable names from section and item numbers +# Where available variable names match PCMDI convention +# Fifth field is a unique name suitable for filenames or creating multiple +# variables in a single file + +atm_stashvar = {} + +atm_stashvar[2] = ["U COMPNT OF WIND AFTER TIMESTEP", "ua", "m s-1", "eastward_wind", ""] +atm_stashvar[3] = ["V COMPNT OF WIND AFTER TIMESTEP", "va", "m s-1", "northward_wind", ""] +atm_stashvar[4] = ["THETA AFTER TIMESTEP", "theta", "K", "", ""] +atm_stashvar[5] = ["OROGRAPHIC GRADIENT X COMPONENT", "orog_dx", "", "", ""] +atm_stashvar[6] = ["OROGRAPHIC GRADIENT Y COMPONENT", "orog_dy", "", "", ""] +atm_stashvar[7] = ["UNFILTERED OROGRAPHY", "orog_unfilt", "", "", ""] +atm_stashvar[8] = ["SOIL BULK DENSITY", "", "kg m-3", "", ""] +atm_stashvar[9] = ["SOIL MOISTURE CONTENT IN A LAYER", "", "", "", ""] +atm_stashvar[10] = ["SPECIFIC HUMIDITY AFTER TIMESTEP", "hus", "1", "specific_humidity", ""] +atm_stashvar[12] = ["QCF AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[13] = ["CONV CLOUD AMOUNT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[14] = ["CONV CLOUD BASE LEVEL NO. AFTER TS", "", "", "", ""] +atm_stashvar[15] = ["CONV CLOUD TOP LEVEL NO. AFTER TS", "", "", "", ""] +atm_stashvar[16] = ["CONV CLOUD LIQUID WATER PATH", "", "", "", ""] +atm_stashvar[17] = ["SILHOUETTE OROGRAPHIC ROUGHNESS", "", "", "", ""] +atm_stashvar[18] = ["HALF OF (PEAK TO TROUGH HT OF OROG)", "", "", "", ""] +atm_stashvar[20] = ["DEEP SOIL TEMP AFTER TIMESTEP", "tsl", "K", "soil_temperature", ""] +atm_stashvar[21] = ["CCRad : Lowest conv. cld base layer", "", "", "", ""] +atm_stashvar[22] = ["CANOPY WATER AFTER TIMESTEP KG/M2", "", "", "", ""] +atm_stashvar[23] = ["SNOW AMOUNT OVER LAND AFT TSTP KG/M2", "snw", "kg m-2", "surface_snow_amount", ""] +atm_stashvar[24] = ["SURFACE TEMPERATURE AFTER TIMESTEP", "ts", "K", "surface_temperature", ""] +atm_stashvar[25] = ["BOUNDARY LAYER DEPTH AFTER TIMESTEP", "bldepth", "m", "", ""] +atm_stashvar[26] = ["ROUGHNESS LENGTH AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[27] = ["SNOW EDGE AFTER TIMESTEP **", "", "", "", ""] +atm_stashvar[28] = ["SURFACE ZONAL CURRENT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[29] = ["SURFACE MERID CURRENT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[30] = ["LAND MASK (No halo) (LAND=TRUE)", "lmask", "1", "land_binary_mask", ""] +atm_stashvar[31] = ["FRAC OF SEA ICE IN SEA AFTER TSTEP", "sic", "1", "sea_ice_area_fraction", ""] +atm_stashvar[32] = ["SEA ICE DEPTH (MEAN OVER ICE) M", "sit", "m", "sea_ice_thickness", ""] +atm_stashvar[33] = ["OROGRAPHY (/STRAT LOWER BC)", "orog", "m", "surface_altitude", ""] +atm_stashvar[34] = ["STANDARD DEVIATION OF OROGRAPHY", "orog_sd", "", "", ""] +atm_stashvar[35] = ["OROGRAPHIC GRADIENT XX COMPONENT", "orog_dxx", "", "", ""] +atm_stashvar[36] = ["OROGRAPHIC GRADIENT XY COMPONENT", "orog_dxy", "", "", ""] +atm_stashvar[37] = ["OROGRAPHIC GRADIENT YY COMPONENT", "orog_dyy", "", "", ""] +atm_stashvar[38] = ["ICE EDGE IN THE ANCILLARY FILE ONLY", "", "", "", ""] +atm_stashvar[39] = ["SST ANOMALY", "", "", "", ""] +atm_stashvar[40] = ["VOL SMC AT WILTING AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[41] = ["VOL SMC AT CRIT PT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[43] = ["VOL SMC AT SATURATION AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[44] = ["SAT SOIL CONDUCTIVITY AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[46] = ["THERMAL CAPACITY AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[47] = ["THERMAL CONDUCTIVITY AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[48] = ["SATURATED SOIL WATER SUCTION", "", "", "", ""] +atm_stashvar[49] = ["SEA-ICE TEMPERATURE AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[50] = ["VEGETATION FRACTION AFTER TIMESTEP", "", "1", "vegetation_area_fraction", ""] +atm_stashvar[51] = ["ROOT DEPTH AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[52] = ["SNOW-FREE SURFACE ALBEDO AFTER TS", "", "1", "", ""] +atm_stashvar[53] = ["DEEP SNOW SURFACE ALBEDO AFTER TS", "", "1", "", ""] +atm_stashvar[54] = ["SURFACE RESISTANCE TO EVAP AFTER TS", "", "", "", ""] +atm_stashvar[55] = ["SURFACE CAPACITY AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[56] = ["INFILTRATION FACTOR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[57] = ["TOTAL AEROSOL EMISSIONS (FOR VIS)", "", "", "", ""] +atm_stashvar[58] = ["SULPHUR DIOXIDE EMISSIONS", "", "kg m-2 s-1", "", ""] +atm_stashvar[59] = ["DIMETHYL SULPHIDE EMISSIONS (ANCIL)", "", "kg m-2 s-1", "", ""] +atm_stashvar[60] = ["OZONE **", "", "", "", ""] +atm_stashvar[70] = ["TURBULENT KINETIC ENERGY", "", "", "", ""] +atm_stashvar[71] = ["SELF COVARIANCE OF THETAL'", "", "", "", ""] +atm_stashvar[72] = ["SELF COVARIANCE OF QW'", "", "", "", ""] +atm_stashvar[73] = ["CORRELATION OF THETAL' AND QW'", "", "", "", ""] +atm_stashvar[74] = ["HEIGHT OF MIXED LAYER FOR SHCU BUOY", "", "", "", ""] +atm_stashvar[75] = ["CLOUD NUMBER AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[76] = ["RAIN NUMBER AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[77] = ["RAIN THIRD MOMENT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[78] = ["ICE NUMBER AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[79] = ["SNOW NUMBER AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[80] = ["SNOW THIRD MOMENT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[81] = ["GRAUPEL NUMBER AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[82] = ["GRAUPEL THIRD MOMENT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[83] = ["ACTSOLLIQ AEROSOL AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[84] = ["ACTSOLRAIN AEROSOL AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[85] = ["ACTINSOLICE AEROSOL AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[86] = ["ACTSOLICE AEROSOL AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[87] = ["ACTINSOLLIQUID AERO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[88] = ["ACTSOLNUMBER AERO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[89] = ["ACTINSOLNUMBER AER0 AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[90] = ["TOTAL AEROSOL (FOR VISIBILITY)", "", "", "", ""] +atm_stashvar[91] = ["LIGHTNING POTENTIAL", "", "", "", ""] +atm_stashvar[93] = ["RUNOFF COASTAL OUTFLOW POINT", "", "", "", ""] +atm_stashvar[95] = ["SNOW AMOUNT OVR SEAICE AFT TS KG/M2", "", "", "", ""] +atm_stashvar[96] = ["OCEAN NR. SURFACE CHLOROPHYLL(KGM-3)", "", "", "", ""] +atm_stashvar[97] = ["BARE SOIL MOMENTUM ROUGHNESS LENGTH", "", "", "", ""] +atm_stashvar[98] = ["LOWER BOUNDARY TENDENCIES (OROG)", "", "", "", ""] +atm_stashvar[99] = ["BDY LYR W-VARIANCE FOR MIXED PHASE", "", "", "", ""] +atm_stashvar[101] = ["SO2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[102] = ["DIMETHYL SULPHIDE MIX RAT AFTER TS", "", "", "", ""] +atm_stashvar[103] = ["SO4 AITKEN MODE AEROSOL AFTER TSTEP", "", "", "", ""] +atm_stashvar[104] = ["SO4 ACCUM. MODE AEROSOL AFTER TSTEP", "", "", "", ""] +atm_stashvar[105] = ["SO4 DISSOLVED AEROSOL AFTER TSTEP", "", "", "", ""] +atm_stashvar[106] = ["H2O2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[107] = ["NH3 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[108] = ["FRESH SOOT MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[109] = ["AGED SOOT MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[110] = ["CLOUD SOOT MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[111] = ["FRESH BIOMASS SMOKE AFTER TSTEP", "", "", "", ""] +atm_stashvar[112] = ["AGED BIOMASS SMOKE AFTER TSTEP", "", "", "", ""] +atm_stashvar[113] = ["CLOUD BIOMASS SMOKE AFTER TSTEP", "", "", "", ""] +atm_stashvar[114] = ["FRESH OCFF MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[115] = ["AGED OCFF MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[116] = ["CLOUD OCFF MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[117] = ["ACC NITR MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[118] = ["DISS NITR MASS MIX RAT AFTER TSTEP", "", "", "", ""] +atm_stashvar[119] = ["MIN HEIGHT FOR BB HILEV EMISS / M", "", "", "", ""] +atm_stashvar[120] = ["MAX HEIGHT FOR BB HILEV EMISS / M", "", "", "", ""] +atm_stashvar[121] = ["3D NATURAL SO2 EMISSIONS KG/M2/S", "", "", "", ""] +atm_stashvar[122] = ["3D OH CONCENTRATIONS IN MCULES/CC", "", "", "", ""] +atm_stashvar[123] = ["3D HO2 CONCENTRATIONS IN MCULES/CC", "", "", "", ""] +atm_stashvar[124] = ["3D H2O2 MIX RATIO LIMIT FIELD", "", "", "", ""] +atm_stashvar[125] = ["3D OZONE MIX RAT FOR SULPHUR CYCLE", "", "", "", ""] +atm_stashvar[126] = ["HIGH LEVEL SO2 EMISSIONS KG/M2/S", "", "", "", ""] +atm_stashvar[127] = ["AMMONIA GAS EMISSIONS KG/M2/S", "", "", "", ""] +atm_stashvar[128] = ["FRESH SOOT SURF EMISS KG/M2/S", "", "", "", ""] +atm_stashvar[129] = ["FRESH SOOT HI LEV EMISS KG/M2/S", "", "", "", ""] +atm_stashvar[130] = ["FRESH BIOMASS SURF EMISS KG/M2/S", "", "", "", ""] +atm_stashvar[131] = ["FRESH BIOMASS HI LEV EMISS KG/M2/S", "", "", "", ""] +atm_stashvar[132] = ["DMS CONCENTRATION IN SEAWATER", "", "", "", ""] +atm_stashvar[133] = ["DMS OCEAN FLUX KG[S]/M**2/S", "", "", "", ""] +atm_stashvar[134] = ["FRESH OCFF SURF EMISS KG/M2/S", "", "", "", ""] +atm_stashvar[135] = ["FRESH OCFF HI LEV EMISS KG/M2/S", "", "", "", ""] +atm_stashvar[136] = ["CONV PROG 1", "", "", "", ""] +atm_stashvar[137] = ["CONV PROG 2", "", "", "", ""] +atm_stashvar[138] = ["CONV PROG 3", "", "", "", ""] +atm_stashvar[139] = ["CONV PROG PRECIP", "", "", "", ""] +atm_stashvar[150] = ["W COMPNT OF WIND AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[151] = ["RIVER SEQUENCE", "", "", "", ""] +atm_stashvar[152] = ["RIVER DIRECTION", "", "", "", ""] +atm_stashvar[153] = ["RIVER WATER STORAGE M2", "", "", "", ""] +atm_stashvar[155] = ["ACCUMULATED SURFACE RUNOFF KG/M2", "", "", "", ""] +atm_stashvar[156] = ["ACCUMULATED SUB-SURFACE RUNOFF KG/M2", "", "", "", ""] +atm_stashvar[157] = ["GRIDBOX AREAS M2", "", "", "", ""] +atm_stashvar[160] = ["AREA DRAINING (INTEGER) PIXELS", "", "", "", ""] +atm_stashvar[161] = ["SLOPE %", "", "", "", ""] +atm_stashvar[162] = ["INITIAL FLOW VALUES M3/S", "", "", "", ""] +atm_stashvar[163] = ["X-COORDINATE OF OUTFLOW PIXEL", "", "", "", ""] +atm_stashvar[164] = ["Y-COORDINATE OF OUTFLOW PIXEL", "", "", "", ""] +atm_stashvar[165] = ["LAND-TYPE (RIVER/LAND/SEA)", "", "", "", ""] +atm_stashvar[166] = ["SURFACE STORAGE MM", "", "", "", ""] +atm_stashvar[167] = ["SUB-SURFACE STORAGE MM", "", "", "", ""] +atm_stashvar[168] = ["ACC. SURFACE INFLOW TO A PIXEL MM", "", "", "", ""] +atm_stashvar[169] = ["ACC. SUB-SURFACE INFLOW TO PIXEL MM", "", "", "", ""] +atm_stashvar[171] = ["NET DN SW RAD FLUX:OPEN SEA: CPL", "", "", "", ""] +atm_stashvar[172] = ["NET DWN SFC SW FLUX BLW 690NM: CPL", "", "", "", ""] +atm_stashvar[173] = ["NET DOWN SURFACE LW RAD FLUX: CPL", "", "", "", ""] +atm_stashvar[174] = ["NET DN LW RAD FLUX:OPEN SEA: CPL", "", "", "", ""] +atm_stashvar[176] = ["X-COMP SURF & BL WIND STR: CPL N/M2", "", "", "", ""] +atm_stashvar[177] = ["Y-COMP SURF & BL WIND STRL CPL N/M2", "", "", "", ""] +atm_stashvar[178] = ["WIND MIX EN'GY FL TO SEA: CPL W/M2", "", "", "", ""] +atm_stashvar[179] = ["SFC SH FLX FROM OPEN SEA: CPL W/M2", "", "", "", ""] +atm_stashvar[180] = ["SUBLIM. SURFACE (GBM): CPL KG/M2/S", "", "", "", ""] +atm_stashvar[181] = ["EVAP FROM OPEN SEA: CPL KG/M2/S", "", "", "", ""] +atm_stashvar[182] = ["SEAICE SUBLIM CAT(GBM): CPL KG/M2/S", "", "", "", ""] +atm_stashvar[184] = ["Heat flx through sea ice (W/m2): CPL", "", "", "", ""] +atm_stashvar[185] = ["Heat flx in sea ice surface mlt: CPL", "", "", "", ""] +atm_stashvar[186] = ["LARGE SCALE RAIN RATE: CPL KG/M2/S", "", "", "", ""] +atm_stashvar[187] = ["LARGE SCALE SNOW RATE: CPL KG/M2/S", "", "", "", ""] +atm_stashvar[188] = ["CONVECTIVE RAIN RATE: CPL KG/M2/S", "", "", "", ""] +atm_stashvar[189] = ["CONVECTIVE SNOW RATE: CPL KG/M2/S", "", "", "", ""] +atm_stashvar[190] = ["ICEBERG CALVING FIELD: CPL KG/M2/S", "", "", "", ""] +atm_stashvar[191] = ["10 METRE WIND SPEED ON C GRID: CPL", "", "", "", ""] +atm_stashvar[192] = ["River Runoff: CPL", "", "", "", ""] +atm_stashvar[193] = ["PRESSURE AT MEAN SEA LEVEL: CPL Pa", "", "", "", ""] +atm_stashvar[194] = ["SEA SURFACE FREEZING TEMPERATURE: K", "", "", "", ""] +atm_stashvar[195] = ["Seaice surface temperature (cat): CPL (K)", "", "", "", ""] +atm_stashvar[196] = ["SURFACE LEVEL OF CO2 TRACER (MMR): CPL", "", "", "", ""] +atm_stashvar[197] = ["TOTAL DUST DEPOSITION RATE: CPL KG/M2/S", "", "", "", ""] +atm_stashvar[201] = ["PSTAR PERTURBATION- DUMMY", "", "", "", ""] +atm_stashvar[202] = ["U COMPNT PERTURBATION- DUMMY", "", "", "", ""] +atm_stashvar[203] = ["V COMPNT PERTURBATION- DUMMY", "", "", "", ""] +atm_stashvar[204] = ["THETA PERTURBATION- DUMMY", "", "", "", ""] +atm_stashvar[205] = ["FRACTIONAL LAND COVER", "", "", "", ""] +atm_stashvar[207] = ["CLAPP-HORNBERGER B COEFFICIENT", "", "", "", ""] +atm_stashvar[208] = ["LEAF AREA INDEX OF VEG FRACTION", "", "", "", ""] +atm_stashvar[209] = ["CANOPY HEIGHT OF VEGETATED FRACTION", "", "", "", ""] +atm_stashvar[211] = ["CCA WITH ANVIL AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[212] = ["CCRad : CCW passed to radiation", "", "", "", ""] +atm_stashvar[213] = ["CANOPY CONDUCTANCE AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[214] = ["UNFROZEN SOIL MOISTURE FRAC AFTER TS", "", "", "", ""] +atm_stashvar[215] = ["FROZEN SOIL MOISTURE FRAC AFTER TS", "", "", "", ""] +atm_stashvar[216] = ["FRACTIONS OF SURFACE TYPES", "landCoverFrac", "1", "area_fraction", ""] +atm_stashvar[217] = ["LEAF AREA INDEX OF PLANT FUNC TYPES", "", "", "", ""] +atm_stashvar[218] = ["CANOPY HEIGHT OF PLANT FUNC TYPES M", "", "", "", ""] +atm_stashvar[219] = ["DISTURBED FRACTION OF VEGETATION", "", "", "", ""] +atm_stashvar[220] = ["SNOW-FREE ALBEDO OF SOIL", "", "1", "", ""] +atm_stashvar[221] = ["SNOW SOOT CONTENT", "", "", "", ""] +atm_stashvar[222] = ["NET ENERGY CHANGE THIS PERIOD J/M**2", "", "", "", ""] +atm_stashvar[223] = ["SOIL CARBON CONTENT KG C / M2", "", "", "", ""] +atm_stashvar[224] = ["ACCUMULATED NPP ON PFTS", "", "", "", ""] +atm_stashvar[225] = ["ACCUMULATED LEAF TURNOVER RATE PFTS", "", "", "", ""] +atm_stashvar[226] = ["ACCUMULATED PHENOL LEAF TRNVR PFTS", "", "", "", ""] +atm_stashvar[227] = ["ACCUMULATED WOOD RESPIRATION PFTS", "", "", "", ""] +atm_stashvar[228] = ["ACCUMULATED SOIL RESPIRATION", "", "", "", ""] +atm_stashvar[229] = ["CANOPY WATER ON TILES KG/M2", "", "", "", ""] +atm_stashvar[230] = ["CANOPY CAPACITY ON TILES KG/M2", "", "", "", ""] +atm_stashvar[231] = ["SNOW GRAIN SIZE ON TILES MICRONS", "", "", "", ""] +atm_stashvar[233] = ["SURFACE TEMPERATURE ON TILES K", "ts", "K", "", "ts_tile"] +atm_stashvar[234] = ["ROUGHNESS LENGTH ON TILES M", "", "", "", ""] +atm_stashvar[235] = ["NET MOISTURE FLUX IN PERIOD KG/M**2", "", "", "", ""] +atm_stashvar[236] = ["TILE MODIFIED INFILTRATION RATE", "", "", "", ""] +atm_stashvar[237] = ["DOWNWARD SW RADIATION ON TILES W/M2", "", "", "", ""] +atm_stashvar[238] = ["SURFACE DOWNWARD LW RADIATION W/M2", "rlds", "W m-2", "surface_downwelling_longwave_flux", ""] +atm_stashvar[239] = ["TOA - SURF UPWARD LW RADIATION W/M2", "", "", "", ""] +atm_stashvar[240] = ["SNOW AMOUNT ON TILES KG/M2", "", "", "", ""] +atm_stashvar[241] = ["CANOPY SNOW CAPACITY KG/M2", "", "", "", ""] +atm_stashvar[242] = ["SNOW BENEATH CANOPY KG/M2", "", "", "", ""] +atm_stashvar[243] = ["OBS/CLIM SNOW-FREE SURF SW ALBEDO", "", "1", "", ""] +atm_stashvar[244] = ["OBS/CLIM SNOW-FREE SURF VIS ALBEDO", "", "1", "", ""] +atm_stashvar[245] = ["OBS/CLIM SNOW-FREE SURF NIR ALBEDO", "", "1", "", ""] +atm_stashvar[246] = ["THERMAL ROUGHNESS LENGTH ON TILES M", "", "", "", ""] +atm_stashvar[249] = ["TRIFFID CO2 FLUX TO ATMOS KGC/M2/YR", "", "", "", ""] +atm_stashvar[250] = ["CO2 OCEAN FLUX KG/M**2/S", "", "", "", ""] +atm_stashvar[251] = ["CO2 SURFACE EMISSIONS KG/M**2/S", "co2emiss", "kg m-2 s-1", "", ""] +atm_stashvar[252] = ["CO2 3D TRACER MASS MIXING RATIO", "co2mmr", "", "", ""] +atm_stashvar[253] = ["DENSITY*R*R AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[254] = ["QCL AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[255] = ["EXNER PRESSURE (RHO) AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[256] = ["ADVECTED U CMPT OF WIND AFTER TS", "", "", "", ""] +atm_stashvar[257] = ["ADVECTED V CMPT OF WIND AFTER TS", "", "", "", ""] +atm_stashvar[258] = ["ADVECTED W CMPT OF WIND AFTER TS", "", "", "", ""] +atm_stashvar[259] = ["NUMBER OF TURBULENT MIXING LEVELS", "", "", "", ""] +atm_stashvar[260] = ["LEVEL OF BASE OF DEEP STRATOCUMULUS", "", "", "", ""] +atm_stashvar[261] = ["LEVEL OF TOP OF DEEP STRATOCUMULUS", "", "", "", ""] +atm_stashvar[262] = ["BOUNDARY LAYER CONVECTION FLAG", "", "", "", ""] +atm_stashvar[263] = ["SD TURBULENT FLUC LAYER1 TEMP", "", "", "", ""] +atm_stashvar[264] = ["SD TURBULENT FLUC LAYER1 HUMIDITY", "", "", "", ""] +atm_stashvar[265] = ["AREA CLOUD FRACTION IN EACH LAYER", "", "", "", ""] +atm_stashvar[266] = ["BULK CLOUD FRACTION IN EACH LAYER", "", "", "", ""] +atm_stashvar[267] = ["LIQUID CLOUD FRACTION IN EACH LAYER", "", "", "", ""] +atm_stashvar[268] = ["FROZEN CLOUD FRACTION IN EACH LAYER", "", "", "", ""] +atm_stashvar[269] = ["SURFACE ZONAL CURRENT AFTER TS PGRID", "", "", "", ""] +atm_stashvar[270] = ["SURFACE MERID CURRENT AFTER TS PGRID", "", "", "", ""] +atm_stashvar[271] = ["CLOUD ICE (CRYSTALS) AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[272] = ["RAIN AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[273] = ["GRAUPEL AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[274] = ["MEAN TOPOGRAPHIC INDEX", "", "", "", ""] +atm_stashvar[275] = ["STANDARD DEVN IN TOPOGRAPHIC INDEX", "", "", "", ""] +atm_stashvar[276] = ["EXP DECAY IN SOIL SAT HYD CONDUCTY", "", "", "", ""] +atm_stashvar[277] = ["INTEGRATED GAMMA DISTRIBUTION", "", "", "", ""] +atm_stashvar[278] = ["MEAN WATER TABLE DEPTH M", "", "", "", ""] +atm_stashvar[279] = ["SURFACE SATURATION FRACTION", "", "", "", ""] +atm_stashvar[280] = ["SURFACE WETLAND FRACTION", "", "", "", ""] +atm_stashvar[281] = ["SATURATION FRAC IN DEEP LAYER", "", "", "", ""] +atm_stashvar[282] = ["A_FSAT HYDROLOGY FITTING PARAMETER", "", "", "", ""] +atm_stashvar[283] = ["C_FSAT HYDROLOGY FITTING PARAMETER", "", "", "", ""] +atm_stashvar[284] = ["A_FWET HYDROLOGY FITTING PARAMETER", "", "", "", ""] +atm_stashvar[285] = ["C_FWET HYDROLOGY FITTING PARAMETER", "", "", "", ""] +atm_stashvar[286] = ["PREVIOUS DIST FRAC OF VEGETATION", "", "", "", ""] +atm_stashvar[287] = ["FAST TURNOVER WOOD PRODUCT KGC/M2", "", "", "", ""] +atm_stashvar[288] = ["MEDIUM TURNOVER WOOD PRODUCT KGC/M2", "", "", "", ""] +atm_stashvar[289] = ["SLOW TURNOVER WOOD PRODUCT KGC/M2", "", "", "", ""] +atm_stashvar[290] = ["DAILY ACCUMULATED LAKE FLUX KG/M2", "", "", "", ""] +atm_stashvar[291] = ["LAKE DEPTH (M)", "", "", "", ""] +atm_stashvar[292] = ["LAKE FETCH (M)", "", "", "", ""] +atm_stashvar[293] = ["LAKE MEAN TEMPERATURE (K)", "", "", "", ""] +atm_stashvar[294] = ["LAKE MIXED-LAYER TEMPERATURE (K)", "", "", "", ""] +atm_stashvar[295] = ["LAKE ICE SURFACE TEMPERATURE (K)", "", "", "", ""] +atm_stashvar[296] = ["LAKE MIXED-LAYER DEPTH (M)", "", "", "", ""] +atm_stashvar[297] = ["LAKE ICE THICKNESS (M)", "", "", "", ""] +atm_stashvar[298] = ["LAKE T PROFILE SHAPE FACTOR", "", "", "", ""] +atm_stashvar[299] = ["LAKE GRD HT FLX / DTEMP (W m-2 K-1)", "", "", "", ""] +atm_stashvar[341] = ["TROPOPAUSE-BASED OZONE", "", "", "", ""] +atm_stashvar[342] = ["DEEP CONVECTIVE FLAG", "", "", "", ""] +atm_stashvar[343] = ["PAST CONVECTIVE PRECIP KG/M2/S", "", "", "", ""] +atm_stashvar[344] = ["PAST CONVECTIVE DEPTH M", "", "", "", ""] +atm_stashvar[345] = ["CCA FROM DEEP CONVECTION", "", "", "", ""] +atm_stashvar[346] = ["CCA FROM MID-LEVEL CONVECTION", "", "", "", ""] +atm_stashvar[347] = ["CCA FROM SHALLOW CONVECTION", "", "", "", ""] +atm_stashvar[348] = ["TOT PRECIP RATE AFTER TSTEP KG/M2/S", "", "", "", ""] +atm_stashvar[351] = ["CLIM BIOGENIC AEROSOL MMR", "", "", "", ""] +atm_stashvar[352] = ["CLIM BIOMASS-BURNING (FRESH) MMR", "", "", "", ""] +atm_stashvar[353] = ["CLIM BIOMASS-BURNING (AGED) MMR", "", "", "", ""] +atm_stashvar[354] = ["CLIM BIOMASS-BURNING (IN-CLOUD) MMR", "", "", "", ""] +atm_stashvar[355] = ["CLIM BLACK CARBON (FRESH) MMR", "", "", "", ""] +atm_stashvar[356] = ["CLIM BLACK CARBON (AGED) MMR", "", "", "", ""] +atm_stashvar[357] = ["CLIM SEA SALT (FILM MODE) NPM3", "", "", "", ""] +atm_stashvar[358] = ["CLIM SEA SALT (JET MODE) NPM3", "", "", "", ""] +atm_stashvar[359] = ["CLIM SULPHATE (ACCUMULATION MODE)MMR", "", "", "", ""] +atm_stashvar[360] = ["CLIM SULPHATE (AITKEN MODE) MMR", "", "", "", ""] +atm_stashvar[361] = ["CLIM SULPHATE (DISSOLVED) MMR", "", "", "", ""] +atm_stashvar[362] = ["CLIM DUST SIZE DIVISION 1 MMR", "", "", "", ""] +atm_stashvar[363] = ["CLIM DUST SIZE DIVISION 2 MMR", "", "", "", ""] +atm_stashvar[364] = ["CLIM DUST SIZE DIVISION 3 MMR", "", "", "", ""] +atm_stashvar[365] = ["CLIM DUST SIZE DIVISION 4 MMR", "", "", "", ""] +atm_stashvar[366] = ["CLIM DUST SIZE DIVISION 5 MMR", "", "", "", ""] +atm_stashvar[367] = ["CLIM DUST SIZE DIVISION 6 MMR", "", "", "", ""] +atm_stashvar[368] = ["CLIM ORG C FOSSIL FUEL (FRESH) MMR", "", "", "", ""] +atm_stashvar[369] = ["CLIM ORG C FOSSIL FUEL (AGED) MMR", "", "", "", ""] +atm_stashvar[370] = ["CLIM ORG C FOSSIL FUEL (IN-CLOUD)MMR", "", "", "", ""] +atm_stashvar[371] = ["CLIM DELTA AEROSOL MMR", "", "", "", ""] +atm_stashvar[376] = ["SNOW DEPTH ON GROUND ON TILES (M)", "", "", "", ""] +atm_stashvar[377] = ["SNOWPACK BULK DENSITY (KG M-3)", "", "", "", ""] +atm_stashvar[378] = ["SNOW ON THE CANOPY (KG M-2)", "", "", "", ""] +atm_stashvar[379] = ["SURFACE HEAT FLUX UNDER SNOW (W M-2)", "", "", "", ""] +atm_stashvar[380] = ["NUMBER OF SNOW LAYERS ON TILES", "", "", "", ""] +atm_stashvar[381] = ["SNOW LAYER THICKNESSES ON TILES (M)", "", "", "", ""] +atm_stashvar[382] = ["SNOW LYR ICE MASS ON TILES(KG M-2)", "", "", "", ""] +atm_stashvar[383] = ["SNOW LYR LIQUD MASS ON TILES(KG M-2)", "", "", "", ""] +atm_stashvar[384] = ["SNOW LAYER TEMPERATURE ON TILES (K)", "", "", "", ""] +atm_stashvar[385] = ["SNOW LAYER DENSITY ON TILES (KG M-3)", "", "", "", ""] +atm_stashvar[386] = ["SNOW LYR GRAIN SIZE ON TILES(MICRON)", "", "", "", ""] +atm_stashvar[387] = ["ETADOT AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[388] = ["THETAVD AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[389] = ["DRY RHO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[390] = ["PSIW SURFACE AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[391] = ["VAPOUR MIXING RATIO (mv) AFTER TS", "", "", "", ""] +atm_stashvar[392] = ["CLD LIQ MIXING RATIO (mcl) AFTER TS", "", "", "", ""] +atm_stashvar[393] = ["CLD ICE MIXING RATIO (mcf) AFTER TS", "", "", "", ""] +atm_stashvar[394] = ["RAIN MIXING RATIO (mr) AFTER TS", "", "", "", ""] +atm_stashvar[395] = ["GRAUPEL MIXING RATIO (mg) AFTER TS", "", "", "", ""] +atm_stashvar[396] = ["ICE CRY MIXING RAT. (mcf2) AFTER TS", "", "", "", ""] +atm_stashvar[397] = ["PSIW LID AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[398] = ["EXNER SURF AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[406] = ["EXNER PRESSURE AT THETA LEVELS", "", "", "", ""] +atm_stashvar[407] = ["PRESSURE AT RHO LEVELS AFTER TS", "", "", "", ""] +atm_stashvar[408] = ["PRESSURE AT THETA LEVELS AFTER TS", "", "", "", ""] +atm_stashvar[409] = ["SURFACE PRESSURE AFTER TIMESTEP", "ps", "Pa", "surface_air_pressure", ""] +atm_stashvar[410] = ["SW RADIATION INCREMENTS AFTER TS", "", "", "", ""] +atm_stashvar[411] = ["LW RADIATION INCREMENTS AFTER TS", "", "", "", ""] +atm_stashvar[412] = ["FRACTION OF SURFACE TYPE AFTER TS", "", "", "", ""] +atm_stashvar[413] = ["Sea ice concentration by categories", "", "", "", ""] +atm_stashvar[414] = ["Sea ice thickness GBM by categories", "", "", "", ""] +atm_stashvar[415] = ["Sea ice top layer temp by categories (K)", "", "", "", ""] +atm_stashvar[416] = ["Sea ice snow depth by categories", "", "", "", ""] +atm_stashvar[418] = ["Dust parent soil clay fraction (anc)", "", "", "", ""] +atm_stashvar[419] = ["Dust parent soil silt fraction (anc)", "", "", "", ""] +atm_stashvar[420] = ["Dust parent soil sand fraction (anc)", "", "", "", ""] +atm_stashvar[421] = ["Dust soil mass fraction div 1 (anc)", "", "", "", ""] +atm_stashvar[422] = ["Dust soil mass fraction div 2 (anc)", "", "", "", ""] +atm_stashvar[423] = ["Dust soil mass fraction div 3 (anc)", "", "", "", ""] +atm_stashvar[424] = ["Dust soil mass fraction div 4 (anc)", "", "", "", ""] +atm_stashvar[425] = ["Dust soil mass fraction div 5 (anc)", "", "", "", ""] +atm_stashvar[426] = ["Dust soil mass fraction div 6 (anc)", "", "", "", ""] +atm_stashvar[428] = ["Sea ice meltpond fraction by cats", "", "", "", ""] +atm_stashvar[429] = ["Sea ice meltpond depth by cats (m)", "", "", "", ""] +atm_stashvar[431] = ["Dust division 1 mass mixing ratio", "", "kg kg-1", "", ""] +atm_stashvar[432] = ["Dust division 2 mass mixing ratio", "", "kg kg-1", "", ""] +atm_stashvar[433] = ["Dust division 3 mass mixing ratio", "", "kg kg-1", "", ""] +atm_stashvar[434] = ["Dust division 4 mass mixing ratio", "", "kg kg-1", "", ""] +atm_stashvar[435] = ["Dust division 5 mass mixing ratio", "", "kg kg-1", "", ""] +atm_stashvar[436] = ["Dust division 6 mass mixing ratio", "", "kg kg-1", "", ""] +atm_stashvar[440] = ["Seaice surf layer cond (cat)(W/m2/K)", "", "", "", ""] +atm_stashvar[441] = ["Seaice surface temperature (cat) (K)", "", "", "", ""] +atm_stashvar[442] = ["SOIL NITROGEN POOL (DPM) KG N / M2", "", "", "", ""] +atm_stashvar[443] = ["SOIL NITROGEN POOL (RPM) KG N / M2", "", "", "", ""] +atm_stashvar[444] = ["SOIL NITROGEN POOL (BIO) KG N / M2", "", "", "", ""] +atm_stashvar[445] = ["SOIL NITROGEN POOL (HUM) KG N / M2", "", "", "", ""] +atm_stashvar[446] = ["INORGANIC SOIL NITROGEN KG N / M2", "", "", "", ""] +atm_stashvar[447] = ["NITROGEN DEPOSITION (kgN/m2/s)", "", "", "", ""] +atm_stashvar[448] = ["CROP FRACTION", "", "", "", ""] +atm_stashvar[449] = ["CROP FRAC. AT PREV. TRIFFID CALL", "", "", "", ""] +atm_stashvar[458] = ["PASTURE FRACTION", "", "", "", ""] +atm_stashvar[459] = ["PASTURE FRAC. AT PREV. TRIFFID CALL", "", "", "", ""] +atm_stashvar[460] = ["PAR increments after timestep", "", "", "", ""] +atm_stashvar[466] = ["DPM SOIL CARBON POOL KG C / M2", "", "", "", ""] +atm_stashvar[467] = ["RPM SOIL CARBON POOL KG C / M2", "", "", "", ""] +atm_stashvar[468] = ["BIO SOIL CARBON POOL KG C / M2", "", "", "", ""] +atm_stashvar[469] = ["HUM SOIL CARBON POOL KG C / M2", "", "", "", ""] +atm_stashvar[470] = ["ACCUMULATED DPM SOIL RESP", "", "", "", ""] +atm_stashvar[471] = ["ACCUMULATED RPM SOIL RESP", "", "", "", ""] +atm_stashvar[472] = ["ACCUMULATED BIO SOIL RESP", "", "", "", ""] +atm_stashvar[473] = ["ACCUMULATED HUM SOIL RESP", "", "", "", ""] +atm_stashvar[480] = ["PROGNOSTIC OZONE TRACER", "", "", "", ""] +atm_stashvar[481] = ["CARIOLLE PROD-LOSS (P-L)", "", "", "", ""] +atm_stashvar[482] = ["CARIOLLE O3 P-L WRT O3 MIX RATIO", "", "", "", ""] +atm_stashvar[483] = ["CARIOLLE O3 VOL MIXING RATIO", "", "", "", ""] +atm_stashvar[484] = ["CARIOLLE O3 P-L WRT TEMP", "", "", "", ""] +atm_stashvar[485] = ["CARIOLLE O3 CLIM TEMP", "", "", "", ""] +atm_stashvar[486] = ["CARIOLLE O3 P-L WRT O3 ABOVE PL", "", "", "", ""] +atm_stashvar[487] = ["CARIOLLE O3 COLUMN ABOVE PL", "", "", "", ""] +atm_stashvar[490] = ["DECOUPLED SCREEN TEMP ON TILES K", "", "", "", ""] +atm_stashvar[491] = ["DECOUPLED SCREEN TEMP ON SEA/ICE K", "", "", "", ""] +atm_stashvar[492] = ["TIME SINCE TRANSITION S", "", "", "", ""] +atm_stashvar[493] = ["CONVECTIVE DOWNDRAUGHT AT CLD BASE", "", "", "", ""] +atm_stashvar[494] = ["URBAN BUILDING HEIGHT", "", "", "", ""] +atm_stashvar[495] = ["URBAN HEIGHT TO WIDTH RATIO", "", "", "", ""] +atm_stashvar[496] = ["URBAN WIDTH RATIO", "", "", "", ""] +atm_stashvar[497] = ["URBAN DISPLACEMENT HEIGHT", "", "", "", ""] +atm_stashvar[498] = ["URBAN ZTM", "", "", "", ""] +atm_stashvar[499] = ["URBAN WALL ALBEDO", "", "1", "", ""] +atm_stashvar[500] = ["URBAN ROAD ALBEDO", "", "1", "", ""] +atm_stashvar[501] = ["URBAN WALL EMISSIVITY", "", "1", "", ""] +atm_stashvar[502] = ["URBAN ROAD EMISSIVITY", "", "1", "", ""] +atm_stashvar[505] = ["Land fraction in grid box", "sftlf", "1", "land_area_fraction", ""] +atm_stashvar[506] = ["LAND SURFACE TEMP AFTER TIMESTEP", "ts", "K", "surface_temperature_where_land", "ts_land"] +atm_stashvar[507] = ["OPEN SEA SURFACE TEMP AFTER TIMESTEP", "ts", "K", "surface_temperature_where_open_sea", "ts_sea"] +atm_stashvar[508] = ["SEA-ICE SURFACE TEMP AFTER TIMESTEP", "ts", "K", "surface_temperature", "ts_ice"] +atm_stashvar[509] = ["SEA ICE ALBEDO AFTER TS", "", "1", "", ""] +atm_stashvar[510] = ["MEAN LAND ALBEDO AFTER TS", "", "1", "", ""] +atm_stashvar[511] = ["INLANDBASINFLOW ATM GRID KG/M2/S", "", "", "", ""] +atm_stashvar[569] = ["COLDPOOL FRONT VECTR SUM X-CMPT(M/S)", "", "", "", ""] +atm_stashvar[570] = ["COLDPOOL FRONT VECTR SUM Y-CMPT(M/S)", "", "", "", ""] +atm_stashvar[571] = ["COLDPOOL FRONT SCALAR SUM (M/S)", "", "", "", ""] +atm_stashvar[572] = ["COLDPOOL REDUCED GRAVITY (M/S2)", "", "", "", ""] +atm_stashvar[573] = ["COLDPOOL DEPTH (M)", "", "", "", ""] +atm_stashvar[574] = ["COLDPOOL REMAIN COUNTER (ISOTROPIC)", "", "", "", ""] +atm_stashvar[575] = ["COLDPOOL REMAIN COUNTER (DIRECTED)", "", "", "", ""] +atm_stashvar[576] = ["TEMP OF TILED SUBSURFACE (K)", "", "", "", ""] +atm_stashvar[577] = ["PV tracer for radiation param", "", "", "", ""] +atm_stashvar[578] = ["PV tracer for SW param", "", "", "", ""] +atm_stashvar[579] = ["PV tracer for LW param", "", "", "", ""] +atm_stashvar[580] = ["PV tracer for microphysics param", "", "", "", ""] +atm_stashvar[581] = ["PV tracer for GWD param", "", "", "", ""] +atm_stashvar[582] = ["PV tracer for slow physics", "", "", "", ""] +atm_stashvar[583] = ["PV tracer for convection param", "", "", "", ""] +atm_stashvar[584] = ["PV tracer for Boundary Layer param", "", "", "", ""] +atm_stashvar[585] = ["PV tracer for stochastic physics", "", "", "", ""] +atm_stashvar[586] = ["PV tracer for cloud pressure", "", "", "", ""] +atm_stashvar[587] = ["PV tracer for IAU", "", "", "", ""] +atm_stashvar[588] = ["PV tracer for Nudging scheme", "", "", "", ""] +atm_stashvar[589] = ["Total dPV in a timestep", "", "", "", ""] +atm_stashvar[590] = ["PV tracer for advection", "", "", "", ""] +atm_stashvar[591] = ["PV tracer for Helmholtz solver", "", "", "", ""] +atm_stashvar[592] = ["PV tracer for Mass update", "", "", "", ""] +atm_stashvar[593] = ["Advection only PV", "", "", "", ""] +atm_stashvar[595] = ["BL PERT SCHEME RANDOM NUMB FIELD", "", "", "", ""] +atm_stashvar[596] = ["BL PERT SCHEME FLAG", "", "", "", ""] +atm_stashvar[600] = ["Theta tracer for initial theta", "", "", "", ""] +atm_stashvar[601] = ["Theta tracer for BL", "", "", "", ""] +atm_stashvar[602] = ["Theta tracer for BL mixing", "", "", "", ""] +atm_stashvar[603] = ["Theta tracer for BL Latent Heat", "", "", "", ""] +atm_stashvar[604] = ["Theta tracer for Convection", "", "", "", ""] +atm_stashvar[605] = ["Theta tracer for microphysics", "", "", "", ""] +atm_stashvar[606] = ["Theta tracer for radiation", "", "", "", ""] +atm_stashvar[607] = ["Theta tracer for SW radiation", "", "", "", ""] +atm_stashvar[608] = ["Theta tracer for LW radiation", "", "", "", ""] +atm_stashvar[609] = ["Theta tracer for slow physics", "", "", "", ""] +atm_stashvar[610] = ["Theta tracer for cloud rebalancing", "", "", "", ""] +atm_stashvar[1004] = ["TEMPERATURE AFTER SW RAD INCREMENTS", "", "", "", ""] +atm_stashvar[1101] = ["HORIZON ANGLE 1 (N)", "", "", "", ""] +atm_stashvar[1102] = ["HORIZON ANGLE 2 (NE)", "", "", "", ""] +atm_stashvar[1103] = ["HORIZON ANGLE 3 (E)", "", "", "", ""] +atm_stashvar[1104] = ["HORIZON ANGLE 4 (SE)", "", "", "", ""] +atm_stashvar[1105] = ["HORIZON ANGLE 5 (S)", "", "", "", ""] +atm_stashvar[1106] = ["HORIZON ANGLE 6 (SW)", "", "", "", ""] +atm_stashvar[1107] = ["HORIZON ANGLE 7 (W)", "", "", "", ""] +atm_stashvar[1108] = ["HORIZON ANGLE 8 (NW)", "", "", "", ""] +atm_stashvar[1109] = ["HORIZON ANGLE 9 (NNE)", "", "", "", ""] +atm_stashvar[1110] = ["HORIZON ANGLE 10 (ENE)", "", "", "", ""] +atm_stashvar[1111] = ["HORIZON ANGLE 11 (ESE)", "", "", "", ""] +atm_stashvar[1112] = ["HORIZON ANGLE 12 (SSE)", "", "", "", ""] +atm_stashvar[1113] = ["HORIZON ANGLE 13 (SSW)", "", "", "", ""] +atm_stashvar[1114] = ["HORIZON ANGLE 14 (WSW)", "", "", "", ""] +atm_stashvar[1115] = ["HORIZON ANGLE 15 (WNW)", "", "", "", ""] +atm_stashvar[1116] = ["HORIZON ANGLE 16 (NNW)", "", "", "", ""] +atm_stashvar[1130] = ["SOLID ANGLE FOR TRANSIT OBSERVER 1AU", "", "", "", ""] +atm_stashvar[1140] = ["COS SOLAR ZENITH ANGLE: MODEL TSTEP", "", "", "", ""] +atm_stashvar[1141] = ["DAYLIGHT FRACTION OF MODEL TIMESTEP", "", "", "", ""] +atm_stashvar[1142] = ["COS SOLAR ZENITH ANGLE: RAD TIMESTEP", "", "", "", ""] +atm_stashvar[1143] = ["DAYLIGHT FRACTION OF RADIATION TSTEP", "", "", "", ""] +atm_stashvar[1161] = ["TEMPERATURE INCR: swrad MINUS LH PC2", "", "", "", ""] +atm_stashvar[1181] = ["TEMPERATURE INCR: swrad scheme", "", "", "", ""] +atm_stashvar[1182] = ["SPECIFIC HUMIDITY INCR: swrad scheme", "", "", "", ""] +atm_stashvar[1183] = ["QCL INCR: swrad scheme", "", "", "", ""] +atm_stashvar[1192] = ["BULK CLOUD VOL INCR: swrad scheme", "", "", "", ""] +atm_stashvar[1193] = ["LIQUID CLOUD VOL INCR: swrad scheme", "", "", "", ""] +atm_stashvar[1194] = ["QCL INCR: swrad positive", "", "", "", ""] +atm_stashvar[1195] = ["QCL INCR: swrad negative", "", "", "", ""] +atm_stashvar[1198] = ["LIQ CLOUD VOL INCR: swrad positive", "", "", "", ""] +atm_stashvar[1199] = ["LIQ CLOUD VOL INCR: swrad negative", "", "", "", ""] +atm_stashvar[1200] = ["LIT MASK FOR SW RADIATION TIMESTEP", "", "", "", ""] +atm_stashvar[1201] = ["NET DOWN SURFACE SW FLUX: SW TS ONLY", "rss", "W m-2", "surface_net_downward_shortwave_flux", ""] +atm_stashvar[1202] = ["NET DOWN SURFACE SW FLUX: CORRECTED", "rss", "W m-2", "surface_net_downward_shortwave_flux", "rss_corr"] +atm_stashvar[1203] = ["NET DN SW RAD FLUX:OPEN SEA:SEA MEAN", "rss_sea", "", "", ""] +atm_stashvar[1204] = ["NET DOWN SURFACE SW FLUX BELOW 690NM", "", "", "", ""] +atm_stashvar[1205] = ["OUTGOING SW RAD FLUX (TOA):CORRECTED", "", "", "", ""] +atm_stashvar[1207] = ["INCOMING SW RAD FLUX (TOA): ALL TSS", "rsdt", "W m-2", "toa_incoming_shortwave_flux", ""] +atm_stashvar[1208] = ["OUTGOING SW RAD FLUX (TOA)", "rsut", "W m-2", "toa_outgoing_shortwave_flux", ""] +atm_stashvar[1209] = ["CLEAR-SKY (II) UPWARD SW FLUX (TOA)", "rsutcs", "W m-2", "toa_outgoing_shortwave_flux_assuming_clear_sky", ""] +atm_stashvar[1210] = ["CLEAR-SKY (II) DOWN SURFACE SW FLUX", "rsdscs", "W m-2", "surface_downwelling_shortwave_flux_in_air_assuming_clear_sky", ""] +atm_stashvar[1211] = ["CLEAR-SKY (II) UP SURFACE SW FLUX", "rsuscs", "W m-2", "surface_upwelling_shortwave_flux_in_air_assuming_clear_sky", ""] +atm_stashvar[1212] = ["DIRECT UV FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1213] = ["UPWARDS UV FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1214] = ["DOWNWARDS UV FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1215] = ["DIRECT SURFACE SW FLUX : CORRECTED", "", "", "", ""] +atm_stashvar[1216] = ["DIFFUSE SURFACE SW FLUX : CORRECTED", "", "", "", ""] +atm_stashvar[1217] = ["UPWARD SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1218] = ["DOWNWARD SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1219] = ["CLEAR-SKY UPWARD SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1220] = ["CLEAR-SKY DOWNWARD SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1221] = ["LAYER CLD LIQ RE * LAYER CLD WEIGHT", "", "", "", ""] +atm_stashvar[1223] = ["LAYER CLOUD WEIGHT FOR MICROPHYSICS", "", "", "", ""] +atm_stashvar[1224] = ["LAYER CLD LIQUID WATER PATH * WEIGHT", "", "", "", ""] +atm_stashvar[1225] = ["CONV CLOUD LIQ RE * CONV CLD WEIGHT", "", "", "", ""] +atm_stashvar[1226] = ["CONV CLOUD WEIGHT FOR MICROPHYSICS", "", "", "", ""] +atm_stashvar[1228] = ["CLEAR UPWARD SW AT TOA * AREA WEIGHT", "", "", "", ""] +atm_stashvar[1229] = ["CLEAR-SKY SW AREA WEIGHT", "", "", "", ""] +atm_stashvar[1230] = ["DIRECT SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1231] = ["DIFFUSE SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1232] = ["SW HEATING RATES: ALL TIMESTEPS", "", "", "", ""] +atm_stashvar[1233] = ["CLEAR-SKY SW HEATING RATES", "", "", "", ""] +atm_stashvar[1235] = ["TOTAL DOWNWARD SURFACE SW FLUX", "rsds", "W m-2", "surface_downwelling_shortwave_flux_in_air", ""] +atm_stashvar[1237] = ["NET DOWNWARD SW FLUX AT THE TROP.", "", "W m-2", "", ""] +atm_stashvar[1238] = ["UPWARD SW FLUX AT THE TROPOPAUSE", "", "W m-2", "", ""] +atm_stashvar[1241] = ["DROPLET NUMBER CONC * LYR CLOUD WGT", "", "", "", ""] +atm_stashvar[1242] = ["LAYER CLOUD LWC * LAYER CLOUD WEIGHT", "", "", "", ""] +atm_stashvar[1243] = ["SO4 CCN KG/M3 * COND SAMPLING WEIGHT", "", "", "", ""] +atm_stashvar[1244] = ["CONDITIONAL SAMPLING WEIGHT", "", "", "", ""] +atm_stashvar[1245] = ["2-D RE DISTRIBUTION * 2-D RE WEIGHT", "", "", "", ""] +atm_stashvar[1246] = ["WEIGHT FOR 2-D RE DISTRIBUTION", "", "", "", ""] +atm_stashvar[1247] = ["FILM-MODE SEA-SALT AEROSOL NUMBER", "", "", "", ""] +atm_stashvar[1248] = ["JET-MODE SEA-SALT AEROSOL NUMBER", "", "", "", ""] +atm_stashvar[1254] = ["2-D RE * WEIGHT - WARM CLOUDS ONLY", "", "", "", ""] +atm_stashvar[1255] = ["WEIGHT FOR WARM CLOUD 2-D RE", "", "", "", ""] +atm_stashvar[1257] = ["NET DOWN SW FLUX: LAND", "rss", "W m-2", "surface_net_downward_shortwave_flux", ""] +atm_stashvar[1258] = ["NET DN SW FLX:SEAICE:SEA MEAN", "", "W m-2", "", ""] +atm_stashvar[1259] = ["NET DN SW SOLID SFC FLUX BELOW 690NM", "", "W m-2", "", ""] +atm_stashvar[1260] = ["NET DN SW O SEA FLX BLW 690NM:SEA MN", "", "W m-2", "", ""] +atm_stashvar[1262] = ["WEIGHTED SW CLOUD EXTINCTION", "", "", "", ""] +atm_stashvar[1263] = ["WEIGHTS FOR CLOUD SW EXTINCTION", "", "", "", ""] +atm_stashvar[1264] = ["WEIGHTED SW LAYER CLOUD EXTINCTION", "", "", "", ""] +atm_stashvar[1265] = ["WEIGHTS FOR LAYER CLD SW EXTINCTION", "", "", "", ""] +atm_stashvar[1266] = ["WEIGHTED SW CONV. CLOUD EXTINCTION", "", "", "", ""] +atm_stashvar[1267] = ["WEIGHTS FOR CONV.CLD SW EXTINCTION", "", "", "", ""] +atm_stashvar[1268] = ["DIRECT SURFACE ALBEDO ON SW BANDS", "", "1", "", ""] +atm_stashvar[1269] = ["DIFFUSE SURFACE ALBEDO ON SW BANDS", "", "1", "", ""] +atm_stashvar[1270] = ["VIS ALBEDO SCALING TO OBS ON TILES", "", "1", "", ""] +atm_stashvar[1271] = ["NIR ALBEDO SCALING TO OBS ON TILES", "", "1", "", ""] +atm_stashvar[1272] = ["DIRECT FLUX FOR SPHERICAL GEOMETRY", "", "", "", ""] +atm_stashvar[1273] = ["CLEAR DIRECT FLUX (SPHERICAL GEOM)", "", "", "", ""] +atm_stashvar[1274] = ["CLEAN DIRECT FLUX (SPHERICAL GEOM)", "", "", "", ""] +atm_stashvar[1275] = ["CLEAR-CLEAN DIRECT FLUX (SPH GEOM)", "", "", "", ""] +atm_stashvar[1276] = ["DIRECT FLUX DIVERGENCE OVER LAYERS", "", "", "", ""] +atm_stashvar[1277] = ["CLEAR-SKY DIRECT FLUX DIVERGENCE", "", "", "", ""] +atm_stashvar[1278] = ["CLEAN-AIR DIRECT FLUX DIVERGENCE", "", "", "", ""] +atm_stashvar[1279] = ["CLEAR-CLEAN DIRECT FLUX DIVERGENCE", "", "", "", ""] +atm_stashvar[1280] = ["COLUMN-INTEGRATED Nd * SAMP. WEIGHT", "", "", "", ""] +atm_stashvar[1281] = ["SAMP. WEIGHT FOR COL. INT. Nd", "", "", "", ""] +atm_stashvar[1288] = ["DOWNWARD SURFACE UV FLUX", "", "W m-2", "", ""] +atm_stashvar[1289] = ["CLEAR-SKY DOWNWARD SURFACE UV FLUX", "", "W m-2", "", ""] +atm_stashvar[1290] = ["TOTAL DOWNWARD PAR FLUX AT SURFACE", "", "W m-2", "", ""] +atm_stashvar[1291] = ["DIRECT COMPONENT OF SURF PAR FLUX", "", "", "", ""] +atm_stashvar[1292] = ["MEAN SOLAR BEARING OVER RAD TS", "", "", "", ""] +atm_stashvar[1293] = ["SLOPE ASPECT", "", "", "", ""] +atm_stashvar[1294] = ["SLOPE ANGLE", "", "", "", ""] +atm_stashvar[1295] = ["OROG CORR FACTOR TO DIRECT SURF SW", "", "", "", ""] +atm_stashvar[1296] = ["EXTRA SW SURF FLUX AFTER OROG CORR", "", "", "", ""] +atm_stashvar[1298] = ["CDNC @CLOUD TOP * WEIGHT", "", "", "", ""] +atm_stashvar[1299] = ["WEIGHT FOR CDNC @CLOUD TOP", "", "", "", ""] +atm_stashvar[1408] = ["OUTGOING SW RAD FORCING (TOA)", "", "", "", ""] +atm_stashvar[1409] = ["CLEAR-SKY (II) UPWARD SW FORC.(TOA)", "", "W m-2", "", ""] +atm_stashvar[1410] = ["CLEAR-SKY (II) DOWN SURF. SW FORC.", "", "W m-2", "", ""] +atm_stashvar[1411] = ["CLEAR-SKY (II) UP SURF. SW FORC.", "", "W m-2", "", ""] +atm_stashvar[1417] = ["UPWARD SW FLUX ON LEVELS W/ FORCING", "", "W m-2", "", ""] +atm_stashvar[1418] = ["DOWNWARD SW FLUX ON LEVELS W/ FORC", "", "W m-2", "", ""] +atm_stashvar[1419] = ["CLEAR-SKY UP SW ON LEVELS W/ FORCING", "", "W m-2", "", ""] +atm_stashvar[1420] = ["CLEAR-SKY DOWN SW ON LEVELS W/ FORC", "", "W m-2", "", ""] +atm_stashvar[1433] = ["CLEAR-SKY SW HEATING RATES W/ FORC", "", "", "", ""] +atm_stashvar[1435] = ["TOTAL DOWNWARD SURF. SW FORCING", "", "", "", ""] +atm_stashvar[1437] = ["NET DOWNWARD SW AT TROP. W/ FORCING", "", "W m-2", "", ""] +atm_stashvar[1438] = ["UPWARD SW AT TROPOPAUSE W/ FORCING", "", "W m-2", "", ""] +atm_stashvar[1472] = ["DIRECT FLUX SPHERICAL GEOM 2nd CALL", "", "", "", ""] +atm_stashvar[1473] = ["CLEAR DIRECT FLUX SPH GEOM 2nd CALL", "", "", "", ""] +atm_stashvar[1474] = ["CLEAN DIRECT FLUX SPH GEOM 2nd CALL", "", "", "", ""] +atm_stashvar[1475] = ["CLR-CLN DIRECT FLX SPH GEOM 2nd CALL", "", "", "", ""] +atm_stashvar[1476] = ["DIRECT FLUX DIVERGENCE 2nd CALL", "", "", "", ""] +atm_stashvar[1477] = ["CLEAR-SKY DIRECT FLUX DIV 2nd CALL", "", "", "", ""] +atm_stashvar[1478] = ["CLEAN-AIR DIRECT FLUX DIV 2nd CALL", "", "", "", ""] +atm_stashvar[1479] = ["CLEAR-CLEAN DIRECT FLUX DIV 2nd CALL", "", "", "", ""] +atm_stashvar[1500] = ["SW DOWN OVER ICE, WGHTD (cats)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[1501] = ["SW DOWN OVER ICE, WGHTD (aggr)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[1502] = ["SW UP OVER ICE, WGHTED (cats)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[1503] = ["SW UP OVER ICE, WGHTED (aggr)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[1504] = ["SEA ICE ALBEDO, WEIGHTED (cats)", "", "1", "", ""] +atm_stashvar[1505] = ["SEA ICE ALBEDO, WEIGHTED (aggregate)", "", "1", "", ""] +atm_stashvar[1506] = ["TOTAL AOD IN LAYERS AND SW BANDS", "", "1", "", ""] +atm_stashvar[1507] = ["TOTAL SCATTERING AOD LAYERS/SW BANDS", "", "1", "", ""] +atm_stashvar[1508] = ["AERO ASYM (WGTD) IN LAYERS/SW BANDS", "", "", "", ""] +atm_stashvar[1509] = ["UPWARD SW FLUX ON LEVELS AND BANDS", "", "", "", ""] +atm_stashvar[1510] = ["DOWNWARD SW FLUX ON LEVELS AND BANDS", "", "", "", ""] +atm_stashvar[1511] = ["CLEAR UP SW FLUX ON LEVELS AND BANDS", "", "", "", ""] +atm_stashvar[1512] = ["CLEAR DOWN SW FLUX ON LEVS AND BANDS", "", "", "", ""] +atm_stashvar[1513] = ["SW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1514] = ["CLEAR-SKY SW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1515] = ["CLEAN-AIR SW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1516] = ["CLEAR-CLEAN SW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1517] = ["CLEAN-AIR UPWARD SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1518] = ["CLEAN-AIR DOWNWARD SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1519] = ["CLEAR-CLEAN UPWARD SW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[1520] = ["CLEAR-CLEAN DOWNWARD SW FLUX ON LEVS", "", "", "", ""] +atm_stashvar[1521] = ["UPWARD SW FLUX ON LEVELS W/ GHG FORC", "", "", "", ""] +atm_stashvar[1522] = ["DOWNWARD SW FLUX ON LEVS W/ GHG FORC", "", "", "", ""] +atm_stashvar[1523] = ["CLEAR UP SW FLUX ON LEVS W/ GHG FORC", "", "", "", ""] +atm_stashvar[1524] = ["CLR DOWN SW FLUX ON LEVS W/ GHG FORC", "", "", "", ""] +atm_stashvar[1525] = ["UP SW FLUX LEVS/BANDS W/ GHG FORC", "", "", "", ""] +atm_stashvar[1526] = ["DOWN SW FLUX LEVS/BANDS W/ GHG FORC", "", "", "", ""] +atm_stashvar[1527] = ["CLR UP SW FLUX LEVS/BNDS W/ GHG FORC", "", "", "", ""] +atm_stashvar[1528] = ["CLR DOWN SW FLUX LVS/BNDS W/GHG FORC", "", "", "", ""] +atm_stashvar[1529] = ["DIRECT FLUX SPH GEOM W/ GHG FORCING", "", "", "", ""] +atm_stashvar[1530] = ["CLR DIRECT FLUX SPH GEOM W/ GHG FORC", "", "", "", ""] +atm_stashvar[1531] = ["DIRECT FLUX DIVERGENCE W/ GHG FORC", "", "", "", ""] +atm_stashvar[1532] = ["CLEAR DIRECT FLUX DIV W/ GHG FORCING", "", "", "", ""] +atm_stashvar[1533] = ["DIRECT FLUX SPH BANDS W/ GHG FORCING", "", "", "", ""] +atm_stashvar[1534] = ["CLR DIRECT FLUX SPH BANDS W/GHG FORC", "", "", "", ""] +atm_stashvar[1535] = ["DIRECT FLUX DIV BANDS W/ GHG FORCING", "", "", "", ""] +atm_stashvar[1536] = ["CLR DIRECT FLUX DIV BANDS W/GHG FORC", "", "", "", ""] +atm_stashvar[1537] = ["DIRECT FLUX (SPHERICAL GEOM) BANDS", "", "", "", ""] +atm_stashvar[1538] = ["CLEAR DIRECT FLUX (SPH GEOM) BANDS", "", "", "", ""] +atm_stashvar[1539] = ["CLEAN DIRECT FLUX (SPH GEOM) BANDS", "", "", "", ""] +atm_stashvar[1540] = ["CLR-CLN DIRECT FLUX (SPH GEOM) BANDS", "", "", "", ""] +atm_stashvar[1541] = ["DIRECT FLUX DIVERGENCE ON BANDS", "", "", "", ""] +atm_stashvar[1542] = ["CLEAR-SKY DIRECT FLUX DIV ON BANDS", "", "", "", ""] +atm_stashvar[1543] = ["CLEAN-AIR DIRECT FLUX DIV ON BANDS", "", "", "", ""] +atm_stashvar[1544] = ["CLEAR-CLEAN DIRECT FLUX DIV ON BANDS", "", "", "", ""] +atm_stashvar[1545] = ["CLEAN-AIR UP SW FLUX ON LEVELS/BANDS", "", "", "", ""] +atm_stashvar[1546] = ["CLEAN-AIR DOWN SW FLUX LEVELS/BANDS", "", "", "", ""] +atm_stashvar[1547] = ["CLEAR-CLEAN UP SW FLUX LEVELS/BANDS", "", "", "", ""] +atm_stashvar[1548] = ["CLEAR-CLEAN DOWN SW FLUX LEVS/BANDS", "", "", "", ""] +atm_stashvar[1550] = ["EASYAEROSOL EXTINCTION ON SW BANDS", "", "", "", ""] +atm_stashvar[1551] = ["EASYAEROSOL ABSORPTION ON SW BANDS", "", "", "", ""] +atm_stashvar[1552] = ["EASYAEROSOL SCATTERING ON SW BANDS", "", "", "", ""] +atm_stashvar[1553] = ["EASYAEROSOL ASY*SCA ON SW BANDS", "", "", "", ""] +atm_stashvar[1555] = ["TRANSMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1556] = ["CLEAR-SKY TRANSMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1557] = ["CLEAN-AIR TRANSMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1558] = ["CLEAR-CLEAN TRANSMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[1709] = ["UPWARD SW FLUX LEVS/BANDS W/ FORCING", "", "", "", ""] +atm_stashvar[1710] = ["DOWNWARD SW FLUX LEVS/BANDS W/ FORC", "", "", "", ""] +atm_stashvar[1711] = ["CLEAR UP SW FLUX LEVS/BANDS W/ FORC", "", "", "", ""] +atm_stashvar[1712] = ["CLEAR DOWN SW FLUX LEVS/BNDS W/ FORC", "", "", "", ""] +atm_stashvar[1713] = ["SW EMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[1714] = ["CLEAR SW EMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[1715] = ["CLEAN SW EMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[1716] = ["CLR-CLN SW EMISSION SPEC 2nd CALL", "", "", "", ""] +atm_stashvar[1717] = ["CLEAN-AIR UPWARD SW FLUX 2nd CALL", "", "", "", ""] +atm_stashvar[1718] = ["CLEAN-AIR DOWNWARD SW FLUX 2nd CALL", "", "", "", ""] +atm_stashvar[1719] = ["CLEAR-CLEAN UPWARD SW FLUX 2nd CALL", "", "", "", ""] +atm_stashvar[1720] = ["CLEAR-CLEAN DOWN SW FLUX 2nd CALL", "", "", "", ""] +atm_stashvar[1737] = ["DIRECT FLUX SPH GEOM BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1738] = ["CLEAR DIRECT FLUX SPH BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1739] = ["CLEAN DIRECT FLUX SPH BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1740] = ["CLR-CLN DIRECT FLX SPH BAND 2nd CALL", "", "", "", ""] +atm_stashvar[1741] = ["DIRECT FLUX DIV ON BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1742] = ["CLEAR DIRECT FLUX DIV BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1743] = ["CLEAN DIRECT FLUX DIV BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1744] = ["CLR-CLN DIRECT FLX DIV BAND 2nd CALL", "", "", "", ""] +atm_stashvar[1745] = ["CLEAN UP SW FLUX ON BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1746] = ["CLEAN DOWN SW FLUX ON BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1747] = ["CLR-CLN UP SW FLUX ON BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1748] = ["CLR-CLN DOWN SW FLUX BANDS 2nd CALL", "", "", "", ""] +atm_stashvar[1755] = ["TRANSMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[1756] = ["CLEAR TRANSMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[1757] = ["CLEAN TRANSMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[1758] = ["CLR-CLN TRANSMISSION SPEC 2nd CALL", "", "", "", ""] +atm_stashvar[2004] = ["TEMPERATURE AFTER LW RAD INCREMENTS", "", "", "", ""] +atm_stashvar[2101] = ["SKYVIEW FACTOR", "", "", "", ""] +atm_stashvar[2110] = ["MASS USED FOR RAD LAYERS (kg/m2)", "", "", "", ""] +atm_stashvar[2111] = ["DENSITY USED FOR RAD LAYERS (kg/m3)", "", "", "", ""] +atm_stashvar[2112] = ["HEAT CAPACITY OF RAD LAYERS (J/K.m2)", "", "", "", ""] +atm_stashvar[2113] = ["PRESSURE USED FOR RAD LAYERS (Pa)", "", "", "", ""] +atm_stashvar[2114] = ["TEMPERATURE USED FOR RAD LAYERS (K)", "", "", "", ""] +atm_stashvar[2115] = ["PRESSURE USED FOR RAD LEVELS (Pa)", "", "", "", ""] +atm_stashvar[2116] = ["TEMPERATURE USED FOR RAD LEVELS (K)", "", "", "", ""] +atm_stashvar[2130] = ["SOLID ANGLE FOR OBSERVER AT 1AU", "", "", "", ""] +atm_stashvar[2161] = ["TEMPERATURE INCR: lwrad MINUS LH PC2", "", "", "", ""] +atm_stashvar[2181] = ["TEMPERATURE INCR: lwrad scheme", "", "", "", ""] +atm_stashvar[2182] = ["SPECIFIC HUMIDITY INCR: lwrad scheme", "", "", "", ""] +atm_stashvar[2183] = ["QCL INCR: lwrad scheme", "", "", "", ""] +atm_stashvar[2192] = ["BULK CLOUD VOL INCR: lwrad scheme", "", "", "", ""] +atm_stashvar[2193] = ["LIQUID CLOUD VOL INCR: lwrad scheme", "", "", "", ""] +atm_stashvar[2194] = ["QCL INCR: lwrad positive", "", "", "", ""] +atm_stashvar[2195] = ["QCL INCR: lwrad negative", "", "", "", ""] +atm_stashvar[2198] = ["LIQ CLOUD VOL INCR: lwrad positive", "", "", "", ""] +atm_stashvar[2199] = ["LIQ CLOUD VOL INCR: lwrad negative", "", "", "", ""] +atm_stashvar[2201] = ["NET DOWN SURFACE LW RAD FLUX", "rls", "W m-2", "surface_net_downward_longwave_flux", ""] +atm_stashvar[2203] = ["NET DN LW RAD FLUX:OPEN SEA:SEA MEAN", "", "", "", ""] +atm_stashvar[2204] = ["TOTAL CLOUD AMOUNT IN LW RADIATION", "clt", "1", "cloud_area_fraction", ""] +atm_stashvar[2205] = ["OUTGOING LW RAD FLUX (TOA)", "rlut", "W m-2", "toa_outgoing_longwave_flux", ""] +atm_stashvar[2206] = ["CLEAR-SKY (II) UPWARD LW FLUX (TOA)", "rlutcs", "W m-2", "toa_outgoing_longwave_flux_assuming_clear_sky", ""] +atm_stashvar[2207] = ["DOWNWARD LW RAD FLUX: SURFACE", "rlds", "W m-2", "surface_downwelling_longwave_flux_in_air", ""] +atm_stashvar[2208] = ["CLEAR-SKY (II) DOWN SURFACE LW FLUX", "rldscs", "W m-2", "surface_downwelling_longwave_flux_in_air_assuming_clear_sky", ""] +atm_stashvar[2217] = ["UPWARD LW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[2218] = ["DOWNWARD LW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[2219] = ["CLEAR-SKY UPWARD LW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[2220] = ["CLEAR-SKY DOWNWARD LW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[2228] = ["CLEAR UPWARD LW AT TOA * AREA WEIGHT", "", "", "", ""] +atm_stashvar[2229] = ["CLEAR-SKY LW AREA WEIGHT", "", "", "", ""] +atm_stashvar[2232] = ["LW HEATING RATES", "", "", "", ""] +atm_stashvar[2233] = ["CLEAR-SKY LW HEATING RATES", "", "", "", ""] +atm_stashvar[2237] = ["NET DOWNWARD LW FLUX AT THE TROP.", "", "", "", ""] +atm_stashvar[2238] = ["DOWNWARD LW FLUX AT THE TROPOPAUSE", "", "", "", ""] +atm_stashvar[2240] = ["AITKEN (SOLUBLE) ABS OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2241] = ["ACCUM (SOLUBLE) ABS OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2242] = ["COARSE (SOLUBLE) ABS OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2243] = ["AITKEN (INSOL) ABS OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2244] = ["ACCUM (INSOL) ABS OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2245] = ["COARSE (INSOL) ABS OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2251] = ["AITKEN MODE (SOLUBLE) STRATO AOD", "", "1", "", ""] +atm_stashvar[2252] = ["ACCUM MODE (SOLUBLE) STRATO AOD", "", "1", "", ""] +atm_stashvar[2253] = ["COARSE MODE (SOLUBLE) STRATO AOD", "", "1", "", ""] +atm_stashvar[2254] = ["AITKEN MODE (INSOL) STRATO AOD", "", "1", "", ""] +atm_stashvar[2255] = ["ACCUM MODE (INSOL) STRATO AOD", "", "1", "", ""] +atm_stashvar[2256] = ["COARSE MODE (INSOL) STRATO AOD", "", "1", "", ""] +atm_stashvar[2260] = ["OZONE MASS MIXING RATIO AFTER LW", "", "", "", ""] +atm_stashvar[2261] = ["TOTAL CLOUD AMOUNT ON LEVELS", "", "", "", ""] +atm_stashvar[2262] = ["WEIGHTED CLOUD ABSORPTIVITY", "", "", "", ""] +atm_stashvar[2263] = ["WEIGHTS FOR CLOUD ABSORPTIVITY", "", "", "", ""] +atm_stashvar[2264] = ["WEIGHTED LAYER CLOUD ABSORPTIVITY", "", "", "", ""] +atm_stashvar[2265] = ["WEIGHTS FOR LAYER CLD ABSORPTIVITY", "", "", "", ""] +atm_stashvar[2266] = ["WEIGHTED CONV.CLOUD ABSORPTIVITY", "", "", "", ""] +atm_stashvar[2267] = ["WEIGHTS FOR CONV.CLOUD ABSORPTIVITY", "", "", "", ""] +atm_stashvar[2269] = ["ISCCP CLOUD WEIGHTS", "", "", "", ""] +atm_stashvar[2270] = ["ISCCP CLOUD 0.3 <= tau", "", "", "", ""] +atm_stashvar[2271] = ["ISCCP CLOUD tau < 0.3", "", "", "", ""] +atm_stashvar[2272] = ["ISCCP CLOUD 0.3 <= tau < 1.3", "", "", "", ""] +atm_stashvar[2273] = ["ISCCP CLOUD 1.3 <= tau < 3.6", "", "", "", ""] +atm_stashvar[2274] = ["ISCCP CLOUD 3.6 <= tau < 9.4", "", "", "", ""] +atm_stashvar[2275] = ["ISCCP CLOUD 9.4 <= tau < 23.0", "", "", "", ""] +atm_stashvar[2276] = ["ISCCP CLOUD 23.0 <= tau < 60.0", "", "", "", ""] +atm_stashvar[2277] = ["ISCCP CLOUD 60.0 <= tau", "", "", "", ""] +atm_stashvar[2280] = ["Ozone Tropopause Index", "", "", "", ""] +atm_stashvar[2281] = ["Ozone Tropopause Height", "", "", "", ""] +atm_stashvar[2282] = ["Thermal Tropopause Index", "", "", "", ""] +atm_stashvar[2283] = ["Thermal Tropopause Height", "", "", "", ""] +atm_stashvar[2284] = ["SULPHATE OPTICAL DEPTH IN RADIATION", "aod_so4", "1", "", ""] +atm_stashvar[2285] = ["MINERAL DUST OPTICAL DEPTH IN RADN.", "aod_dust", "1", "", ""] +atm_stashvar[2286] = ["SEA SALT OPTICAL DEPTH IN RADIATION", "aod_ss", "1", "", ""] +atm_stashvar[2287] = ["SOOT OPTICAL DEPTH IN RADIATION", "aod_bc", "1", "", ""] +atm_stashvar[2288] = ["BIOMASS OPTICAL DEPTH IN RADIATION", "aod_biomass", "1", "", ""] +atm_stashvar[2289] = ["BIOGENIC OPTICAL DEPTH IN RADIATION", "aod_biogenic", "1", "", ""] +atm_stashvar[2290] = ["WEIGHTED ISCCP CLOUD ALBEDO", "", "1", "", ""] +atm_stashvar[2291] = ["WEIGHTED ISCCP CLOUD OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2292] = ["WEIGHTED ISCCP CLOUD TOP PRESSURE", "", "", "", ""] +atm_stashvar[2293] = ["WEIGHTED ISCCP TOTAL CLOUD AREA", "", "", "", ""] +atm_stashvar[2295] = ["FOSSIL FUEL ORG C OPTIC DEPTH IN RAD", "", "1", "", ""] +atm_stashvar[2296] = ["DELTA AEROSOL OPTICAL DEPTH IN RADN.", "", "1", "", ""] +atm_stashvar[2297] = ["AMMONIUM NITRATE OPTICAL DEPTH RADN.", "1", "", "", ""] +atm_stashvar[2298] = ["TOTAL OPTICAL DEPTH IN RADIATION", "", "1", "", ""] +atm_stashvar[2299] = ["ANGSTROM FROM TOTAL AOD IN RADIATION", "", "", "", ""] +atm_stashvar[2300] = ["AITKEN MODE (SOLUBLE) OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2301] = ["ACCUM MODE (SOLUBLE) OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2302] = ["COARSE MODE (SOLUBLE) OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2303] = ["AITKEN MODE (INSOL) OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2304] = ["ACCUM MODE (INSOL) OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2305] = ["COARSE MODE (INSOL) OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2308] = ["GRIDBOX LSC Qcl IN RADIATION KG/KG", "", "", "", ""] +atm_stashvar[2309] = ["GRIDBOX LSC Qcf IN RADIATION KG/KG", "", "", "", ""] +atm_stashvar[2310] = ["GRIDBOX CNV Qcl IN RADIATION KG/KG", "", "", "", ""] +atm_stashvar[2311] = ["GRIDBOX CNV Qcf IN RADIATION KG/KG", "", "", "", ""] +atm_stashvar[2312] = ["GRIDBOX LIQ LSC CF IN RADIATION", "", "", "", ""] +atm_stashvar[2313] = ["GRIDBOX ICE LSC CF IN RADIATION", "", "", "", ""] +atm_stashvar[2314] = ["GRIDBOX LIQ CCA IN RADIATION", "", "", "", ""] +atm_stashvar[2315] = ["GRIDBOX ICE CCA IN RADIATION", "", "", "", ""] +atm_stashvar[2317] = ["CONVECTIVE CORE 3D CLOUD FRACTION", "", "", "", ""] +atm_stashvar[2318] = ["GRIDBOX CONVECTIVE CORE Qcl KG/KG", "", "", "", ""] +atm_stashvar[2319] = ["GRIDBOX CONVECTIVE CORE Qcf KG/KG", "", "", "", ""] +atm_stashvar[2320] = ["COSP: MASK FOR CALIPSO CF ON LVLS", "", "", "", ""] +atm_stashvar[2321] = ["COSP: MASK FOR CALIPSO LOW-LEVEL CF", "", "", "", ""] +atm_stashvar[2322] = ["COSP: MASK FOR CALIPSO MID-LEVEL CF", "", "", "", ""] +atm_stashvar[2323] = ["COSP: MASK FOR CALIPSO HIGH-LEVEL CF", "", "", "", ""] +atm_stashvar[2324] = ["COSP: MASK FOR CALIPSO TOTAL CF", "", "", "", ""] +atm_stashvar[2325] = ["COSP: MASK FOR CALIPSO CF ON 40 LVLS", "", "", "", ""] +atm_stashvar[2326] = ["COSP: MASK FOR 2.358", "", "", "", ""] +atm_stashvar[2327] = ["COSP: MASK FOR 2.359", "", "", "", ""] +atm_stashvar[2330] = ["COSP: ISCCP/MISR/MODIS CLOUD WEIGHTS", "", "", "", ""] +atm_stashvar[2331] = ["COSP: ISCCP WEIGHTED CLOUD ALBEDO", "", "1", "", ""] +atm_stashvar[2332] = ["COSP: ISCCP WEIGHTED CLOUD TAU", "", "", "", ""] +atm_stashvar[2333] = ["COSP: ISCCP WEIGHTED CLOUD TOP PRES.", "", "", "", ""] +atm_stashvar[2334] = ["COSP: ISCCP TOTAL CLOUD AREA", "", "", "", ""] +atm_stashvar[2335] = ["COSP: ISCCP ALL-SKY 10.5 MICRON Tb", "", "", "", ""] +atm_stashvar[2336] = ["COSP: ISCCP CLEAR-SKY 10.5 MICRON Tb", "", "", "", ""] +atm_stashvar[2337] = ["COSP: ISCCP CTP-TAU HISTOGRAM", "", "", "", ""] +atm_stashvar[2340] = ["COSP: CALIPSO MOLECULAR BACKSCATTER", "", "", "", ""] +atm_stashvar[2341] = ["COSP: CALIPSO TOTAL BACKSCATTER", "", "", "", ""] +atm_stashvar[2342] = ["COSP: CALIPSO CFAD SCATTERING RATIO", "", "", "", ""] +atm_stashvar[2343] = ["COSP: CALIPSO CLOUD AREA ON LEVELS", "", "", "", ""] +atm_stashvar[2344] = ["COSP: CALIPSO LOW-LEVEL CLOUD", "", "", "", ""] +atm_stashvar[2345] = ["COSP: CALIPSO MID-LEVEL CLOUD", "", "", "", ""] +atm_stashvar[2346] = ["COSP: CALIPSO HIGH-LEVEL CLOUD", "", "", "", ""] +atm_stashvar[2347] = ["COSP: CALIPSO TOTAL CLOUD FRACTION", "", "", "", ""] +atm_stashvar[2348] = ["COSP: PARASOL TOA REFLECTANCE", "", "", "", ""] +atm_stashvar[2349] = ["COSP: CALIPSO-ONLY 3D CLOUD AREA", "", "", "", ""] +atm_stashvar[2350] = ["COSP: CLOUDSAT CFAD REFLECTIVITY", "", "", "", ""] +atm_stashvar[2351] = ["COSP: CLOUDSAT REFLECTIVITY", "", "", "", ""] +atm_stashvar[2352] = ["COSP: SUBCOLUMN CLOUD ARRAY", "", "", "", ""] +atm_stashvar[2353] = ["COSP: GBX-MEAN CSAT Ze MDL LEVELS", "", "", "", ""] +atm_stashvar[2354] = ["COSP: GBX-MEAN CSAT Ze 40 LEVELS", "", "", "", ""] +atm_stashvar[2355] = ["COSP: GBX-MEAN CALIPSO ATB MDL LVLS", "", "", "", ""] +atm_stashvar[2356] = ["COSP: GBX-MEAN CALIPSO ATB 40 LVLS", "", "", "", ""] +atm_stashvar[2357] = ["COSP: CALIPSO MOLECULAR ATB 40 LVLS", "", "", "", ""] +atm_stashvar[2358] = ["COSP: CALIPSO/CLOUDSAT CLOUD MDL LEV", "", "", "", ""] +atm_stashvar[2359] = ["COSP: CALIPSO/CLOUDSAT CLOUD 40 LEV", "", "", "", ""] +atm_stashvar[2360] = ["COSP: MISR CTH-TAU HISTOGRAM", "", "", "", ""] +atm_stashvar[2370] = ["COSP: CALIPSO CFAD SR 40 CSAT LEVELS", "", "", "", ""] +atm_stashvar[2371] = ["COSP: CALIPSO CLOUD AREA 40 CSAT LVS", "", "", "", ""] +atm_stashvar[2372] = ["COSP: CLOUDSAT CFAD Ze 40 CSAT LVLS", "", "", "", ""] +atm_stashvar[2373] = ["COSP: HYDROMETEOR EFFECTIVE RADIUS", "", "", "", ""] +atm_stashvar[2374] = ["COSP: CALIPSO-ONLY 3D CLOUD 40 LVLS", "", "", "", ""] +atm_stashvar[2375] = ["COSP: LARGE-SCALE CLOUD OPT. DEPTH", "", "", "", ""] +atm_stashvar[2376] = ["COSP: LARGE-SCALE CLOUD EMISSIVITY", "", "", "", ""] +atm_stashvar[2377] = ["COSP: CONVECTIVE CLOUD OPT. DEPTH", "", "", "", ""] +atm_stashvar[2378] = ["COSP: CONVECTIVE CLOUD EMISSIVITY", "", "", "", ""] +atm_stashvar[2380] = ["COSP: Reff L-S CLOUD LIQUID WATER", "", "", "", ""] +atm_stashvar[2381] = ["COSP: Reff L-S CLOUD ICE", "", "", "", ""] +atm_stashvar[2382] = ["COSP: Reff L-S CLOUD RAINFALL", "", "", "", ""] +atm_stashvar[2383] = ["COSP: Reff L-S CLOUD SNOWFALL", "", "", "", ""] +atm_stashvar[2384] = ["COSP: Reff CONV CLOUD LIQUID WATER", "", "", "", ""] +atm_stashvar[2385] = ["COSP: Reff CONV CLOUD ICE", "", "", "", ""] +atm_stashvar[2386] = ["COSP: Reff CONV CLOUD RAINFALL", "", "", "", ""] +atm_stashvar[2387] = ["COSP: Reff CONV CLOUD SNOWFALL", "", "", "", ""] +atm_stashvar[2388] = ["COSP: Reff L-S CLOUD GRAUPEL", "", "", "", ""] +atm_stashvar[2389] = ["COSP: 3D CONVECTIVE RAINFALL RATE", "", "", "", ""] +atm_stashvar[2390] = ["COSP: 3D CONVECTIVE SNOWFALL RATE", "", "", "", ""] +atm_stashvar[2391] = ["LARGE SCALE LIQUID WATER PATH kg/m2", "", "", "", ""] +atm_stashvar[2392] = ["LARGE SCALE ICE WATER PATH kg/m2", "", "", "", ""] +atm_stashvar[2393] = ["CONVECTIVE LIQUID WATER PATH kg/m2", "", "", "", ""] +atm_stashvar[2394] = ["CONVECTIVE ICE WATER PATH kg/m2", "", "", "", ""] +atm_stashvar[2395] = ["CONV. CORE LIQUID WATER PATH kg/m2", "", "", "", ""] +atm_stashvar[2396] = ["CONVECTIVE CORE ICE WATER PATH kg/m2", "", "", "", ""] +atm_stashvar[2397] = ["L-S LIQ WEIGHTED EFFECTIVE DIMENSION", "", "", "", ""] +atm_stashvar[2398] = ["L-S ICE WEIGHTED EFFECTIVE DIMENSION", "", "", "", ""] +atm_stashvar[2399] = ["CNV LIQ WEIGHTED EFFECTIVE DIMENSION", "", "", "", ""] +atm_stashvar[2400] = ["CNV ICE WEIGHTED EFFECTIVE DIMENSION", "", "", "", ""] +atm_stashvar[2406] = ["CLEAR-SKY (II) UPWARD LW FORC.(TOA)", "", "", "", ""] +atm_stashvar[2407] = ["DOWNWARD LW RAD FORCING: SURFACE", "", "", "", ""] +atm_stashvar[2408] = ["CLEAR-SKY (II) DOWN SURF. LW FORC.", "", "", "", ""] +atm_stashvar[2417] = ["UPWARD LW FLUX ON LEVELS W/ FORCING", "", "", "", ""] +atm_stashvar[2418] = ["DOWNWARD LW FLUX ON LEVELS W/ FORC", "", "", "", ""] +atm_stashvar[2419] = ["CLEAR-SKY UP LW ON LEVELS W/ FORCING", "", "", "", ""] +atm_stashvar[2420] = ["CLEAR-SKY DOWN LW ON LEVELS W/ FORC", "", "", "", ""] +atm_stashvar[2421] = ["SULPHATE OPTICAL DEPTH FROM PROGN.", "", "1", "", ""] +atm_stashvar[2422] = ["DUST OPTICAL DEPTH FROM PROGNOSTIC", "", "1", "", ""] +atm_stashvar[2423] = ["SEA SALT OPTICAL DEPTH, DIAGNOSED", "", "1", "", ""] +atm_stashvar[2424] = ["SOOT OPTICAL DEPTH FROM PROGNOSTIC", "", "1", "", ""] +atm_stashvar[2425] = ["BIOMASS OPTICAL DEPTH FROM PROGN.", "", "1", "", ""] +atm_stashvar[2426] = ["OCFF OPTICAL DEPTH FROM PROGNOSTIC", "", "1", "", ""] +atm_stashvar[2427] = ["AMM. NITRATE OPT. DEPTH FROM PROGN.", "", "1", "", ""] +atm_stashvar[2433] = ["CLEAR-SKY LW HEATING RATES W/ FORC", "", "", "", ""] +atm_stashvar[2437] = ["NET DOWNWARD LW AT TROP W/ FORCING", "", "", "", ""] +atm_stashvar[2438] = ["DOWNWARD LW AT TROPOPAUSE W/ FORCING", "", "", "", ""] +atm_stashvar[2450] = ["COSP: MODIS CTP-TAU HISTOGRAM", "", "", "", ""] +atm_stashvar[2451] = ["COSP: MODIS WEIGHTED TOT. CLOUD AREA", "", "", "", ""] +atm_stashvar[2452] = ["COSP: MODIS LIQUID CLOUD FRACTION", "", "", "", ""] +atm_stashvar[2453] = ["COSP: MODIS ICE CLOUD FRACTION", "", "", "", ""] +atm_stashvar[2454] = ["COSP: MODIS HIGH-LVL CLOUD FRACTION", "", "", "", ""] +atm_stashvar[2455] = ["COSP: MODIS MID-LVL CLOUD FRACTION", "", "", "", ""] +atm_stashvar[2456] = ["COSP: MODIS LOW-LVL CLOUD FRACTION", "", "", "", ""] +atm_stashvar[2457] = ["COSP: MODIS WEIGHTED TAU - TOTAL", "", "", "", ""] +atm_stashvar[2458] = ["COSP: MODIS WEIGHTED TAU - LIQUID", "", "", "", ""] +atm_stashvar[2459] = ["COSP: MODIS WEIGHTED TAU - ICE", "", "", "", ""] +atm_stashvar[2460] = ["COSP: MODIS WEIGHTED LOG(TAU) -TOTAL", "", "", "", ""] +atm_stashvar[2461] = ["COSP: MODIS WEIGHTED LOG(TAU) - LIQ", "", "", "", ""] +atm_stashvar[2462] = ["COSP: MODIS WEIGHTED LOG(TAU) - ICE", "", "", "", ""] +atm_stashvar[2463] = ["COSP: MODIS WEIGHTED Reff LIQUID", "", "", "", ""] +atm_stashvar[2464] = ["COSP: MODIS WEIGHTED Reff ICE", "", "", "", ""] +atm_stashvar[2465] = ["COSP: MODIS WEIGHTED CLOUD TOP PRES.", "", "", "", ""] +atm_stashvar[2466] = ["COSP: MODIS WEIGHTED LIQUID W. PATH", "", "", "", ""] +atm_stashvar[2467] = ["COSP: MODIS WEIGHTED ICE WATER PATH", "", "", "", ""] +atm_stashvar[2473] = ["COSP: CALIPSO CF 40 LVLS (LIQ)", "", "", "", ""] +atm_stashvar[2474] = ["COSP: CALIPSO CF 40 LVLS (ICE)", "", "", "", ""] +atm_stashvar[2475] = ["COSP: CALIPSO CF 40 LVLS (UNDET)", "", "", "", ""] +atm_stashvar[2476] = ["COSP: CALIPSO LOW-LEVEL CF (LIQ)", "", "", "", ""] +atm_stashvar[2477] = ["COSP: CALIPSO MID-LEVEL CF (LIQ)", "", "", "", ""] +atm_stashvar[2478] = ["COSP: CALIPSO HIGH-LEVEL CF (LIQ)", "", "", "", ""] +atm_stashvar[2479] = ["COSP: CALIPSO TOTAL CLOUD (LIQ)", "", "", "", ""] +atm_stashvar[2480] = ["COSP: CALIPSO LOW-LEVEL CF (ICE)", "", "", "", ""] +atm_stashvar[2481] = ["COSP: CALIPSO MID-LEVEL CF (ICE)", "", "", "", ""] +atm_stashvar[2482] = ["COSP: CALIPSO HIGH-LEVEL CF (ICE)", "", "", "", ""] +atm_stashvar[2483] = ["COSP: CALIPSO TOTAL CLOUD (ICE)", "", "", "", ""] +atm_stashvar[2484] = ["COSP: CALIPSO LOW-LEVEL CF (UNDET)", "", "", "", ""] +atm_stashvar[2485] = ["COSP: CALIPSO MID-LEVEL CF (UNDET)", "", "", "", ""] +atm_stashvar[2486] = ["COSP: CALIPSO HIGH-LEVEL CF (UNDET)", "", "", "", ""] +atm_stashvar[2487] = ["COSP: CALIPSO TOTAL CLOUD (UNDET)", "", "", "", ""] +atm_stashvar[2500] = ["LW DOWN OVER ICE, WGHTD (cats)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[2501] = ["LW DOWN OVER ICE, WGHTD (aggr)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[2502] = ["LW UP OVR ICE WGHTD(cats)(W/m2)(ret)", "", "W m-2", "", ""] +atm_stashvar[2503] = ["LW UP OVR ICE WGHTD(aggr)(W/m2)(ret)", "", "W m-2", "", ""] +atm_stashvar[2505] = ["DEPTH OF LAYERS IN RADIATION (M)", "", "", "", ""] +atm_stashvar[2506] = ["TOTAL AOD IN LAYERS AND LW BANDS", "", "", "", ""] +atm_stashvar[2507] = ["TOTAL SCATTERING AOD LAYERS/LW BANDS", "", "", "", ""] +atm_stashvar[2508] = ["AERO ASYM (WGTD) IN LAYERS/LW BANDS", "", "", "", ""] +atm_stashvar[2509] = ["UPWARD LW FLUX ON LEVELS AND BANDS", "", "", "", ""] +atm_stashvar[2510] = ["DOWNWARD LW FLUX ON LEVELS AND BANDS", "", "", "", ""] +atm_stashvar[2511] = ["CLEAR UP LW FLUX ON LEVELS AND BANDS", "", "", "", ""] +atm_stashvar[2512] = ["CLEAR DOWN LW FLUX ON LEVS AND BANDS", "", "", "", ""] +atm_stashvar[2513] = ["LW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[2514] = ["CLEAR-SKY LW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[2515] = ["CLEAN-AIR LW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[2516] = ["CLEAR-CLEAN LW EMISSION SPECTRUM", "", "", "", ""] +atm_stashvar[2517] = ["CLEAN-AIR UPWARD LW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[2518] = ["CLEAN-AIR DOWNWARD LW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[2519] = ["CLEAR-CLEAN UPWARD LW FLUX ON LEVELS", "", "", "", ""] +atm_stashvar[2520] = ["CLEAR-CLEAN DOWNWARD LW FLUX ON LEVS", "", "", "", ""] +atm_stashvar[2521] = ["UPWARD LW FLUX ON LEVELS W/ GHG FORC", "", "", "", ""] +atm_stashvar[2522] = ["DOWNWARD LW FLUX ON LEVS W/ GHG FORC", "", "", "", ""] +atm_stashvar[2523] = ["CLEAR UP LW FLUX ON LEVS W/ GHG FORC", "", "", "", ""] +atm_stashvar[2524] = ["CLR DOWN LW FLUX ON LEVS W/ GHG FORC", "", "", "", ""] +atm_stashvar[2525] = ["UP LW FLUX LEVS/BANDS W/ GHG FORC", "", "", "", ""] +atm_stashvar[2526] = ["DOWN LW FLUX LEVS/BANDS W/ GHG FORC", "", "", "", ""] +atm_stashvar[2527] = ["CLR UP LW FLUX LEVS/BNDS W/ GHG FORC", "", "", "", ""] +atm_stashvar[2528] = ["CLR DOWN LW FLUX LVS/BNDS W/GHG FORC", "", "", "", ""] +atm_stashvar[2530] = ["UKCA 3D AEROSOL EXTINCTION", "", "", "", ""] +atm_stashvar[2531] = ["UKCA 3D AEROSOL ABSORPTION", "", "", "", ""] +atm_stashvar[2532] = ["UKCA 3D AEROSOL SCATTERING", "", "", "", ""] +atm_stashvar[2533] = ["UKCA 3D AEROSOL ASY * SCATTERING", "", "", "", ""] +atm_stashvar[2540] = ["CLASSIC 3D AEROSOL EXTINCTION", "", "", "", ""] +atm_stashvar[2541] = ["CLASSIC 3D AEROSOL ABSORPTION", "", "", "", ""] +atm_stashvar[2542] = ["CLASSIC 3D AEROSOL SCATTERING", "", "", "", ""] +atm_stashvar[2545] = ["CLEAN-AIR UP LW FLUX ON LEVELS/BANDS", "", "", "", ""] +atm_stashvar[2546] = ["CLEAN-AIR DOWN LW FLUX LEVELS/BANDS", "", "", "", ""] +atm_stashvar[2547] = ["CLEAR-CLEAN UP LW FLUX LEVELS/BANDS", "", "", "", ""] +atm_stashvar[2548] = ["CLEAR-CLEAN DOWN LW FLUX LEVS/BANDS", "", "", "", ""] +atm_stashvar[2550] = ["EASYAEROSOL EXTINCTION ON LW BANDS", "", "", "", ""] +atm_stashvar[2551] = ["EASYAEROSOL ABSORPTION ON LW BANDS", "", "", "", ""] +atm_stashvar[2552] = ["EASYAEROSOL SCATTERING ON LW BANDS", "", "", "", ""] +atm_stashvar[2553] = ["EASYAEROSOL ASY*SCA ON LW BANDS", "", "", "", ""] +atm_stashvar[2584] = ["SULPHATE ABSORPTION OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2585] = ["MINERAL DUST ABS. OPICAL DEPTH", "", "1", "", ""] +atm_stashvar[2586] = ["SEA SALT ABSORPTION OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2587] = ["SOOT ABSORPTION OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2588] = ["BIOMASS ABSORPTION OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2589] = ["BIOGENIC ABSORPTION OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2595] = ["FOSSIL FUEL ORG C ABS. OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2597] = ["AMMONIUM NITRATE ABS. OPTICAL DEPTH", "", "1", "", ""] +atm_stashvar[2709] = ["UPWARD LW FLUX LEVS/BANDS W/ FORCING", "", "", "", ""] +atm_stashvar[2710] = ["DOWNWARD LW FLUX LEVS/BANDS W/ FORC", "", "", "", ""] +atm_stashvar[2711] = ["CLEAR UP LW FLUX LEVS/BANDS W/ FORC", "", "", "", ""] +atm_stashvar[2712] = ["CLEAR DOWN LW FLUX LEVS/BNDS W/ FORC", "", "", "", ""] +atm_stashvar[2713] = ["LW EMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[2714] = ["CLEAR LW EMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[2715] = ["CLEAN LW EMISSION SPECTRUM 2nd CALL", "", "", "", ""] +atm_stashvar[2716] = ["CLR-CLN LW EMISSION SPEC 2nd CALL", "", "", "", ""] +atm_stashvar[3002] = ["U COMPNT OF WIND AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3003] = ["V COMPNT OF WIND AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3004] = ["TEMPERATURE AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3010] = ["SPECIFIC HUMIDITY AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3024] = ["SURFACE TEMPERATURE AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3025] = ["BOUNDARY LAYER DEPTH AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3026] = ["ROUGHNESS LEN. AFTER B.L. (SEE DOC)", "", "", "", ""] +atm_stashvar[3027] = ["EFFECTIVE ROUGHNESS LEN FOR SCALARS", "", "", "", ""] +atm_stashvar[3028] = ["ROUGH LEN FOR MOMENTUM WITHOUT OROG", "", "", "", ""] +atm_stashvar[3049] = ["SEA-ICE TEMPERATURE AFTER B. LAYER", "", "", "", ""] +atm_stashvar[3050] = ["MOISTURE EXCHANGE COEFFS", "", "", "", ""] +atm_stashvar[3051] = ["COMBINED RESIST. TO EVAP ON TILES", "", "", "", ""] +atm_stashvar[3052] = ["COEFFS RATIO FOR 1.5M T ON TILES", "", "", "", ""] +atm_stashvar[3053] = ["QSAT GRAD W.R. T SURF L1 ON TILES", "", "", "", ""] +atm_stashvar[3054] = ["AERODYNAMIC RESISTANCE (S/M)", "", "", "", ""] +atm_stashvar[3055] = ["CUMULATIVE FRACTION TRANSPIRATION", "", "", "", ""] +atm_stashvar[3056] = ["LAND MEAN COMBINED RESIST. TO EVAP", "", "", "", ""] +atm_stashvar[3057] = ["LAND MEAN COEFFS RATIO FOR 1.5M T", "", "", "", ""] +atm_stashvar[3058] = ["LAND MEAN QSAT GRAD W.R. T SURF L1", "", "", "", ""] +atm_stashvar[3060] = ["RHOKH_MIX", "", "", "", ""] +atm_stashvar[3061] = ["RHO_ARESIST (RHOSTAR*CD_STD*VSHR)", "", "", "", ""] +atm_stashvar[3062] = ["ARESIST [ 1/(CD_STD*VSHR) ]", "", "", "", ""] +atm_stashvar[3063] = ["RESIST_B (1/CH-1/CD_STD)/VSHR", "", "", "", ""] +atm_stashvar[3064] = ["DTRDZ_CHARNEY_GRID", "", "", "", ""] +atm_stashvar[3065] = ["GRID-LEVEL OF SML INVERSION (kent)", "", "", "", ""] +atm_stashvar[3066] = ["Rho * entrainment rate (we_lim)", "", "", "", ""] +atm_stashvar[3067] = ["Fraction of the timestep (t_frac)", "", "", "", ""] +atm_stashvar[3068] = ["zrzi", "", "", "", ""] +atm_stashvar[3069] = ["GRID-LEVEL OF DSC INVERSION (kent)", "", "", "", ""] +atm_stashvar[3070] = ["Rho * entrainment rate dsc", "", "", "", ""] +atm_stashvar[3071] = ["Fraction of the timestep dsc", "", "", "", ""] +atm_stashvar[3072] = ["zrzi dsc", "", "", "", ""] +atm_stashvar[3073] = ["ZHSC Top of decoupled layer", "", "", "", ""] +atm_stashvar[3074] = ["Dust div1 surf. layer resist (s/m)", "", "", "", ""] +atm_stashvar[3075] = ["Dust div2 surf. layer resist (s/m)", "", "", "", ""] +atm_stashvar[3076] = ["Dust div3 surf. layer resist (s/m)", "", "", "", ""] +atm_stashvar[3077] = ["Dust div4 surf. layer resist (s/m)", "", "", "", ""] +atm_stashvar[3078] = ["Dust div5 surf. layer resist (s/m)", "", "", "", ""] +atm_stashvar[3079] = ["Dust div6 surf. layer resist (s/m)", "", "", "", ""] +atm_stashvar[3100] = ["FLUX OF TRACER 1 IN BL", "", "", "", ""] +atm_stashvar[3101] = ["FLUX OF TRACER 2 IN BL", "", "", "", ""] +atm_stashvar[3102] = ["FLUX OF TRACER 3 IN BL", "", "", "", ""] +atm_stashvar[3103] = ["FLUX OF TRACER 4 IN BL", "", "", "", ""] +atm_stashvar[3104] = ["FLUX OF TRACER 5 IN BL", "", "", "", ""] +atm_stashvar[3105] = ["FLUX OF TRACER 6 IN BL", "", "", "", ""] +atm_stashvar[3106] = ["FLUX OF TRACER 7 IN BL", "", "", "", ""] +atm_stashvar[3107] = ["FLUX OF TRACER 8 IN BL", "", "", "", ""] +atm_stashvar[3108] = ["FLUX OF TRACER 9 IN BL", "", "", "", ""] +atm_stashvar[3109] = ["FLUX OF TRACER 10 IN BL", "", "", "", ""] +atm_stashvar[3110] = ["FLUX OF TRACER 11 IN BL", "", "", "", ""] +atm_stashvar[3111] = ["FLUX OF TRACER 12 IN BL", "", "", "", ""] +atm_stashvar[3112] = ["FLUX OF TRACER 13 IN BL", "", "", "", ""] +atm_stashvar[3113] = ["FLUX OF TRACER 14 IN BL", "", "", "", ""] +atm_stashvar[3114] = ["FLUX OF TRACER 15 IN BL", "", "", "", ""] +atm_stashvar[3115] = ["FLUX OF TRACER 16 IN BL", "", "", "", ""] +atm_stashvar[3116] = ["FLUX OF TRACER 17 IN BL", "", "", "", ""] +atm_stashvar[3117] = ["FLUX OF TRACER 18 IN BL", "", "", "", ""] +atm_stashvar[3118] = ["FLUX OF TRACER 19 IN BL", "", "", "", ""] +atm_stashvar[3119] = ["FLUX OF TRACER 20 IN BL", "", "", "", ""] +atm_stashvar[3120] = ["FLUX OF TRACER 21 IN BL", "", "", "", ""] +atm_stashvar[3121] = ["FLUX OF TRACER 22 IN BL", "", "", "", ""] +atm_stashvar[3122] = ["FLUX OF TRACER 23 IN BL", "", "", "", ""] +atm_stashvar[3123] = ["FLUX OF TRACER 24 IN BL", "", "", "", ""] +atm_stashvar[3124] = ["FLUX OF TRACER 25 IN BL", "", "", "", ""] +atm_stashvar[3125] = ["FLUX OF TRACER 26 IN BL", "", "", "", ""] +atm_stashvar[3126] = ["FLUX OF TRACER 27 IN BL", "", "", "", ""] +atm_stashvar[3127] = ["FLUX OF TRACER 28 IN BL", "", "", "", ""] +atm_stashvar[3128] = ["FLUX OF TRACER 29 IN BL", "", "", "", ""] +atm_stashvar[3129] = ["FLUX OF TOTAL AEROSOL IN BL", "", "", "", ""] +atm_stashvar[3130] = ["COUNTER GRADIENT TERM OF TAUX", "", "", "", ""] +atm_stashvar[3131] = ["COUNTER GRADIENT TERM OF TAUY", "", "", "", ""] +atm_stashvar[3132] = ["COUNTER GRADIENT TERM OF FTL", "", "", "", ""] +atm_stashvar[3133] = ["COUNTER GRADIENT TERM OF FQW", "", "", "", ""] +atm_stashvar[3134] = ["MIXING LENGTH", "", "", "", ""] +atm_stashvar[3135] = ["PRODUCTION RATE OF TKE BY SHEAR", "", "", "", ""] +atm_stashvar[3136] = ["PRODUCTION RATE OF TKE BY BUOYANCY", "", "", "", ""] +atm_stashvar[3137] = ["DISSIPATION RATE OF TKE", "", "", "", ""] +atm_stashvar[3138] = ["NON-DIM DIFFUSION COEFS FOR UV (SM)", "", "", "", ""] +atm_stashvar[3139] = ["NON-DIM DIFFUSION COEFS FOR TQ (SH)", "", "", "", ""] +atm_stashvar[3140] = ["NON-GRADIENT BUOYANCY FLUX", "", "", "", ""] +atm_stashvar[3141] = ["CLOUD FRACTION IN THE TKE SCHEMES", "", "", "", ""] +atm_stashvar[3142] = ["CONDENSED WATER IN THE TKE SCHEMES", "", "", "", ""] +atm_stashvar[3143] = ["STD. DEV. OF GAUSSIAN", "", "", "", ""] +atm_stashvar[3170] = ["QCL INCR: bdy layer positive", "", "", "", ""] +atm_stashvar[3171] = ["QCL INCR: bdy layer negative", "", "", "", ""] +atm_stashvar[3172] = ["QCF INCR: bdy layer positive", "", "", "", ""] +atm_stashvar[3173] = ["QCF INCR: bdy layer negative", "", "", "", ""] +atm_stashvar[3176] = ["LIQ CLOUD VOL INCR: bdy layer positi", "", "", "", ""] +atm_stashvar[3177] = ["LIQ CLOUD VOL INCR: bdy layer negati", "", "", "", ""] +atm_stashvar[3178] = ["ICE CLOUD VOL INCR: bdy layer positi", "", "", "", ""] +atm_stashvar[3179] = ["ICE CLOUD VOL INCR: bdy layer negati", "", "", "", ""] +atm_stashvar[3181] = ["TEMPERATURE INCR: bdy layer", "", "", "", ""] +atm_stashvar[3182] = ["SPECIFIC HUMIDITY INCR: bdy layer", "", "", "", ""] +atm_stashvar[3183] = ["QCL INCR: bdy layer", "", "", "", ""] +atm_stashvar[3184] = ["QCF INCR: bdy layer", "", "", "", ""] +atm_stashvar[3185] = ["U WIND INCR: bdy layer", "", "", "", ""] +atm_stashvar[3186] = ["V WIND INCR: bdy layer", "", "", "", ""] +atm_stashvar[3187] = ["W WIND INCR: bdy layer", "", "", "", ""] +atm_stashvar[3188] = ["LIQUID WATER TEMP INCR: FRIC DISSIP", "", "", "", ""] +atm_stashvar[3189] = ["LIQUID WATER TEMP INCR: bdy layer", "", "", "", ""] +atm_stashvar[3190] = ["TOTAL (LIQ) WATER INCR: bdy layer", "", "", "", ""] +atm_stashvar[3192] = ["BULK CLOUD VOL INCR: bdy layer", "", "", "", ""] +atm_stashvar[3193] = ["LIQUID CLOUD VOL INCR: bdy layer", "", "", "", ""] +atm_stashvar[3194] = ["FROZEN CLOUD VOL INCR: bdy layer", "", "", "", ""] +atm_stashvar[3195] = ["U WIND INCR: Leonard term", "", "", "", ""] +atm_stashvar[3196] = ["V WIND INCR: Leonard term", "", "", "", ""] +atm_stashvar[3197] = ["TEMPERATURE INCR: Leonard term", "", "", "", ""] +atm_stashvar[3198] = ["SPECIFIC HUMIDITY INCR: Leonard term", "", "", "", ""] +atm_stashvar[3199] = ["W WIND INCR: Leonard term", "", "", "", ""] +atm_stashvar[3201] = ["HT FLUX THROUGH SEAICE:SEA MEAN W/M2", "hfss_ice", "W m-2", "downward_heat_flux_in_sea_ice", ""] +atm_stashvar[3202] = ["HT FLUX FROM SURF TO DEEP SOIL LEV 1", "", "W m-2", "downward_heat_flux_at_ground_level_in_soil", ""] +atm_stashvar[3208] = ["LOWEST LAYER BULK RICHARDSON NO. RIB", "", "", "", ""] +atm_stashvar[3209] = ["10 METRE WIND U-COMP", "uas", "m s-1", "eastward_wind", ""] +atm_stashvar[3210] = ["10 METRE WIND V-COMP", "vas", "m s-1", "northward_wind", ""] +atm_stashvar[3216] = ["BOUNDARY LAYER HEAT FLUXES W/M2", "", "", "", ""] +atm_stashvar[3217] = ["SURFACE SENSIBLE HEAT FLUX W/M2", "hfss", "W m-2", "surface_upward_sensible_heat_flux", ""] +atm_stashvar[3219] = ["X-COMP OF SURF & BL WIND STRESS N/M2", "tauu", "N m-2", "surface_downward_eastward_stress", ""] +atm_stashvar[3220] = ["Y-COMP OF SURF & BL WIND STRESS N/M2", "tauv", "N m-2", "surface_downward_northward_stress", ""] +atm_stashvar[3221] = ["MAG OF SURF & BL WIND STRESS B GRID", "", "", "", ""] +atm_stashvar[3222] = ["B.LAYER TOTAL MOISTURE FLUXS KG/M2/S", "", "", "", ""] +atm_stashvar[3223] = ["SURFACE TOTAL MOISTURE FLUX KG/M2/S", "evspsbl", "kg m-2 s-1", "water_evaporation_flux", ""] +atm_stashvar[3224] = ["WIND MIX EN'GY FL TO SEA:SEA MN W/M2", "", "", "", ""] +atm_stashvar[3225] = ["10 METRE WIND U-COMP B GRID", "uas", "m s-1", "eastward_wind", ""] +atm_stashvar[3226] = ["10 METRE WIND V-COMP B GRID", "vas", "m s-1", "northward_wind", ""] +atm_stashvar[3227] = ["10 METRE WIND SPEED ON B GRID", "wnd", "m s-1", "wind_speed", ""] +atm_stashvar[3228] = ["SFC SH FLX FROM OPEN SEA:SEA MN W/M2", "", "", "", ""] +atm_stashvar[3229] = ["EVAP FROM SOIL SURF -AMOUNT KG/M2/TS", "evpsoil", "kg m-2", "water_evaporation_flux_from_soil", "evpsoil_step"] +atm_stashvar[3230] = ["10 METRE WIND SPEED ON C GRID", "", "", "", ""] +atm_stashvar[3231] = ["SUBLIM. FROM SURFACE (GBM) KG/M2/TS", "", "", "", ""] +atm_stashvar[3232] = ["EVAP FROM OPEN SEA: SEA MEAN KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3234] = ["SURFACE LATENT HEAT FLUX W/M2", "hfls", "W m-2", "surface_upward_latent_heat_flux", ""] +atm_stashvar[3235] = ["SEAICE TOP MELT LH FLX:SEA MEAN W/M2", "", "W m-2", "", ""] +atm_stashvar[3236] = ["TEMPERATURE AT 1.5M", "tas", "K", "air_temperature", ""] +atm_stashvar[3237] = ["SPECIFIC HUMIDITY AT 1.5M", "huss", "1", "specific_humidity", ""] +atm_stashvar[3238] = ["DEEP SOIL TEMPERATURE AFTER B.LAYER", "tsl", "K", "soil_temperature", ""] +atm_stashvar[3239] = ["CLOUD LIQUID WATER AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3240] = ["CLOUD ICE CONTENT AFTER B.LAYER", "", "", "", ""] +atm_stashvar[3241] = ["TOTAL SURF MOIST FLUX PER TIMESTEP", "", "", "", ""] +atm_stashvar[3245] = ["RELATIVE HUMIDITY AT 1.5M", "", "%", "relative_humidity", ""] +atm_stashvar[3247] = ["VISIBILITY AT 1.5M M", "", "", "", ""] +atm_stashvar[3248] = ["FOG FRACTION AT 1.5 M", "", "", "", ""] +atm_stashvar[3250] = ["DEWPOINT AT 1.5M (K)", "", "", "", ""] +atm_stashvar[3251] = ["SILHOUETTE OROGRAPHIC ROUGHNESS", "", "", "", ""] +atm_stashvar[3252] = ["HALF OF (PEAK TO TROUGH HT OF OROG)", "", "", "", ""] +atm_stashvar[3253] = ["PROBABILITY OF VIS LESS THAN 5 KM", "", "", "", ""] +atm_stashvar[3254] = ["TL AT 1.5M", "", "", "", ""] +atm_stashvar[3255] = ["QT AT 1.5M", "", "", "", ""] +atm_stashvar[3256] = ["Heat flux through sea ice (W/m2)", "", "", "", ""] +atm_stashvar[3257] = ["Heat flux in sea ice surface melt", "", "W m-2", "", ""] +atm_stashvar[3258] = ["SURFACE SNOWMELT HEAT FLUX W/M2", "", "W m-2", "", ""] +atm_stashvar[3259] = ["CANOPY CONDUCTANCE M/S", "", "", "", ""] +atm_stashvar[3261] = ["GROSS PRIMARY PRODUCTIVITY KG C/M2/S", "gpp", "kg m-2 s-1", "gross_primary_productivity_of_biomass_expressed_as_carbon", ""] +atm_stashvar[3262] = ["NET PRIMARY PRODUCTIVITY KG C/M2/S", "npp", "kg m-2 s-1", "net_primary_productivity_of_biomass_expressed_as_carbon", ""] +atm_stashvar[3263] = ["PLANT RESPIRATION KG/M2/S", "resp", "kg m-2 s-1", "plant_respiration_carbon_flux", ""] +atm_stashvar[3270] = ["SO2 SURFACE DRY DEP FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3271] = ["SO4 AIT SURF DRY DEP FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3272] = ["SO4 ACC SURF DRY DEP FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3273] = ["SO4 DIS SURF DRY DEP FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3274] = ["ACCUM NITRATE DRY DEP FLX KG[N]/M2/S", "", "", "", ""] +atm_stashvar[3275] = ["DISS NITRATE DRY DEP FLUX KG[N]/M2/S", "", "", "", ""] +atm_stashvar[3281] = ["VIS AT 1.5M (incl precip) M", "", "", "", ""] +atm_stashvar[3282] = ["PROB OF VIS < 1 KM (incl precip)", "", "", "", ""] +atm_stashvar[3283] = ["PROB OF VIS < 5 KM (incl precip)", "", "", "", ""] +atm_stashvar[3284] = ["VISIBILITY AT 1.5M IN LS PPTN M", "", "", "", ""] +atm_stashvar[3285] = ["VISIBILITY AT 1.5M IN CONV PPTN M", "", "", "", ""] +atm_stashvar[3287] = ["CANOPY EVAPORATION ON TILES", "evspsblveg_tile", "kg m-2 s-1", "water_evaporation_flux_from_canopy", ""] +atm_stashvar[3288] = ["TRANSPIRATION+SOIL EVP ON TILES", "", "kg m-2 s-1", "water_evaporation_flux", ""] +atm_stashvar[3289] = ["GROSS PRIMARY PRODUCTIVITY ON PFTS", "gpp_tile", "kg m-2 s-1", "gross_primary_productivity_of_biomass_expressed_as_carbon", ""] +atm_stashvar[3290] = ["SURFACE SENSIBLE HEAT FLUX ON TILES", "hfss", "W m-2", "surface_upward_sensible_heat_flux", "hfss_tile"] +atm_stashvar[3291] = ["NET PRIMARY PRODUCTIVITY ON PFTS", "npp_tile", "kg m-2 s-1", "net_primary_productivity_of_biomass_expressed_as_carbon", ""] +atm_stashvar[3292] = ["PLANT RESPIRATION ON PFTS KG C/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3293] = ["SOIL RESPIRATION KG C/M2/S", "resp_soil", "kg m-2 s-1", "", ""] +atm_stashvar[3294] = ["BULK RICHARDSON NUMBER ON TILES", "", "", "", ""] +atm_stashvar[3296] = ["EVAP FROM SOIL SURF : RATE KG/M2/S", "evspsblsoil", "kg m-2 s-1", "water_evaporation_flux_from_soil", ""] +atm_stashvar[3297] = ["EVAP FROM CANOPY : RATE KG/M2/S", "evspsblveg", "kg m-2 s-1", "water_evaporation_flux_from_canopy", ""] +atm_stashvar[3298] = ["SUBLIM. SURFACE (GBM) : RATE KG/M2/S", "sbl", "kg m-2 s-1", "surface_snow_and_ice_sublimation_flux", ""] +atm_stashvar[3300] = ["NH3 SURFACE DRY DEP FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3301] = ["FRESH SOOT DRY DEPN FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3302] = ["AGED SOOT DRY DEPN FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3303] = ["SOOT IN CLOUD DEPN FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3304] = ["TURBULENT MIXING HT AFTER B.LAYER m", "", "", "", ""] +atm_stashvar[3305] = ["STABLE BL INDICATOR", "", "", "", ""] +atm_stashvar[3306] = ["STRATOCUM. OVER STABLE BL INDICATOR", "", "", "", ""] +atm_stashvar[3307] = ["WELL_MIXED BL INDICATOR", "", "", "", ""] +atm_stashvar[3308] = ["DECOUPLED SC. NOT OVER CU. INDICATOR", "", "", "", ""] +atm_stashvar[3309] = ["DECOUPLED SC. OVER CU. INDICATOR", "", "", "", ""] +atm_stashvar[3310] = ["CUMULUS-CAPPED BL INDICATOR", "", "", "", ""] +atm_stashvar[3313] = ["SOIL MOIS AVAIL FACTOR ON PFTS", "", "", "", ""] +atm_stashvar[3314] = ["SURFACE NET RADIATION ON TILES", "netrad_tile", "W m-2", "", ""] +atm_stashvar[3316] = ["SURFACE TEMP ON TILES K", "ts", "K", "surface_temperature", "ts_tile"] +atm_stashvar[3317] = ["SURFACE TILE FRACTIONS", "", "1", "", ""] +atm_stashvar[3318] = ["LEAF AREA INDICES ON PFTS", "", "1", "", ""] +atm_stashvar[3319] = ["CANOPY HEIGHT ON PFTS", "", "m", "", ""] +atm_stashvar[3320] = ["SOIL CARBON CONTENT (B.LAYER) KGC/M2", "", "", "", ""] +atm_stashvar[3321] = ["CANOPY WATER ON TILES KG/M2", "cw_tile", "kg m-2", "", ""] +atm_stashvar[3322] = ["CANOPY CAPACITY ON TILES KG/M2", "", "", "", ""] +atm_stashvar[3324] = ["ROUGHNESS LENGTH ON TILES M", "", "", "", ""] +atm_stashvar[3325] = ["LEAF TURNOVER RATE ON PFTS", "", "", "", ""] +atm_stashvar[3326] = ["CO2 LAND SURFACE FLUX KG/M**2/S", "", "", "", ""] +atm_stashvar[3327] = ["CO2 TOTAL FLUX TO ATMOS KG/M**2/S", "", "", "", ""] +atm_stashvar[3328] = ["1.5M TEMPERATURE OVER TILES", "tas_tile", "K", "", ""] +atm_stashvar[3329] = ["1.5M SPECIFIC HUMIDITY OVER TILES", "", "", "", ""] +atm_stashvar[3330] = ["SURFACE LATENT HEAT FLUX ON TILES", "hfls_tile", "W m-2", "", ""] +atm_stashvar[3331] = ["SUBLIMATION MOISTURE FLUX ON TILES", "sbl_tile", "kg m-2 s-1", "", ""] +atm_stashvar[3332] = ["TOA OUTGOING LW RAD AFTER B.LAYER", "rlut", "W m-2", "toa_outgoing_longwave_flux", "rlut_afterbl"] +atm_stashvar[3333] = ["GRID-BOX AVERAGE SURF NET RAD", "", "", "", ""] +atm_stashvar[3334] = ["LAND MEAN POTENTIAL EVAPORATION", "pevap", "kg m-2 s-1", "water_potential_evaporation_flux", ""] +atm_stashvar[3335] = ["POTENTIAL EVAPORATION ON TILES", "pevap", "kg m-2 s-1", "water_potential_evaporation_flux", ""] +atm_stashvar[3337] = ["LAND HT FLUX FROM SURF TO DEEP LEV 1", "", "", "", ""] +atm_stashvar[3338] = ["NET SURF SEA-ICE HT FLUX (SEA MEAN)", "", "", "", ""] +atm_stashvar[3339] = ["LOWEST LAYER BULK RIB: SEA MEAN", "", "", "", ""] +atm_stashvar[3340] = ["SHEAR-DRIVEN B.LAYER INDICATOR", "", "", "", ""] +atm_stashvar[3341] = ["LAND MEAN TEMPERATURE AT 1.5M", "tas", "K", "air_temperature", ""] +atm_stashvar[3342] = ["LAND MEAN SPECIFIC HUMIDITY AT 1.5M", "", "", "", ""] +atm_stashvar[3343] = ["MEAN SEA SFC SH FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3344] = ["10m TEMP OVER SEA/SEAICE K", "", "", "", ""] +atm_stashvar[3345] = ["10m SPEC HUM OVER SEA/SEAICE KG/KG", "", "", "", ""] +atm_stashvar[3347] = ["MOISTURE FLUX FROM MEAN SEA KG/M2/S", "", "", "", ""] +atm_stashvar[3353] = ["SUBLIM. SEAICE:SEA MEAN RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3355] = ["BL THERMAL SPEED (M/S)", "", "", "", ""] +atm_stashvar[3356] = ["HEIGHT OF SURFACE MIXED LAYR TOP (M)", "", "", "", ""] +atm_stashvar[3357] = ["HEIGHT OF DEC STRATOCU LAYER TOP (M)", "", "", "", ""] +atm_stashvar[3358] = ["BL DEPTH DIAGNOSED FROM RICRIT (M)", "", "", "", ""] +atm_stashvar[3359] = ["HEIGHT OF DIAGNOSTIC PARCEL TOP (M)", "", "", "", ""] +atm_stashvar[3360] = ["HEIGHT OF DECOUPLED LAYER BASE", "", "", "", ""] +atm_stashvar[3361] = ["HEIGHT OF STRATOCUMULUS CLOUD BASE", "", "", "", ""] +atm_stashvar[3362] = ["ENTRAINMENT RATE FOR SURFACE ML", "", "", "", ""] +atm_stashvar[3363] = ["ENTRAINMENT RATE FOR BOUNDARY LAYER", "", "", "", ""] +atm_stashvar[3364] = ["INVERSION THICKNESS (M)", "", "", "", ""] +atm_stashvar[3365] = ["10 METRE NEUTRAL WIND U-COMP B GRID", "", "", "", ""] +atm_stashvar[3366] = ["10 METRE NEUTRAL WIND V-COMP B GRID", "", "", "", ""] +atm_stashvar[3367] = ["10 METRE NEUTRAL WIND SPEED B GRID", "", "", "", ""] +atm_stashvar[3368] = ["10 METRE NEUTRAL WIND U-COMP", "", "", "", ""] +atm_stashvar[3369] = ["10 METRE NEUTRAL WIND V-COMP", "", "", "", ""] +atm_stashvar[3370] = ["X-COMP OF SURF PSEUDOSTRESS M2.S-2", "", "", "", ""] +atm_stashvar[3371] = ["Y-COMP OF SURF PSEUDOSTRESS M2.S-2", "", "", "", ""] +atm_stashvar[3380] = ["SURF NET RAD OVER OPEN SEA", "", "W m-2", "", ""] +atm_stashvar[3381] = ["SFC NET RADN. OVER SEA-ICE:SEA MEAN", "", "W m-2", "", ""] +atm_stashvar[3382] = ["SURFACE NET SW RADIATION ON TILES", "", "W m-2", "", ""] +atm_stashvar[3383] = ["SURFACE UP LW RADIATION ON TILES", "", "W m-2", "", ""] +atm_stashvar[3384] = ["SURFACE DOWN LW RADIATION ON TILES", "", "W m-2", "", ""] +atm_stashvar[3389] = ["SURFACE LAYER WIND SHEAR OVER LAND", "", "", "", ""] +atm_stashvar[3390] = ["MEAN SEA SURFACE LAYER WIND SHEAR", "", "", "", ""] +atm_stashvar[3391] = ["X-COMP OF LAND SURF WIND STRESS N/M2", "", "", "", ""] +atm_stashvar[3392] = ["X-COMP OF MEAN SEA SURF STRESS N/M2", "tauu", "N m-2", "", ""] +atm_stashvar[3393] = ["Y-COMP OF LAND SURF WIND STRESS N/M2", "", "", "", ""] +atm_stashvar[3394] = ["Y-COMP OF MEAN SEA SURF STRESS N/M2", "tauv", "N m-2", "", ""] +atm_stashvar[3395] = ["FRACTION OF LAND", "sftlf", "1", "land_area_fraction", ""] +atm_stashvar[3396] = ["FRESH BIOMASS DRY DEPN FLUX KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3397] = ["AGED BIOMASS DRY DEPN FLUX KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3398] = ["BIOMASS IN CLOUD DEPN FLUX KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3400] = ["Tile area frac. for dust emissions", "", "", "", ""] +atm_stashvar[3401] = ["Dust emissions div 1 (kg/m2/s)", "", "kg m-2 s-1", "", ""] +atm_stashvar[3402] = ["Dust emissions div 2 (kg/m2/s)", "", "kg m-2 s-1", "", ""] +atm_stashvar[3403] = ["Dust emissions div 3 (kg/m2/s)", "", "kg m-2 s-1", "", ""] +atm_stashvar[3404] = ["Dust emissions div 4 (kg/m2/s)", "", "kg m-2 s-1", "", ""] +atm_stashvar[3405] = ["Dust emissions div 5 (kg/m2/s)", "", "kg m-2 s-1", "", ""] +atm_stashvar[3406] = ["Dust emissions div 6 (kg/m2/s)", "", "kg m-2 s-1", "", ""] +atm_stashvar[3407] = ["FRESH OCFF DRY DEPN FLUX KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3408] = ["AGED OCFF DRY DEPN FLUX KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3409] = ["OCFF IN CLOUD DEPN FLUX KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[3411] = ["Dust threshold U* on tiles div 1", "", "", "", ""] +atm_stashvar[3412] = ["Dust threshold U* on tiles div 2", "", "", "", ""] +atm_stashvar[3413] = ["Dust threshold U* on tiles div 3", "", "", "", ""] +atm_stashvar[3414] = ["Dust threshold U* on tiles div 4", "", "", "", ""] +atm_stashvar[3415] = ["Dust threshold U* on tiles div 5", "", "", "", ""] +atm_stashvar[3416] = ["Dust threshold U* on tiles div 6", "", "", "", ""] +atm_stashvar[3417] = ["Dust threshold U* on tiles div 7", "", "", "", ""] +atm_stashvar[3418] = ["Dust threshold U* on tiles div 8", "", "", "", ""] +atm_stashvar[3419] = ["Dust threshold U* on tiles div 9", "", "", "", ""] +atm_stashvar[3421] = ["Dust dry threshold U* on tiles div 1", "", "", "", ""] +atm_stashvar[3422] = ["Dust dry threshold U* on tiles div 2", "", "", "", ""] +atm_stashvar[3423] = ["Dust dry threshold U* on tiles div 3", "", "", "", ""] +atm_stashvar[3424] = ["Dust dry threshold U* on tiles div 4", "", "", "", ""] +atm_stashvar[3425] = ["Dust dry threshold U* on tiles div 5", "", "", "", ""] +atm_stashvar[3426] = ["Dust dry threshold U* on tiles div 6", "", "", "", ""] +atm_stashvar[3427] = ["Dust dry threshold U* on tiles div 7", "", "", "", ""] +atm_stashvar[3428] = ["Dust dry threshold U* on tiles div 8", "", "", "", ""] +atm_stashvar[3429] = ["Dust dry threshold U* on tiles div 9", "", "", "", ""] +atm_stashvar[3430] = ["Dust Friction velocity (U*) on tiles", "", "m s-1", "", ""] +atm_stashvar[3440] = ["TOTAL DUST DEPOSITION FLUX KG/M2/S", "", "", "", ""] +atm_stashvar[3441] = ["Dust dry dep flux from lev 1 div 1", "", "kg m-2 s-1", "", ""] +atm_stashvar[3442] = ["Dust dry dep flux from lev 1 div 2", "", "kg m-2 s-1", "", ""] +atm_stashvar[3443] = ["Dust dry dep flux from lev 1 div 3", "", "kg m-2 s-1", "", ""] +atm_stashvar[3444] = ["Dust dry dep flux from lev 1 div 4", "", "kg m-2 s-1", "", ""] +atm_stashvar[3445] = ["Dust dry dep flux from lev 1 div 5", "", "kg m-2 s-1", "", ""] +atm_stashvar[3446] = ["Dust dry dep flux from lev 1 div 6", "", "kg m-2 s-1", "", ""] +atm_stashvar[3451] = ["Dust dry dep flux from lev 2 div 1", "", "kg m-2 s-1", "", ""] +atm_stashvar[3452] = ["Dust dry dep flux from lev 2 div 2", "", "kg m-2 s-1", "", ""] +atm_stashvar[3453] = ["Dust dry dep flux from lev 2 div 3", "", "kg m-2 s-1", "", ""] +atm_stashvar[3454] = ["Dust dry dep flux from lev 2 div 4", "", "kg m-2 s-1", "", ""] +atm_stashvar[3455] = ["Dust dry dep flux from lev 2 div 5", "", "kg m-2 s-1", "", ""] +atm_stashvar[3456] = ["Dust dry dep flux from lev 2 div 6", "", "kg m-2 s-1", "", ""] +atm_stashvar[3460] = ["X-COMP SURFACE BL STRESS", "", "", "", ""] +atm_stashvar[3461] = ["Y-COMP SURFACE BL STRESS", "", "", "", ""] +atm_stashvar[3462] = ["STOMATAL CONDUCTANCE ON PFTS (M/S)", "", "", "", ""] +atm_stashvar[3463] = ["WIND GUST", "", "", "", ""] +atm_stashvar[3464] = ["OBUKHOV LENGTH", "", "", "", ""] +atm_stashvar[3465] = ["EXPLICIT FRICTION VELOCITY", "", "", "", ""] +atm_stashvar[3466] = ["CONVECTIVE BL VELOCITY SCALE", "", "", "", ""] +atm_stashvar[3467] = ["SURFACE BUOYANCY FLUX", "", "", "", ""] +atm_stashvar[3468] = ["GRADIENT RICHARDSON NUMBER", "", "", "", ""] +atm_stashvar[3469] = ["VERTICAL BUOYANCY GRADIENT", "", "", "", ""] +atm_stashvar[3470] = ["MODULUS OF WIND SHEAR", "", "", "", ""] +atm_stashvar[3471] = ["BL MOMENTUM DIFFUSION", "", "", "", ""] +atm_stashvar[3472] = ["BL HEAT DIFFUSION", "", "", "", ""] +atm_stashvar[3473] = ["TURBULENT KINETIC ENERGY", "", "", "", ""] +atm_stashvar[3474] = ["X-COMP OF DIST OROGRAPHIC STRESS", "", "", "", ""] +atm_stashvar[3475] = ["Y-COMP OF DIST OROGRAPHIC STRESS", "", "", "", ""] +atm_stashvar[3476] = ["COMBINED BOUNDARY LAYER TYPE", "", "", "", ""] +atm_stashvar[3477] = ["DPM SOIL CARBON POOL(B.LAYER) KGC/M2", "", "", "", ""] +atm_stashvar[3478] = ["RPM SOIL CARBON POOL(B.LAYER) KGC/M2", "", "", "", ""] +atm_stashvar[3479] = ["BIO SOIL CARBON POOL(B.LAYER) KGC/M2", "", "", "", ""] +atm_stashvar[3480] = ["HUM SOIL CARBON POOL(B.LAYER) KGC/M2", "", "", "", ""] +atm_stashvar[3481] = ["DPM SOIL RESPIRATION KG C/M2/S", "", "", "", ""] +atm_stashvar[3482] = ["RPM SOIL RESPIRATION KG C/M2/S", "", "", "", ""] +atm_stashvar[3483] = ["BIO SOIL RESPIRATION KG C/M2/S", "", "", "", ""] +atm_stashvar[3484] = ["HUM SOIL RESPIRATION KG C/M2/S", "", "", "", ""] +atm_stashvar[3485] = ["SOIL RESP TEMPERATURE RATE MODIFIER", "", "", "", ""] +atm_stashvar[3486] = ["SOIL RESP MOISTURE RATE MODIFIER", "", "", "", ""] +atm_stashvar[3487] = ["THETA STAR FROM SURFACE FLUX (K)", "", "", "", ""] +atm_stashvar[3488] = ["QV_STAR FROM SURFACE FLUX (kg/kg)", "", "", "", ""] +atm_stashvar[3489] = ["SOIL RESP VEG COVER RATE MODIFIER", "", "", "", ""] +atm_stashvar[3490] = ["ISOPRENE SURF EMIS PER PFTS", "", "", "", ""] +atm_stashvar[3491] = ["TERPENE SURF EMIS PER PFTS", "", "", "", ""] +atm_stashvar[3492] = ["METHANOL SURF EMIS PER PFTS", "", "", "", ""] +atm_stashvar[3493] = ["ACETONE SURF EMIS PER PFTS", "", "", "", ""] +atm_stashvar[3495] = ["ISOPRENE SURF EMIS", "", "", "", ""] +atm_stashvar[3496] = ["TERPENE SURF EMIS", "", "", "", ""] +atm_stashvar[3497] = ["METHANOL SURF EMIS", "", "", "", ""] +atm_stashvar[3498] = ["ACETONE SURF EMIS", "", "", "", ""] +atm_stashvar[3500] = ["IMPLICIT FRICTION VELOCITY", "", "", "", ""] +atm_stashvar[3501] = ["MIXING LENGTH FOR MOMENTUM (M)", "", "", "", ""] +atm_stashvar[3502] = ["MIXING LENGTH FOR SCALARS (M)", "", "", "", ""] +atm_stashvar[3503] = ["RHOKM DIFF COEFF - LOCAL SCHEME", "", "", "", ""] +atm_stashvar[3504] = ["RHOKH DIFF COEFF - LOCAL SCHEME", "", "", "", ""] +atm_stashvar[3505] = ["RHOKM DIFF COEFF - SURF-DRIVEN TURB", "", "", "", ""] +atm_stashvar[3506] = ["RHOKH DIFF COEFF - SURF-DRIVEN TURB", "", "", "", ""] +atm_stashvar[3507] = ["RHOKM DIFF COEFF - CLD-TOP-DRIVEN", "", "", "", ""] +atm_stashvar[3508] = ["RHOKH DIFF COEFF - CLD-TOP-DRIVEN", "", "", "", ""] +atm_stashvar[3509] = ["Seaice sublimation (cats) (kg/m2/s)", "", "", "", ""] +atm_stashvar[3510] = ["Net surf seaice ht flux (cats)(W/m2)", "", "", "", ""] +atm_stashvar[3511] = ["STABILITY FUNCTION FOR SCALARS", "", "", "", ""] +atm_stashvar[3512] = ["STABILITY FUNCTION FOR MOMENTUM", "", "", "", ""] +atm_stashvar[3513] = ["BLENDING WEIGHT FOR 1D BL SCHEME", "", "", "", ""] +atm_stashvar[3520] = ["SURFACE-BASED THETA PERTURBATION (K)", "", "", "", ""] +atm_stashvar[3521] = ["SURFACE-BASED MOISTURE PERTURBATION", "", "", "", ""] +atm_stashvar[3530] = ["LW UP OVER ICE, WEIGHTED(cats)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[3531] = ["LW UP OVER ICE, WEIGHTED(aggr)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[3532] = ["SENS. HF OVER ICE, WGTED(cats)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[3533] = ["SENS. HF OVER ICE, WGTED(aggr)(W/m2)", "", "W m-2", "", ""] +atm_stashvar[3534] = ["TSTAR OVER ICE, WEIGHTED(cats)(K)", "", "K", "", ""] +atm_stashvar[3535] = ["TSTAR OVER ICE, WEIGHTED(aggr)(K)", "", "K", "", ""] +atm_stashvar[3536] = ["SEA ICE TIME FRACTION (cats)", "", "1", "", ""] +atm_stashvar[3537] = ["SEA ICE TIME FRACTION (aggregate)", "", "1", "", ""] +atm_stashvar[3538] = ["SEA AND SEA ICE DRAG COEFFICIENT", "", "", "", ""] +atm_stashvar[3539] = ["TRANSPIRATION GRIDBOX MEAN", "", "", "", ""] +atm_stashvar[3540] = ["TRANSPIRATION ON TILES", "", "", "", ""] +atm_stashvar[3541] = ["SEA AND SEA ICE DRAG COEFF HEAT", "", "", "", ""] +atm_stashvar[3550] = ["LEONARD TERM PARAMETER FOR U", "", "", "", ""] +atm_stashvar[3551] = ["LEONARD TERM PARAMETER FOR V", "", "", "", ""] +atm_stashvar[3552] = ["LEONARD TERM PARAMETER FOR SCALARS", "", "", "", ""] +atm_stashvar[3553] = ["LEONARD TERM VERTICAL FLUX U WIND", "", "", "", ""] +atm_stashvar[3554] = ["LEONARD TERM VERTICAL FLUX V WIND", "", "", "", ""] +atm_stashvar[3555] = ["LEONARD TERM VERTICAL FLUX W WIND", "", "", "", ""] +atm_stashvar[3556] = ["LEONARD TERM VERTICAL FLUX theta_l", "", "", "", ""] +atm_stashvar[3557] = ["LEONARD TERM VERTICAL FLUX qw", "", "", "", ""] +atm_stashvar[3560] = ["X-COMP OF BL WIND STRESS ON P GRID", "", "", "", ""] +atm_stashvar[3561] = ["Y-COMP OF BL WIND STRESS ON P GRID", "", "", "", ""] +atm_stashvar[3662] = ["POTENTIAL NET PRIM PRODUC KG C/M2/S", "", "", "", ""] +atm_stashvar[3663] = ["POTENTIAL PLANT RESPIRATION KG/M2/S", "", "", "", ""] +atm_stashvar[3691] = ["POTEN NET PRIM PRODUC PFTS KG C/M2/S", "", "", "", ""] +atm_stashvar[3692] = ["POTEN PLANT RESP ON PFTS KG C/M2/S", "", "", "", ""] +atm_stashvar[3801] = ["CABLE SOIL TEMPERATURE ON TILES LAYER 1", "tsl_1", "K", "soil_temperature", ""] +atm_stashvar[3802] = ["CABLE SOIL TEMPERATURE ON TILES LAYER 2", "tsl_2", "K", "soil_temperature", ""] +atm_stashvar[3803] = ["CABLE SOIL TEMPERATURE ON TILES LAYER 3", "tsl_3", "K", "soil_temperature", ""] +atm_stashvar[3804] = ["CABLE SOIL TEMPERATURE ON TILES LAYER 4", "tsl_4", "K", "soil_temperature", ""] +atm_stashvar[3805] = ["CABLE SOIL TEMPERATURE ON TILES LAYER 5", "tsl_5", "K", "soil_temperature", ""] +atm_stashvar[3806] = ["CABLE SOIL TEMPERATURE ON TILES LAYER 6", "tsl_6", "K", "soil_temperature", ""] +atm_stashvar[3807] = ["CABLE SOIL MOISTURE ON TILES LAYER 1", "mrsol_1", "kg m-2", "moisture_content_of_soil_layer", ""] +atm_stashvar[3808] = ["CABLE SOIL MOISTURE ON TILES LAYER 2", "mrsol_2", "kg m-2", "moisture_content_of_soil_layer", ""] +atm_stashvar[3809] = ["CABLE SOIL MOISTURE ON TILES LAYER 3" , "mrsol_3", "kg m-2", "moisture_content_of_soil_layer", ""] +atm_stashvar[3810] = ["CABLE SOIL MOISTURE ON TILES LAYER 4", "mrsol_4", "kg m-2", "moisture_content_of_soil_layer", ""] +atm_stashvar[3811] = ["CABLE SOIL MOISTURE ON TILES LAYER 5", "mrsol_5", "kg m-2", "moisture_content_of_soil_layer", ""] +atm_stashvar[3812] = ["CABLE SOIL MOISTURE ON TILES LAYER 6", "mrsol_6", "kg m-2", "moisture_content_of_soil_layer", ""] +atm_stashvar[3813] = ["CABLE FROZEN SOIL MOIST FRAC ON TILES LAYER 1", "mrfsofr_1", "1", "mass_fraction_of_frozen_water_in_soil_moisture", ""] +atm_stashvar[3814] = ["CABLE FROZEN SOIL MOIST FRAC ON TILES LAYER 2", "mrfsofr_2", "1", "mass_fraction_of_frozen_water_in_soil_moisture", ""] +atm_stashvar[3815] = ["CABLE FROZEN SOIL MOIST FRAC ON TILES LAYER 3", "mrfsofr_3", "1", "mass_fraction_of_frozen_water_in_soil_moisture", ""] +atm_stashvar[3816] = ["CABLE FROZEN SOIL MOIST FRAC ON TILES LAYER 4", "mrfsofr_4", "1", "mass_fraction_of_frozen_water_in_soil_moisture", ""] +atm_stashvar[3817] = ["CABLE FROZEN SOIL MOIST FRAC ON TILES LAYER 5", "mrfsofr_5", "1", "mass_fraction_of_frozen_water_in_soil_moisture", ""] +atm_stashvar[3818] = ["CABLE FROZEN SOIL MOIST FRAC ON TILES LAYER 6", "mrfsofr_6", "1", "mass_fraction_of_frozen_water_in_soil_moisture", ""] +atm_stashvar[3819] = ["CABLE SNOW DEPTH ON TILES LAYER 1", "snd_1", "m", "surface_snow_thickness", ""] +atm_stashvar[3820] = ["CABLE SNOW DEPTH ON TILES LAYER 2", "snd_2", "m", "surface_snow_thickness", ""] +atm_stashvar[3821] = ["CABLE SNOW DEPTH ON TILES LAYER 3", "snd_3", "m", "surface_snow_thickness", ""] +atm_stashvar[3822] = ["CABLE SNOW MASS ON TILES LAYER 1", "snw_1", "kg m-2", "surface_snow_amount", ""] +atm_stashvar[3823] = ["CABLE SNOW MASS ON TILES LAYER 2", "snw_2", "kg m-2", "surface_snow_amount", ""] +atm_stashvar[3824] = ["CABLE SNOW MASS ON TILES LAYER 3", "snw_3", "kg m-2", "surface_snow_amount", ""] +atm_stashvar[3825] = ["CABLE SNOW TEMPERATURE ON TILES LAYER 1", "tsn_1", "K", "temperature_in_surface_snow", ""] +atm_stashvar[3826] = ["CABLE SNOW TEMPERATURE ON TILES LAYER 2", "tsn_2", "K", "temperature_in_surface_snow", ""] +atm_stashvar[3827] = ["CABLE SNOW TEMPERATURE ON TILES LAYER 3", "tsn_3", "K", "temperature_in_surface_snow", ""] +atm_stashvar[3828] = ["CABLE SNOW DENSITY ON TILES LAYER 1", "snow_dens_1", "kg m-3", "snow_density", ""] +atm_stashvar[3829] = ["CABLE SNOW DENSITY ON TILES LAYER 2", "snow_dens_2", "kg m-3", "snow_density", ""] +atm_stashvar[3830] = ["CABLE SNOW DENSITY ON TILES LAYER 3", "snow_dens_3", "kg m-3", "snow_density", ""] +atm_stashvar[3831] = ["CABLE MEAN SNOW DENSITY ON TILES", "snow_dens", "kg m-3", "snow_density", ""] +atm_stashvar[3832] = ["CABLE SNOW AGE ON TILES", "snow_age", "day", "age_of_surface_snow", ""] +atm_stashvar[3835] = ["PREVIOUS YEAR SURF FRACTIONS ON TILES", "", "", "", ""] +atm_stashvar[3851] = ["CARBON POOL LABILE ON TILES", "", "g m-2", "", ""] +atm_stashvar[3852] = ["CARBON POOL PLANT - LEAF ON TILES", "", "g m-2", "", ""] +atm_stashvar[3853] = ["CARBON POOL PLANT - WOOD ON TILES", "", "g m-2", "", ""] +atm_stashvar[3854] = ["CARBON POOL PLANT - ROOT ON TILES", "", "g m-2", "", ""] +atm_stashvar[3855] = ["CARBON POOL LITTER - METABOLIC ON TILES", "", "g m-2", "", ""] +atm_stashvar[3856] = ["CARBON POOL LITTER - STRUCTURAL ON TILES", "", "g m-2", "", ""] +atm_stashvar[3857] = ["CARBON POOL LITTER - COARSE WOODY DEBRIS ON TILES", "", "g m-2", "", ""] +atm_stashvar[3858] = ["CARBON POOL SOIL - MICROBIAL ON TILES", "", "g m-2", "", ""] +atm_stashvar[3859] = ["CARBON POOL SOIL - SLOW ON TILES", "", "g m-2", "", ""] +atm_stashvar[3860] = ["CARBON POOL SOIL - PASSIVE ON TILES", "", "g m-2", "", ""] +atm_stashvar[3861] = ["NITROGEN POOL PLANT - LEAF ON TILES", "", "g m-2", "", ""] +atm_stashvar[3862] = ["NITROGEN POOL PLANT - WOOD ON TILES", "", "g m-2", "", ""] +atm_stashvar[3863] = ["NITROGEN POOL PLANT - ROOT ON TILES", "", "g m-2", "", ""] +atm_stashvar[3864] = ["NITROGEN POOL LITTER - METABOLIC ON TILES", "", "g m-2", "", ""] +atm_stashvar[3865] = ["NITROGEN POOL LITTER - STRUCTURAL ON TILES", "", "g m-2", "", ""] +atm_stashvar[3866] = ["NITROGEN POOL LITTER - COARSE WOODY DEBRIS ON TILES", "", "g m-2", "", ""] +atm_stashvar[3867] = ["NITROGEN POOL SOIL - MICROBIAL ON TILES", "", "g m-2", "", ""] +atm_stashvar[3868] = ["NITROGEN POOL SOIL - SLOW ON TILES", "", "g m-2", "", ""] +atm_stashvar[3869] = ["NITROGEN POOL SOIL - PASSIVE ON TILES", "", "g m-2", "", ""] +atm_stashvar[3870] = ["NITROGEN POOL SOIL MINIMUM ON TILES", "", "g m-2", "", ""] +atm_stashvar[3871] = ["PHOSPHORUS POOL PLANT - LEAF ON TILES", "", "g m-2", "", ""] +atm_stashvar[3872] = ["PHOSPHORUS POOL PLANT - WOOD ON TILES", "", "g m-2", "", ""] +atm_stashvar[3873] = ["PHOSPHORUS POOL PLANT- ROOT ON TILES", "", "g m-2", "", ""] +atm_stashvar[3874] = ["PHOSPHORUS POOL LITTER - METABOLIC ON TILES", "", "g m-2", "", ""] +atm_stashvar[3875] = ["PHOSPHORUS POOL LITTER - STRUCTURAL ON TILES", "", "g m-2", "", ""] +atm_stashvar[3876] = ["PHOSPHORUS POOL LITTER - COARSE WOODY DEBRIS ON TILES", "", "g m-2", "", ""] +atm_stashvar[3877] = ["PHOSPHORUS POOL SOIL - MICROBIAL ON TILES", "", "g m-2", "", ""] +atm_stashvar[3878] = ["PHOSPHORUS POOL SOIL - SLOW ON TILES", "", "g m-2", "", ""] +atm_stashvar[3879] = ["PHOSPHORUS POOL SOIL - PASSIVE ON TILES", "", "g m-2", "", ""] +atm_stashvar[3880] = ["PHOSPHORUS POOL SOIL LABILE ON TILES", "", "g m-2", "", ""] +atm_stashvar[3881] = ["PHOSPHORUS POOL SOIL SORBED ON TILES", "", "g m-2", "", ""] +atm_stashvar[3882] = ["PHOSPHORUS POOL SOIL OCCLUDED ON TILES", "", "g m-2", "", ""] +atm_stashvar[3883] = ["SOIL ORDER", "", "", "", ""] +atm_stashvar[3884] = ["NITROGEN DEPOSITION", "", "g m-2 day-1", "", ""] +atm_stashvar[3885] = ["NITROGEN FIXATION", "", "g m-2 year-1", "", ""] +atm_stashvar[3887] = ["PHOSPHORUS FROM DUST", "", "g P m-2 yr-1", "", ""] +atm_stashvar[3888] = ["PHOSPHORUS FROM WEATHERING", "", "g P m-2 yr-1", "", ""] +atm_stashvar[3893] = ["LEAF AREA INDEX (CASA-CNP GLAI)", "", "", "", ""] +atm_stashvar[3895] = ["CARBON FLUX TO WOOD PRODUCTS", "", "g m-2 year-1", "", ""] +atm_stashvar[3896] = ["NITROGEN FLUX TO WOOD PRODUCTS", "", "g m-2 year-1", "", ""] +atm_stashvar[3897] = ["PHOSPHORUS FLUX TO WOOD PRODUCTS", "", "g m-2 year-1", "", ""] +atm_stashvar[3898] = ["WOOD HARVEST CARBON POOL 1", "", "g m-2", "", ""] +atm_stashvar[3899] = ["WOOD HARVEST CARBON POOL 2", "", "g m-2", "", ""] +atm_stashvar[3900] = ["WOOD HARVEST CARBON POOL 3", "", "g m-2", "", ""] +atm_stashvar[3901] = ["WOOD HARVEST NITROGEN POOL 1", "", "g m-2", "", ""] +atm_stashvar[3902] = ["WOOD HARVEST NITROGEN POOL 2", "", "g m-2", "", ""] +atm_stashvar[3903] = ["WOOD HARVEST NITROGEN POOL 3", "", "g m-2", "", ""] +atm_stashvar[3904] = ["WOOD HARVEST PHOSPHORUS POOL 1", "", "g m-2", "", ""] +atm_stashvar[3905] = ["WOOD HARVEST PHOSPHORUS POOL 2", "", "g m-2", "", ""] +atm_stashvar[3906] = ["WOOD HARVEST PHOSPHORUS POOL 3", "", "g m-2", "", ""] +atm_stashvar[3907] = ["WOOD RESPIRATION CARBON FLUX 1", "", "g m-2 yr-1", "", ""] +atm_stashvar[3908] = ["WOOD RESPIRATION CARBON FLUX 2", "", "g m-2 yr-1", "", ""] +atm_stashvar[3909] = ["WOOD RESPIRATION CARBON FLUX 3", "", "g m-2 yr-1", "", ""] +atm_stashvar[3910] = ["WOOD RESPIRATION NITROGEN FLUX 1", "", "g m-2 yr-1", "", ""] +atm_stashvar[3911] = ["WOOD RESPIRATION NITROGEN FLUX 2", "", "g m-2 yr-1", "", ""] +atm_stashvar[3912] = ["WOOD RESPIRATION NITROGEN FLUX 2", "", "g m-2 yr-1", "", ""] +atm_stashvar[3913] = ["WOOD RESPIRATION PHOSPHORUS 1", "", "g m-2 yr-1", "", ""] +atm_stashvar[3914] = ["WOOD RESPIRATION PHOSPHORUS 2", "", "g m-2 yr-1", "", ""] +atm_stashvar[3915] = ["WOOD RESPIRATION PHOSPHORUS 3", "", "g m-2 yr-1", "", ""] +atm_stashvar[3916] = ["THIN RATIO FOR FOREST", "", "", "", ""] +atm_stashvar[3917] = ["NITROGEN NET RELEASE", "", "kg m-2 yr-1", "", ""] +atm_stashvar[3918] = ["NITROGEN LEACHING", "", "kg m-2 yr-1", "", ""] +atm_stashvar[3919] = ["NITROGEN UPTAKE", "", "kg m-2 yr-1", "", ""] +atm_stashvar[3920] = ["NITROGEN LOSS", "", "kg m-2 yr-1", "", ""] +atm_stashvar[4004] = ["TEMPERATURE AFTER LARGE SCALE PRECIP", "", "", "", ""] +atm_stashvar[4010] = ["SPECIFIC HUMIDITY AFTER LS PRECIP", "", "", "", ""] +atm_stashvar[4100] = ["ICE AGGREGATE FRACTION", "", "", "", ""] +atm_stashvar[4101] = ["MICROPHYSICS GRID BOX FLAG", "", "", "", ""] +atm_stashvar[4102] = ["MEAN FALLSPEED CRYSTALS", "", "", "", ""] +atm_stashvar[4103] = ["MEAN FALLSPEED AGGREGATES", "", "", "", ""] +atm_stashvar[4104] = ["FALLSPEED BRANCH FLAG", "", "", "", ""] +atm_stashvar[4105] = ["FALLSPEED USED", "", "", "", ""] +atm_stashvar[4110] = ["SURFACE RADAR REFLECTIVITY (dBZ)", "", "", "", ""] +atm_stashvar[4111] = ["MAX REFLECTIVITY IN COLUMN (dBZ)", "", "", "", ""] +atm_stashvar[4112] = ["RADAR REFLECTIVITY AT 1KM AGL (dBZ)", "", "", "", ""] +atm_stashvar[4113] = ["GRAUPEL RADAR REFLECTIVITY (dBZ)", "", "", "", ""] +atm_stashvar[4114] = ["ICE AGG RADAR REFLECTIVITY (dBZ)", "", "", "", ""] +atm_stashvar[4115] = ["ICE CRY RADAR REFLECTIVITY (dBZ)", "", "", "", ""] +atm_stashvar[4116] = ["RAIN RADAR REFLECTIVITY (dBZ)", "", "", "", ""] +atm_stashvar[4117] = ["LIQ. CLOUD RADAR REFLECTIVITY (dBZ)", "", "", "", ""] +atm_stashvar[4118] = ["TOTAL RADAR REFLECTIVITY 3D (dBZ)", "", "", "", ""] +atm_stashvar[4130] = ["QCL INCR: pc2 checks positive", "", "", "", ""] +atm_stashvar[4131] = ["QCL INCR: pc2 checks negative", "", "", "", ""] +atm_stashvar[4132] = ["QCF INCR: pc2 checks positive", "", "", "", ""] +atm_stashvar[4133] = ["QCF INCR: pc2 checks negative", "", "", "", ""] +atm_stashvar[4136] = ["LIQ CLOUD VOL INCR: pc2 checks posit", "", "", "", ""] +atm_stashvar[4137] = ["LIQ CLOUD VOL INCR: pc2 checks negat", "", "", "", ""] +atm_stashvar[4138] = ["ICE CLOUD VOL INCR: pc2 checks posit", "", "", "", ""] +atm_stashvar[4139] = ["ICE CLOUD VOL INCR: pc2 checks negat", "", "", "", ""] +atm_stashvar[4141] = ["TEMPERATURE INCR: pc2 checks", "", "", "", ""] +atm_stashvar[4142] = ["SPECIFIC HUMIDITY INCR: pc2 checks", "", "", "", ""] +atm_stashvar[4143] = ["QCL INCR: pc2 checks", "", "", "", ""] +atm_stashvar[4144] = ["QCF INCR: pc2 checks", "", "", "", ""] +atm_stashvar[4152] = ["BULK CLOUD VOL INCR: pc2 checks", "", "", "", ""] +atm_stashvar[4153] = ["LIQ CLOUD VOL INCR: pc2 checks", "", "", "", ""] +atm_stashvar[4154] = ["ICE CLOUD VOL INCR: pc2 checks", "", "", "", ""] +atm_stashvar[4170] = ["QCL INCR: ls rain positive", "", "", "", ""] +atm_stashvar[4171] = ["QCL INCR: ls rain negative", "", "", "", ""] +atm_stashvar[4172] = ["QCF INCR: ls rain positive", "", "", "", ""] +atm_stashvar[4173] = ["QCF INCR: ls rain negative", "", "", "", ""] +atm_stashvar[4176] = ["LIQ CLOUD VOL INCR: ls rain positive", "", "", "", ""] +atm_stashvar[4177] = ["LIQ CLOUD VOL INCR: ls rain negative", "", "", "", ""] +atm_stashvar[4178] = ["ICE CLOUD VOL INCR: ls rain positive", "", "", "", ""] +atm_stashvar[4179] = ["ICE CLOUD VOL INCR: ls rain negative", "", "", "", ""] +atm_stashvar[4181] = ["TEMPERATURE INCR: ls rain", "", "", "", ""] +atm_stashvar[4182] = ["SPECIFIC HUMIDITY INCR: ls rain", "", "", "", ""] +atm_stashvar[4183] = ["QCL INCR: ls rain", "", "", "", ""] +atm_stashvar[4184] = ["QCF INCR: ls rain", "", "", "", ""] +atm_stashvar[4189] = ["RAIN INCR: ls rain kg/kg/timestep", "", "", "", ""] +atm_stashvar[4190] = ["GRAUPEL INCR: ls rain kg/kg/timestep", "", "", "", ""] +atm_stashvar[4191] = ["QCF2 INCR: ls rain kg/kg/timestep", "", "", "", ""] +atm_stashvar[4192] = ["BULK CLOUD VOL INCR: ls rain", "", "", "", ""] +atm_stashvar[4193] = ["LIQUID CLOUD VOL INCR: ls rain", "", "", "", ""] +atm_stashvar[4194] = ["FROZEN CLOUD VOL INCR: ls rain", "", "", "", ""] +atm_stashvar[4201] = ["LARGE SCALE RAIN AMOUNT KG/M2/TS", "", "", "", ""] +atm_stashvar[4202] = ["LARGE SCALE SNOW AMOUNT KG/M2/TS", "", "", "", ""] +atm_stashvar[4203] = ["LARGE SCALE RAINFALL RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[4204] = ["LARGE SCALE SNOWFALL RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[4205] = ["CLOUD LIQUID WATER AFTER LS PRECIP", "", "", "", ""] +atm_stashvar[4206] = ["CLOUD ICE CONTENT AFTER LS PRECIP", "", "", "", ""] +atm_stashvar[4207] = ["RELATIVE HUMIDITY AFTER LS PRECIP", "", "", "", ""] +atm_stashvar[4208] = ["R. HUMIDITY WRT WATER AFTER PRECIP", "", "", "", ""] +atm_stashvar[4209] = ["LARGE SCALE GRAUPEL AMOUNT KG/M2/TS", "", "", "", ""] +atm_stashvar[4210] = ["CLOUD DROP NUMBER CONC. /m3", "", "", "", ""] +atm_stashvar[4211] = ["POT. CLOUD DROP NUMBER CONC. /m3", "", "", "", ""] +atm_stashvar[4212] = ["LARGE SCALE GRAUPEL RATE KG/M2/S", "", "", "", ""] +atm_stashvar[4213] = ["DISS NITR RNOUT BY LS PPN KG[N]/M2/S", "", "", "", ""] +atm_stashvar[4214] = ["ACC NITR WSHOUT BY LS PPN KG[N]/M2/S", "", "", "", ""] +atm_stashvar[4215] = ["NH3 SCAVENGED BY LS PPN KG/M2/S", "", "", "", ""] +atm_stashvar[4216] = ["SO2 SCAVENGED BY LS PPN KG/M2/S", "", "", "", ""] +atm_stashvar[4219] = ["SO4 DIS SCAVNGD BY LS PPN KG/M2/S", "", "", "", ""] +atm_stashvar[4220] = ["SOOT RAINOUT BY LS PPN KG/M2/S", "", "", "", ""] +atm_stashvar[4221] = ["SOOT WASHOUT BY LS PPN KG/M2/S", "", "", "", ""] +atm_stashvar[4222] = ["RAINFALL RATE OUT OF MODEL LEVELS", "", "", "", ""] +atm_stashvar[4223] = ["SNOWFALL RATE OUT OF MODEL LEVELS", "", "", "", ""] +atm_stashvar[4224] = ["SUPERCOOLED LIQUID WATER CONTENT", "", "", "", ""] +atm_stashvar[4225] = ["SUPERCOOLED RAIN OUT OF MODEL LEVELS", "", "", "", ""] +atm_stashvar[4226] = ["GRAUPEL FALL RATE ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[4227] = ["RAIN FRACTION OUT OF MODEL LEVELS", "", "", "", ""] +atm_stashvar[4228] = ["OCFF RAINOUT BY LS PPN KG/M2/S", "", "", "", ""] +atm_stashvar[4229] = ["OCFF WASHOUT BY LS PPN KG/M2/S", "", "", "", ""] +atm_stashvar[4231] = ["Dust wet dep flux ls precip div 1", "", "kg m-2 s-1", "", ""] +atm_stashvar[4232] = ["Dust wet dep flux ls precip div 2", "", "kg m-2 s-1", "", ""] +atm_stashvar[4233] = ["Dust wet dep flux ls precip div 3", "", "kg m-2 s-1", "", ""] +atm_stashvar[4234] = ["Dust wet dep flux ls precip div 4", "", "kg m-2 s-1", "", ""] +atm_stashvar[4235] = ["Dust wet dep flux ls precip div 5", "", "kg m-2 s-1", "", ""] +atm_stashvar[4236] = ["Dust wet dep flux ls precip div 6", "", "kg m-2 s-1", "", ""] +atm_stashvar[4237] = ["BIOMASS RAINOUT BY LS PPN KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[4238] = ["BIOMASS WASHOUT BY LS PPN KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[4240] = ["HOMOGENEOUS NUCLEATION RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4241] = ["HETEROGENOUS NUCLEATION RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4243] = ["DEPOSITION RATE CRY kg/kg/s", "", "", "", ""] +atm_stashvar[4245] = ["DEPOSITION RATE AGG kg/kg/s", "", "", "", ""] +atm_stashvar[4247] = ["RIMING RATE CRY kg/kg/s", "", "", "", ""] +atm_stashvar[4248] = ["RIMING RATE AGG kg/kg/s", "", "", "", ""] +atm_stashvar[4249] = ["CRY RAIN-CAPTURE RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4250] = ["AGG RAIN-CAPTURE RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4251] = ["EVAP OF MELTING CRY kg/kg/s", "", "", "", ""] +atm_stashvar[4252] = ["EVAP OF MELTING SNOW AGG kg/kg/s", "", "", "", ""] +atm_stashvar[4253] = ["MELTING RATE CRY kg/kg/s", "", "", "", ""] +atm_stashvar[4254] = ["MELTING RATE AGG kg/kg/s", "", "", "", ""] +atm_stashvar[4255] = ["SNOW AUTOCONV RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4256] = ["SNOW CAPTURE OF CRYSTALS kg/kg/s", "", "", "", ""] +atm_stashvar[4257] = ["RAIN AUTOCONV RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4258] = ["RAIN ACCRETION RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4259] = ["EVAPORATION OF RAIN RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4260] = ["GRAUPEL AUTOCONV RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4261] = ["GRAUPEL ACCRETION RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4262] = ["GRAUPEL SNOW-CAPTURE RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4263] = ["GRAUPEL MELTING RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4264] = ["GRAUPEL EVAPORATION RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4265] = ["ICE CRYSTAL SEDIMENT RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4266] = ["SNOW AGG. SEDIMENT RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4267] = ["RAIN SEDIMENT RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4268] = ["GRAUPEL SEDIMENT RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4269] = ["DROPLET SETTLE RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4270] = ["DROPLET SETTLE EVAP RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4271] = ["HOMOG FREEZING NUC RAIN. kg/ks/s", "", "", "", ""] +atm_stashvar[4275] = ["SURFACE MAX HAIL DIAMETER mm", "", "", "", ""] +atm_stashvar[4276] = ["COLUMN MAX HAIL DIAMETER mm", "", "", "", ""] +atm_stashvar[4277] = ["MAX HAIL DIAMETER MODEL LEVELS mm", "", "", "", ""] +atm_stashvar[4281] = ["TEMPERATURE INCR: pc2 erosion", "", "", "", ""] +atm_stashvar[4282] = ["SPECIFIC HUMIDITY INCR: pc2 erosion", "", "", "", ""] +atm_stashvar[4283] = ["QCL INCR: pc2 erosion", "", "", "", ""] +atm_stashvar[4292] = ["BULK CLOUD VOL INCR: pc2 erosion", "", "", "", ""] +atm_stashvar[4293] = ["LIQ CLOUD VOL INCR: pc2 erosion", "", "", "", ""] +atm_stashvar[4294] = ["QCL DIAG: TURB. MIXED PHASE (KG/KG)", "", "", "", ""] +atm_stashvar[4295] = ["CFL DIAGNOSED: TURB. MIXED PHASE", "", "", "", ""] +atm_stashvar[4296] = ["TURB. DECORRELATION TIMESCALE (S)", "", "", "", ""] +atm_stashvar[4297] = ["INV. PHASE-RELAXATION TIMESCALE", "", "", "", ""] +atm_stashvar[4298] = ["DIAGNOSED TURBULENT DISSIPATION RATE", "", "", "", ""] +atm_stashvar[4299] = ["INVERSE MIXING TIMESCALE (S-1)", "", "", "", ""] +atm_stashvar[4300] = ["MEAN OF SUBGRID SUPERSAT. PDF", "", "", "", ""] +atm_stashvar[4301] = ["VARIANCE OF SUBGRID SUPERSAT. PDF", "", "", "", ""] +atm_stashvar[4302] = ["L.S. SNOW AMOUNT NO GRAUP KG/M2/TS", "", "", "", ""] +atm_stashvar[4303] = ["QCL INCR MIXED PHASE USING PC2", "", "", "", ""] +atm_stashvar[4304] = ["L.S. SNOWFALL RATE NO GRAUP KG/M2/S", "", "", "", ""] +atm_stashvar[4313] = ["CFL INCR MIXED PHASE USING PC2", "", "", "", ""] +atm_stashvar[4323] = ["SNOWFALL RATE NO GRAUPEL MODEL LEVS", "", "", "", ""] +atm_stashvar[4325] = ["CLOUD COND/EVAP RATE KG/KG/S", "", "", "", ""] +atm_stashvar[4336] = ["ICE CLOUD SEDIMENT. RATE KG/KG/S", "", "", "", ""] +atm_stashvar[4350] = ["HOMO FREEZING OF CLOUD NUMBER TEND.", "", "", "", ""] +atm_stashvar[4351] = ["HOMO FREEZING OF RAIN NUMBER TEND.", "", "", "", ""] +atm_stashvar[4352] = ["HALLETT MOSSOP ICE NUMBER TEND.", "", "", "", ""] +atm_stashvar[4353] = ["ICE NUCLEATION ICE NUMBER TEND.", "", "", "", ""] +atm_stashvar[4354] = ["ICE SEDIMENTATION NUMBER TEND.", "", "", "", ""] +atm_stashvar[4355] = ["SNOW SEDIMENTATION NUMBER TEND.", "", "", "", ""] +atm_stashvar[4356] = ["GRAUPEL SEDIMENTATION NUMBER TEND.", "", "", "", ""] +atm_stashvar[4400] = ["SUBGRID OROG WATER MIX RATIO kg/kg", "", "", "", ""] +atm_stashvar[4401] = ["SUBGRID OROG RAIN ACCR RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4402] = ["SUBGRID OROG SNOW RMNG RATE kg/kg/s", "", "", "", ""] +atm_stashvar[4982] = ["Q INCR: methane oxidation", "", "", "", ""] +atm_stashvar[5010] = ["SPECIFIC HUMIDITY AFTER CONVECTION", "", "", "", ""] +atm_stashvar[5140] = ["QCL INCR: conv inhom positive", "", "", "", ""] +atm_stashvar[5141] = ["QCL INCR: conv inhom negative", "", "", "", ""] +atm_stashvar[5142] = ["QCF INCR: conv inhom positive", "", "", "", ""] +atm_stashvar[5143] = ["QCF INCR: conv inhom negative", "", "", "", ""] +atm_stashvar[5146] = ["LIQ CLOUD VOL INCR: conv inhom posit", "", "", "", ""] +atm_stashvar[5147] = ["LIQ CLOUD VOL INCR: conv inhom negat", "", "", "", ""] +atm_stashvar[5148] = ["ICE CLOUD VOL INCR: conv inhom posit", "", "", "", ""] +atm_stashvar[5149] = ["ICE CLOUD VOL INCR: conv inhom negat", "", "", "", ""] +atm_stashvar[5150] = ["QCL INCR: pc2 turbulence", "", "", "", ""] +atm_stashvar[5151] = ["QCL INCR: pc2 turbulence positive", "", "", "", ""] +atm_stashvar[5152] = ["QCL INCR: pc2 turbulence negative", "", "", "", ""] +atm_stashvar[5156] = ["LIQ CLOUD VOL INCR: pc2 turbulence", "", "", "", ""] +atm_stashvar[5157] = ["LIQ CLOUD VOL INCR: pc2 turb positiv", "", "", "", ""] +atm_stashvar[5158] = ["LIQ CLOUD VOL INCR: pc2 turb negativ", "", "", "", ""] +atm_stashvar[5161] = ["TEMPERATURE INCR: convection", "", "", "", ""] +atm_stashvar[5162] = ["SPECIFIC HUMIDITY INCR: convection", "", "", "", ""] +atm_stashvar[5163] = ["QCL INCR: conv inhom", "", "", "", ""] +atm_stashvar[5164] = ["QCF INCR: conv inhom", "", "", "", ""] +atm_stashvar[5172] = ["BULK CLOUD VOL INCR: conv inhom", "", "", "", ""] +atm_stashvar[5173] = ["LIQUID CLOUD VOL INCR: conv inhom", "", "", "", ""] +atm_stashvar[5174] = ["FROZEN CLOUD VOL INCR: conv inhom", "", "", "", ""] +atm_stashvar[5175] = ["du/dt from downdraughts(ms-2 P grid)", "", "", "", ""] +atm_stashvar[5176] = ["dv/dt from downdraughts(ms-2 P grid)", "", "", "", ""] +atm_stashvar[5181] = ["TEMPERATURE INC:convect +(PC2 inhom)", "", "", "", ""] +atm_stashvar[5182] = ["Q INCR: convection +(PC2 inhom)", "", "", "", ""] +atm_stashvar[5183] = ["QCL INCR: convection +(PC2 inhom)", "", "", "", ""] +atm_stashvar[5184] = ["QCF INCR: convection +(PC2 inhom)", "", "", "", ""] +atm_stashvar[5185] = ["U WIND INCR: convection", "", "", "", ""] +atm_stashvar[5186] = ["V WIND INCR: convection", "", "", "", ""] +atm_stashvar[5187] = ["TEMP INCR: convection (no shallowc)", "", "", "", ""] +atm_stashvar[5188] = ["SPEC HUM INCR:convect. (no shallowc)", "", "", "", ""] +atm_stashvar[5192] = ["BULK CLOUD VOL INCR: convection", "", "", "", ""] +atm_stashvar[5193] = ["LIQUID CLOUD VOL INCR: convection", "", "", "", ""] +atm_stashvar[5194] = ["FROZEN CLOUD VOL INCR: convection", "", "", "", ""] +atm_stashvar[5196] = ["(Convective vert. vel.)^2 [(m/s)^2]", "", "", "", ""] +atm_stashvar[5197] = ["Convective vertical velocity [m/s]", "", "", "", ""] +atm_stashvar[5198] = ["d(Temp)/dt from downdraughts K/s", "", "", "", ""] +atm_stashvar[5199] = ["d(q)/dt from downdraughts kg/kg/s", "", "", "", ""] +atm_stashvar[5201] = ["CONVECTIVE RAIN AMOUNT KG/M2/TS", "", "", "", ""] +atm_stashvar[5202] = ["CONVECTIVE SNOW AMOUNT KG/M2/TS", "", "", "", ""] +atm_stashvar[5205] = ["CONVECTIVE RAINFALL RATE KG/M2/S", "", "kg m-2 s-1", "convective_rainfall_flux", ""] +atm_stashvar[5206] = ["CONVECTIVE SNOWFALL RATE KG/M2/S", "", "kg m-2 s-1", "convective_snowfall_flux", ""] +atm_stashvar[5207] = ["PRESSURE AT CONVECTIVE CLOUD BASE", "ccb", "Pa", "air_pressure_at_convective_cloud_base", ""] +atm_stashvar[5208] = ["PRESSURE AT CONVECTIVE CLOUD TOP", "cct", "Pa", "air_pressure_at_convective_cloud_top", ""] +atm_stashvar[5209] = ["TEMPERATURE AFTER CONVECTION", "", "", "", ""] +atm_stashvar[5210] = ["ICAO HT OF CONVECTIVE CLOUD BASE", "", "", "", ""] +atm_stashvar[5211] = ["ICAO HT OF CONVECTIVE CLOUD TOP", "", "", "", ""] +atm_stashvar[5212] = ["CONV. CLOUD AMOUNT ON EACH MODEL LEV", "", "", "", ""] +atm_stashvar[5213] = ["CONV CLOUD CONDENSED WATER KG/KG", "", "", "", ""] +atm_stashvar[5214] = ["TOTAL RAINFALL RATE: LS+CONV KG/M2/S", "prrn", "kg m-2 s-1", "rainfall_flux", ""] +atm_stashvar[5215] = ["TOTAL SNOWFALL RATE: LS+CONV KG/M2/S", "prsn", "kg m-2 s-1", "snowfall_flux", ""] +atm_stashvar[5216] = ["TOTAL PRECIPITATION RATE KG/M2/S", "pr", "kg m-2 s-1", "precipitation_flux", ""] +atm_stashvar[5217] = ["DILUTE CONVECTIVELY AVAIL POT E J/KG", "", "", "", ""] +atm_stashvar[5218] = ["LOWEST CONV CLOUD BASE LEVEL NO.", "", "", "", ""] +atm_stashvar[5219] = ["LOWEST CONV CLOUD TOP LEVEL NO.", "", "", "", ""] +atm_stashvar[5220] = ["LOWEST CONV CLOUD AMOUNT AFTER CONV", "", "", "", ""] +atm_stashvar[5222] = ["PRESSURE AT LOWEST CONV CLOUD BASE", "", "", "", ""] +atm_stashvar[5223] = ["PRESSURE AT LOWEST CONV CLOUD TOP", "", "", "", ""] +atm_stashvar[5224] = ["ICAO HT OF LOWEST CONV CLOUD BASE", "", "", "", ""] +atm_stashvar[5225] = ["ICAO HT OF LOWEST CONV CLOUD TOP", "", "", "", ""] +atm_stashvar[5226] = ["TOTAL PRECIPITATION AMOUNT KG/M2/TS", "", "kg m-2", "precipitation_amount", ""] +atm_stashvar[5227] = ["NOMINAL 3D CONVECTIVE RAINFALL RATE", "", "", "", ""] +atm_stashvar[5228] = ["NOMINAL 3D CONVECTIVE SNOWFALL RATE", "", "", "", ""] +atm_stashvar[5229] = ["Fractional updraught area", "", "", "", ""] +atm_stashvar[5230] = ["Fractional downdraught area", "", "", "", ""] +atm_stashvar[5231] = ["CAPE TIMESCALE (DEEP) S", "", "", "", ""] +atm_stashvar[5232] = ["INDICATOR REDUCED CAPE TIMESCALE", "", "", "", ""] +atm_stashvar[5233] = ["UNDILUTE CAPE J/KG", "", "", "", ""] +atm_stashvar[5234] = ["UNDILUTE PARCEL CIN J/KG", "", "", "", ""] +atm_stashvar[5235] = ["U compnt of wind after convection", "", "", "", ""] +atm_stashvar[5236] = ["V compnt of wind after convection", "", "", "", ""] +atm_stashvar[5237] = ["NH3 SCAVENGED BY CONV PPN KG/M2/SEC", "", "", "", ""] +atm_stashvar[5238] = ["SO2 SCAVENGED BY CONV PPN KG/M2/SEC", "", "", "", ""] +atm_stashvar[5239] = ["SO4 AIT SCAVNGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5240] = ["SO4 ACC SCAVNGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5241] = ["SO4 DIS SCAVNGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5242] = ["SOOT SCAVNGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5243] = ["BIOMASS SCAVNGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5244] = ["OCFF SCAVNGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5246] = ["UD MFLUX(rho lev) Component A (Pa/s)", "", "", "", ""] +atm_stashvar[5247] = ["ACC NIT SCVGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5248] = ["DISS NIT SCVGD BY CONV PPN KG/M2/S", "", "", "", ""] +atm_stashvar[5249] = ["UD MASS FLUX rho levels (Pa/s)", "", "Pa s-1", "", ""] +atm_stashvar[5250] = ["UPDRAUGHT MASS FLUX (Pa/s)", "", "Pa s-1", "", ""] +atm_stashvar[5251] = ["DOWNDRAUGHT MASS FLUX (PA/S)", "", "Pa s-1", "", ""] +atm_stashvar[5252] = ["UPDRAUGHT ENTRAINMENT RATE (S-1)", "", "", "", ""] +atm_stashvar[5253] = ["UPDRAUGHT DETRAINMENT RATE (S-1)", "", "", "", ""] +atm_stashvar[5254] = ["DOWNDRAUGHT ENTRAINMENT RATE (S-1)", "", "", "", ""] +atm_stashvar[5255] = ["DOWNDRAUGHT DETRAINMENT RATE (S-1)", "", "", "", ""] +atm_stashvar[5256] = ["U INCREMENT MS-2 ( P GRID)", "", "", "", ""] +atm_stashvar[5257] = ["V INCREMENT MS-2 ( P GRID)", "", "", "", ""] +atm_stashvar[5258] = ["DEEP UW STRESS KG M-1 S-2 P GRID", "", "", "", ""] +atm_stashvar[5259] = ["DEEP VW STRESS KG M-1 S-2 P GRID", "", "", "", ""] +atm_stashvar[5260] = ["SHALL UW STRESS KG M-1 S-2 P GRID", "", "", "", ""] +atm_stashvar[5261] = ["SHALL VW STRESS KG M-1 S-2 P GRID", "", "", "", ""] +atm_stashvar[5262] = ["2D CONVECTIVE CLOUD AMOUNT", "", "", "", ""] +atm_stashvar[5263] = ["MID UW STRESS KG M-1 S-2 P GRID", "", "", "", ""] +atm_stashvar[5264] = ["MID VW STRESS KG M-1 S-2 P GRID", "", "", "", ""] +atm_stashvar[5267] = ["DEEP CONVECTION CFL LIMITED", "", "", "", ""] +atm_stashvar[5268] = ["MID-LEVEL CONVECTION CFL LIMITED", "", "", "", ""] +atm_stashvar[5269] = ["DEEP CONVECTION INDICATOR", "", "", "", ""] +atm_stashvar[5270] = ["SHALLOW CONVECTION INDICATOR", "", "", "", ""] +atm_stashvar[5271] = ["CUMULUS OVER OROGRAPHY INDICATOR", "", "", "", ""] +atm_stashvar[5272] = ["MID LEVEL CONVECTION INDICATOR", "", "", "", ""] +atm_stashvar[5273] = ["TOP LEVEL SURFACE MIXING LAYER", "", "", "", ""] +atm_stashvar[5274] = ["TOP LEVEL INITIAL PARCEL ASCENT", "", "", "", ""] +atm_stashvar[5275] = ["MODEL FREEZING LEVEL", "", "", "", ""] +atm_stashvar[5276] = ["TERMINATION LEVEL for DEEP CONVECT", "", "", "", ""] +atm_stashvar[5277] = ["DEEP CONV PRECIP RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[5278] = ["SHALLOW CONV PRECIP RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[5279] = ["MID LEVEL CONV PRECIP RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[5280] = ["CONGESTUS CONV PRECIP RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[5281] = ["Dust wet dep flux conv precip div 1", "", "kg m-2 s-1", "", ""] +atm_stashvar[5282] = ["Dust wet dep flux conv precip div 2", "", "kg m-2 s-1", "", ""] +atm_stashvar[5283] = ["Dust wet dep flux conv precip div 3", "", "kg m-2 s-1", "", ""] +atm_stashvar[5284] = ["Dust wet dep flux conv precip div 4", "", "kg m-2 s-1", "", ""] +atm_stashvar[5285] = ["Dust wet dep flux conv precip div 5", "", "kg m-2 s-1", "", ""] +atm_stashvar[5286] = ["Dust wet dep flux conv precip div 6", "", "kg m-2 s-1", "", ""] +atm_stashvar[5290] = ["WQT FLUX KG/KG M/S UV LEVEL P GRID", "", "", "", ""] +atm_stashvar[5291] = ["WQL FLUX KG/KG M/S UV LEVEL P GRID", "", "", "", ""] +atm_stashvar[5292] = ["WTHETAL FLUX K M/S UV LEV P GRID", "", "", "", ""] +atm_stashvar[5293] = ["WTHETAV FLUX K M/S UV LEV P GRID", "", "", "", ""] +atm_stashvar[5300] = ["SUBCLOUD LAYER CONV VEL SCALE M/S", "", "", "", ""] +atm_stashvar[5301] = ["CUMULUS LAYER CONV VEL SCALE M/S", "", "", "", ""] +atm_stashvar[5302] = ["CLOUD BASE MASS FLUX 1 M/S", "", "", "", ""] +atm_stashvar[5303] = ["CLOUD BASE MASS FLUX 2 M/S", "", "", "", ""] +atm_stashvar[5304] = ["WQT FLUX AT CLOUD BASE KG/KG M/S", "", "", "", ""] +atm_stashvar[5305] = ["WTHETAL FLUX AT CLOUD BASE KG/KGM/S", "", "", "", ""] +atm_stashvar[5306] = ["WQT FLUX AT INVERSION KG/KG M/S", "", "", "", ""] +atm_stashvar[5307] = ["WTHETAL FLUX AT INVERSION KG/KG M/S", "", "", "", ""] +atm_stashvar[5308] = ["HEIGHT OF TOP OF SHALLOW CONV M", "", "", "", ""] +atm_stashvar[5309] = ["HEIGHT OF BASE OF SHALLOW CONV M", "", "", "", ""] +atm_stashvar[5310] = ["CONGESTUS CONVECTION INDICATOR", "", "", "", ""] +atm_stashvar[5311] = ["CONGESTUS CONVECTION INDICATOR 2", "", "", "", ""] +atm_stashvar[5312] = ["TERMINATION LEVEL FOR CONGESTUS", "", "", "", ""] +atm_stashvar[5313] = ["HEIGHT OF TOP OF CONGESTUS M", "", "", "", ""] +atm_stashvar[5314] = ["HEIGHT OF BASE OF CONGESTUS M", "", "", "", ""] +atm_stashvar[5319] = ["FREQ DEEP CONVECTION TERM HERE", "", "", "", ""] +atm_stashvar[5320] = ["MASS FLUX DEEP CONVECTION", "", "", "", ""] +atm_stashvar[5321] = ["MASS FLUX CONGESTUS CONVECTION", "", "", "", ""] +atm_stashvar[5322] = ["MASS FLUX SHALLOW CONVECTION", "", "", "", ""] +atm_stashvar[5323] = ["MASS FLUX MID-LEVEL CONVECTION", "", "", "", ""] +atm_stashvar[5324] = ["DT FROM DEEP CONVECTION K/S", "", "", "", ""] +atm_stashvar[5325] = ["DT FROM CONGESTUS CONVECTION K/S", "", "", "", ""] +atm_stashvar[5326] = ["DT FROM SHALLOW CONVECTION K/S", "", "", "", ""] +atm_stashvar[5327] = ["DT FROM MID-LEVEL CONVECTION K/S", "", "", "", ""] +atm_stashvar[5328] = ["DQ FROM DEEP CONVECTION KG/KG/S", "", "", "", ""] +atm_stashvar[5329] = ["DQ FROM CONGESTUS CONVECTION KG/KG/S", "", "", "", ""] +atm_stashvar[5330] = ["DQ FROM SHALLOW CONVECTION KG/KG/S", "", "", "", ""] +atm_stashvar[5331] = ["DQ FROM MID-LEVEL CONVECTION KG/KG/S", "", "", "", ""] +atm_stashvar[5332] = ["DU FROM DEEP CONV M/S2 ( P GRID)", "", "", "", ""] +atm_stashvar[5333] = ["DU FROM CONGESTUS CONV M/S2 (P GRID)", "", "", "", ""] +atm_stashvar[5334] = ["DU FROM SHALLOW CONV M/S2 ( P GRID)", "", "", "", ""] +atm_stashvar[5335] = ["DU FROM MID-LEVEL CONV M/S2 (P GRID)", "", "", "", ""] +atm_stashvar[5336] = ["DV FROM DEEP CONV M/S2 ( P GRID)", "", "", "", ""] +atm_stashvar[5337] = ["DV FROM CONGESTUS CONV MS-2 (P GRID)", "", "", "", ""] +atm_stashvar[5338] = ["DV FROM SHALLOW CONV MS-2 (P GRID)", "", "", "", ""] +atm_stashvar[5339] = ["DV FROM MID-LEVEL CONV MS-2 (P GRID)", "", "", "", ""] +atm_stashvar[5400] = ["CONV_TYPE INDICATOR", "", "", "", ""] +atm_stashvar[5401] = ["CONV_TYPE INDICATOR 1", "", "", "", ""] +atm_stashvar[5402] = ["CONV_TYPE INDICATOR 2", "", "", "", ""] +atm_stashvar[5403] = ["CONV_TYPE INDICATOR 3", "", "", "", ""] +atm_stashvar[5404] = ["CONV_TYPE INDICATOR 4", "", "", "", ""] +atm_stashvar[5405] = ["CONV_TYPE 1 PRECIP RATE KG/M2/S", "", "", "", ""] +atm_stashvar[5406] = ["CONV_TYPE 2 PRECIP RATE KG/M2/S", "", "", "", ""] +atm_stashvar[5407] = ["CONV_TYPE 3 PRECIP RATE KG/M2/S", "", "", "", ""] +atm_stashvar[5408] = ["CONV_TYPE 4 PRECIP RATE KG/M2/S", "", "", "", ""] +atm_stashvar[5409] = ["DT FROM CONV_TYPE 1 K/S", "", "", "", ""] +atm_stashvar[5410] = ["DT FROM CONV_TYPE 2 K/S", "", "", "", ""] +atm_stashvar[5411] = ["DT FROM CONV_TYPE 3 K/S", "", "", "", ""] +atm_stashvar[5412] = ["DT FROM CONV_TYPE 4 K/S", "", "", "", ""] +atm_stashvar[5413] = ["DQ FROM CONV_TYPE 1 KG/KG/S", "", "", "", ""] +atm_stashvar[5414] = ["DQ FROM CONV_TYPE 2 KG/KG/S", "", "", "", ""] +atm_stashvar[5415] = ["DQ FROM CONV_TYPE 3 KG/KG/S", "", "", "", ""] +atm_stashvar[5416] = ["DQ FROM CONV_TYPE 4 KG/KG/S", "", "", "", ""] +atm_stashvar[5417] = ["MASS FLUX CONV_TYPE 1", "", "", "", ""] +atm_stashvar[5418] = ["MASS FLUX CONV_TYPE 2", "", "", "", ""] +atm_stashvar[5419] = ["MASS FLUX CONV_TYPE 3", "", "", "", ""] +atm_stashvar[5420] = ["MASS FLUX CONV_TYPE 4", "", "", "", ""] +atm_stashvar[5421] = ["HIGHEST LEVEL OF CONV_TYPE 1", "", "", "", ""] +atm_stashvar[5422] = ["HIGHEST LEVEL OF CONV_TYPE 2", "", "", "", ""] +atm_stashvar[5423] = ["HIGHEST LEVEL OF CONV_TYPE 3", "", "", "", ""] +atm_stashvar[5424] = ["HIGHEST LEVEL OF CONV_TYPE 4", "", "", "", ""] +atm_stashvar[5425] = ["WTHETA_L CONV_TYPE 1", "", "", "", ""] +atm_stashvar[5426] = ["WTHETA_L CONV_TYPE 2", "", "", "", ""] +atm_stashvar[5427] = ["WTHETA_L CONV_TYPE 3", "", "", "", ""] +atm_stashvar[5428] = ["WTHETA_L CONV_TYPE 4", "", "", "", ""] +atm_stashvar[5429] = ["WQT CONV_TYPE 1", "", "", "", ""] +atm_stashvar[5430] = ["WQT CONV_TYPE 2", "", "", "", ""] +atm_stashvar[5431] = ["WQT CONV_TYPE 3", "", "", "", ""] +atm_stashvar[5432] = ["WQT CONV_TYPE 4", "", "", "", ""] +atm_stashvar[6002] = ["U COMPNT OF WIND AFTER G.WAVE DRAG", "", "", "", ""] +atm_stashvar[6003] = ["V COMPNT OF WIND AFTER G.WAVE DRAG", "", "", "", ""] +atm_stashvar[6101] = ["EASTWARD FLUX - SPECTRAL PSEUDOMOM.", "", "", "", ""] +atm_stashvar[6102] = ["SOUTHWARD FLUX - SPECTRAL PSEUDOMOM.", "", "", "", ""] +atm_stashvar[6103] = ["WESTWARD FLUX - SPECTRAL PSEUDOMOM.", "", "", "", ""] +atm_stashvar[6104] = ["NORTHWARD FLUX - SPECTRAL PSEUDOMOM.", "", "", "", ""] +atm_stashvar[6105] = ["EASTWARD FORCE FROM SPECTRAL GW", "", "", "", ""] +atm_stashvar[6106] = ["NORTHWARD FORCE FROM SPECTRAL GW", "", "", "", ""] +atm_stashvar[6111] = ["E. FLUX SPECTRAL PSEUDOMOM. P LEVS", "", "", "", ""] +atm_stashvar[6113] = ["W. FLUX SPECTRAL PSEUDOMOM. P LEVS", "", "", "", ""] +atm_stashvar[6115] = ["EAST. FORCE FROM SPECTRAL GW P LEVS", "", "", "", ""] +atm_stashvar[6181] = ["GW HEATING TEMPERATURE INC", "", "", "", ""] +atm_stashvar[6185] = ["U WIND INCR: gwd scheme", "", "", "", ""] +atm_stashvar[6186] = ["V WIND INCR: gwd scheme", "", "", "", ""] +atm_stashvar[6201] = ["X COMPONENT OF GRAVITY WAVE STRESS", "", "", "", ""] +atm_stashvar[6202] = ["Y COMPONENT OF GRAVITY WAVE STRESS", "", "", "", ""] +atm_stashvar[6203] = ["STANDARD DEVIATION OF OROGRAPHY", "", "", "", ""] +atm_stashvar[6204] = ["OROGRAPHIC GRADIENT XX COMPONENT", "", "", "", ""] +atm_stashvar[6205] = ["OROGRAPHIC GRADIENT XY COMPONENT", "", "", "", ""] +atm_stashvar[6206] = ["OROGRAPHIC GRADIENT YY COMPONENT", "", "", "", ""] +atm_stashvar[6207] = ["U-ACCEL FROM SATURATED STRESS", "", "", "", ""] +atm_stashvar[6208] = ["V-ACCEL FROM SATURATED STRESS", "", "", "", ""] +atm_stashvar[6214] = ["U in the GWD surface layer", "", "", "", ""] +atm_stashvar[6215] = ["V in the GWD surface layer", "", "", "", ""] +atm_stashvar[6216] = ["N in the GWD surface layer", "", "", "", ""] +atm_stashvar[6217] = ["GWD Froude number", "", "", "", ""] +atm_stashvar[6218] = ["GWD Blocked Layer Depth", "", "", "", ""] +atm_stashvar[6222] = ["Percent of time with blocked flow", "", "", "", ""] +atm_stashvar[6223] = ["X COMPONENT OF GW SATURATION STRESS", "", "", "", ""] +atm_stashvar[6224] = ["Y COMPONENT OF GW SATURATION STRESS", "", "", "", ""] +atm_stashvar[6227] = ["X COMPONENT OF BLOCKED FLOW STRESS", "", "", "", ""] +atm_stashvar[6228] = ["Y COMPONENT OF BLOCKED FLOW STRESS", "", "", "", ""] +atm_stashvar[6231] = ["U-ACCEL FROM BLOCKED FLOW", "", "", "", ""] +atm_stashvar[6232] = ["V-ACCEL FROM BLOCKED FLOW", "", "", "", ""] +atm_stashvar[6233] = ["% of time num limiter invoked", "", "", "", ""] +atm_stashvar[6234] = ["% redn. of block stress by limiter", "", "", "", ""] +atm_stashvar[6235] = ["X-COMPONENT OF SURFACE SSO STRESS", "", "", "", ""] +atm_stashvar[6236] = ["Y-COMPONENT OF SURFACE SSO STRESS", "", "", "", ""] +atm_stashvar[6237] = ["Froude No. scaling of surface stress", "", "", "", ""] +atm_stashvar[6241] = ["X COMPT OF GRAV. WAVE STRESS P LEVS", "", "", "", ""] +atm_stashvar[6247] = ["U-ACCEL FROM SATURATED STRESS P LEVS", "", "", "", ""] +atm_stashvar[6248] = ["OROGRAPHIC SUB-GRID SLOPE", "", "", "", ""] +atm_stashvar[6249] = ["OROGRAPHIC SUB-GRID ANISOTROPY", "", "", "", ""] +atm_stashvar[6250] = ["OROGRAPHIC SUB-GRID ORIENTATION", "", "", "", ""] +atm_stashvar[8023] = ["SNOW MASS AFTER HYDROLOGY KG/M2", "snw", "kg m-2", "surface_snow_amount", "snw_afterhydrol"] +atm_stashvar[8201] = ["LAND SNOW MELT AMOUNT KG/M2/TS", "", "", "", ""] +atm_stashvar[8202] = ["LAND SNOW MELT HEAT FLUX W/M2", "", "", "", ""] +atm_stashvar[8204] = ["SFC RUNOFF AMOUNT:LAND MEAN KG/M2/TS", "", "", "", ""] +atm_stashvar[8205] = ["SUB-SFC RUNOFF AMT:LAND MN KG/M2/TS", "", "", "", ""] +atm_stashvar[8208] = ["SOIL MOISTURE CONTENT", "mrso", "kg m-2", "mass_content_of_water_in_soil", ""] +atm_stashvar[8209] = ["CANOPY WATER CONTENT", "cw", "kg m-2", "", ""] +atm_stashvar[8223] = ["SOIL MOISTURE CONTENT IN A LAYER", "mrsol", "kg m-2", "mass_content_of_water_in_soil_layer", ""] +atm_stashvar[8225] = ["DEEP SOIL TEMP. AFTER HYDROLOGY DEGK", "tsl", "K", "soil_temperature", ""] +atm_stashvar[8229] = ["UNFROZEN SOIL MOISTURE FRACTION", "mrlqso", "1", "mass_fraction_of_unfrozen_water_in_soil_moisture", ""] +atm_stashvar[8230] = ["FROZEN SOIL MOISTURE FRACTION", "mrfsofr", "1", "mass_fraction_of_frozen_water_in_soil_moisture", ""] +atm_stashvar[8231] = ["LAND SNOW MELT RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[8233] = ["CANOPY THROUGHFALL RATE KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[8234] = ["SURFACE RUNOFF RATE KG/M2/S", "mrros", "kg m-2 s-1", "surface_runoff_flux", ""] +atm_stashvar[8235] = ["SUB-SURFACE RUNOFF RATE KG/M2/S", "mrrob", "kg m-2 s-1", "subsurface_runoff_flux", ""] +atm_stashvar[8236] = ["SNOW AMOUNT ON TILES KG/M2", "", "kg m-2", "", ""] +atm_stashvar[8237] = ["SNOW MELT RATE ON TILES KG/M2/S", "", "kb m-2 s-1", "", ""] +atm_stashvar[8238] = ["SNOW GRAIN SIZE ON TILES MICRONS", "", "", "", ""] +atm_stashvar[8239] = ["BASE FLOW AMOUNT KG/M2/S", "", "", "", ""] +atm_stashvar[8240] = ["DUNNE RUNOFF KG/M2/S", "", "", "", ""] +atm_stashvar[8241] = ["BASE FLOW FROM ZW LAYER KG/M2/S", "", "", "", ""] +atm_stashvar[8242] = ["CH4 WETLAND FLUX(FOR UKCA) UG C/M2/S", "", "", "", ""] +atm_stashvar[8243] = ["MEAN TOPOGRAPHIC INDEX", "", "", "", ""] +atm_stashvar[8244] = ["STANDARD DEVN IN TOPOGRAPHIC INDEX", "", "", "", ""] +atm_stashvar[8245] = ["INLANDBASINFLOW ATM GRID KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[8246] = ["INTEGRATED GAMMA DISTRIBUTION", "", "", "", ""] +atm_stashvar[8247] = ["SURFACE SATURATION FRACTION", "", "", "", ""] +atm_stashvar[8248] = ["SURFACE WETLAND FRACTION", "", "", "", ""] +atm_stashvar[8249] = ["MEAN WATER TABLE DEPTH M", "", "", "", ""] +atm_stashvar[8250] = ["SATURATION FRAC IN DEEP LAYER", "", "", "", ""] +atm_stashvar[8251] = ["EXP DECAY IN SOIL SAT HYD CONDUCTY", "", "", "", ""] +atm_stashvar[8252] = ["DRAINAGE OUT OF SOIL MODEL KG/M2/S", "", "", "", ""] +atm_stashvar[8258] = ["ACCUM SURFACE RUNOFF RATE KG/M2/S", "", "", "", ""] +atm_stashvar[8259] = ["ACCUM SUB-SURFACE RUNOFF RATEKG/M2/S", "", "", "", ""] +atm_stashvar[8260] = ["CH4 WETLAND FLX(CS) KG C/M2/S", "", "", "", ""] +atm_stashvar[8261] = ["CH4 WETLAND FLX(NPP) KG C/M2/S", "", "", "", ""] +atm_stashvar[8262] = ["CH4 WETLAND FLX(SOIL RESP) KG C/M2/S", "", "", "", ""] +atm_stashvar[8376] = ["SNOW DEPTH ON GROUND ON TILES (M)", "", "", "", ""] +atm_stashvar[8576] = ["TEMP OF TILED SUBSURFACE (K)", "", "", "", ""] +atm_stashvar[8577] = ["TILED HEAT FLUX TO SUBSURFACE W/M2", "", "", "", ""] +atm_stashvar[8578] = ["TILED SNOW MASS BALANCE KG/M2/S", "", "", "", ""] +atm_stashvar[8579] = ["TILED SNOW TOTAL MELT RATE KG/M2/S", "", "", "", ""] +atm_stashvar[8580] = ["TILED SNOW TOTAL REFREEZE KG/M2/S", "", "", "", ""] +atm_stashvar[8581] = ["TILED SNOW SOLIDMASS CHANGE KG/M2/S", "", "", "", ""] +atm_stashvar[8582] = ["TILED SNOW LIQUID CHANGE KG/M2/S", "", "", "", ""] +atm_stashvar[8583] = ["TILED SNOW NET RUNOFF KG/M2/S", "", "", "", ""] +atm_stashvar[8700] = ["BURNT AREA FRACTION(POTEN) S-1", "", "", "", ""] +atm_stashvar[8701] = ["C EMISS (POTEN) KG C/M2/S", "", "", "", ""] +atm_stashvar[8702] = ["DPM C EMISS (POTEN) KG C/M2/S", "", "", "", ""] +atm_stashvar[8703] = ["RPM C EMISS (POTEN) KG C/M2/S", "", "", "", ""] +atm_stashvar[8710] = ["BURNT AREA FRAC ON PFTS (POTEN) S-1", "", "", "", ""] +atm_stashvar[8711] = ["C EMISS ON PFTS (POTEN) KG C/M2/S", "", "", "", ""] +atm_stashvar[8720] = ["CO2 EMISS (POTEN) KG/M2/S", "", "", "", ""] +atm_stashvar[8721] = ["CO EMISS (POTEN) KG/M2/S", "", "", "", ""] +atm_stashvar[8722] = ["CH4 EMISS (POTEN) KG/M2/S", "", "", "", ""] +atm_stashvar[8723] = ["NOx EMISS (POTEN) KG NO/M2/S", "", "", "", ""] +atm_stashvar[8735] = ["CO2 EMISS ON PFTS (POTEN) KG/M2/S", "", "", "", ""] +atm_stashvar[8736] = ["CO EMISS ON PFTS (POTEN) KG/M2/S", "", "", "", ""] +atm_stashvar[8737] = ["CH4 EMISS ON PFTS (POTEN) KG/M2/S", "", "", "", ""] +atm_stashvar[8738] = ["NOx EMISS ON PFTS (POT) KG NO/M2/S", "", "", "", ""] +atm_stashvar[8750] = ["SO2 EMISS (POTEN) KG SO2/M2/S", "", "", "", ""] +atm_stashvar[8751] = ["BC EMISS (POTEN) KG BC/M2/S", "", "", "", ""] +atm_stashvar[8752] = ["OC EMISS (POTEN) KG OC/M2/S", "", "", "", ""] +atm_stashvar[8765] = ["SO2 EMISS ON PFTS (POT) KG SO2/M2/S", "", "", "", ""] +atm_stashvar[8766] = ["BC EMISS ON PFTS (POT) KG BC/M2/S", "", "", "", ""] +atm_stashvar[8767] = ["OC EMISS ON PFTS (POT) KG OC/M2/S", "", "", "", ""] +atm_stashvar[9004] = ["TEMPERATURE AFTER MAIN DYN CLOUD", "", "", "", ""] +atm_stashvar[9010] = ["SPEC. HUMIDITY AFTER MAIN DYN CLOUD", "", "", "", ""] +atm_stashvar[9181] = ["TEMPERATURE INC: bdy layer + ls cld", "", "", "", ""] +atm_stashvar[9182] = ["SPEC HUMIDITY INC: bdy layr + ls cld", "", "", "", ""] +atm_stashvar[9183] = ["QCL INC: bdy layer + ls cld", "", "", "", ""] +atm_stashvar[9201] = ["BULK CLOUD AMOUNT AFTER MAIN CLOUD", "", "", "", ""] +atm_stashvar[9202] = ["VERY LOW CLOUD AMOUNT", "", "", "", ""] +atm_stashvar[9203] = ["LOW CLOUD AMOUNT", "", "", "", ""] +atm_stashvar[9204] = ["MEDIUM CLOUD AMOUNT", "", "", "", ""] +atm_stashvar[9205] = ["HIGH CLOUD AMOUNT", "", "", "", ""] +atm_stashvar[9206] = ["CLOUD LIQUID WATER AFTER MAIN CLOUD", "", "", "", ""] +atm_stashvar[9207] = ["CLOUD ICE CONTENT AFTER DYNAM CLOUD", "", "", "", ""] +atm_stashvar[9208] = ["CLOUD BASE ASL COVER.GT.0.1 OCTA KFT", "", "", "", ""] +atm_stashvar[9209] = ["CLOUD BASE ASL COVER.GT.1.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9210] = ["CLOUD BASE ASL COVER.GT.2.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9211] = ["CLOUD BASE ASL COVER.GT.3.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9212] = ["CLOUD BASE ASL COVER.GT.4.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9213] = ["CLOUD BASE ASL COVER.GT.5.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9214] = ["CLOUD BASE ASL COVER.GT.6.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9215] = ["CLOUD BASE ASL COVER.GT.7.9 OCTA KFT", "", "", "", ""] +atm_stashvar[9216] = ["TOTAL CLOUD AMOUNT - RANDOM OVERLAP", "", "", "", ""] +atm_stashvar[9217] = ["TOTAL CLOUD AMOUNT MAX/RANDOM OVERLP", "clt", "1", "cloud_area_fraction", ""] +atm_stashvar[9218] = ["CLOUD FRACTION BELOW 1000 FT ASL", "", "", "", ""] +atm_stashvar[9219] = ["LOW CLOUD BASE (FT ASL)", "", "", "", ""] +atm_stashvar[9220] = ["LOW CLOUD TOP (FT ASL)", "", "", "", ""] +atm_stashvar[9221] = ["WET BULB FREEZING LEV HEIGHT (M)", "", "", "", ""] +atm_stashvar[9222] = ["WET BULB TEMPERATURE (K)", "", "", "", ""] +atm_stashvar[9223] = ["TOTAL CLOUD TOP HEIGHT (KFT)", "", "", "", ""] +atm_stashvar[9226] = ["LAYER CLOUD FREQUENCY IN EACH LAYER", "", "", "", ""] +atm_stashvar[9228] = ["CRITICAL RELATIVE HUMIDITY IN LAYERS", "", "", "", ""] +atm_stashvar[9229] = ["RELATIVE HUMIDITY AFTER MAIN CLOUD", "", "", "", ""] +atm_stashvar[9230] = ["VISIBILITY ON MODEL LEVELS M", "", "", "", ""] +atm_stashvar[9231] = ["COMBINED CLOUD AMOUNT IN EACH LAYER", "", "", "", ""] +atm_stashvar[9232] = ["CEILOMETER CLD AMT - RANDOM OVERLAP", "", "", "", ""] +atm_stashvar[9233] = ["CEILOMETER CLD AMT MAX/RANDOM OVERLP", "", "", "", ""] +atm_stashvar[9234] = ["CEILOMETER CLOUD AMT IN EACH LAYER", "", "", "", ""] +atm_stashvar[9238] = ["CLOUD TOP ASL COVER.GT.0.1 OCTA KFT", "", "", "", ""] +atm_stashvar[9239] = ["CLOUD TOP ASL COVER.GT.1.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9240] = ["CLOUD TOP ASL COVER.GT.2.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9241] = ["CLOUD TOP ASL COVER.GT.3.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9242] = ["CLOUD TOP ASL COVER.GT.4.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9243] = ["CLOUD TOP ASL COVER.GT.5.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9244] = ["CLOUD TOP ASL COVER.GT.6.5 OCTA KFT", "", "", "", ""] +atm_stashvar[9245] = ["CLOUD TOP ASL COVER.GT.7.9 OCTA KFT", "", "", "", ""] +atm_stashvar[9310] = ["Icing Index II(RH)", "", "", "", ""] +atm_stashvar[9311] = ["Icing Index Flag II(RH)>0.1", "", "", "", ""] +atm_stashvar[9312] = ["Icing Index Flag II(RH)>0.2", "", "", "", ""] +atm_stashvar[9313] = ["Icing Index Flag II(RH)>0.3", "", "", "", ""] +atm_stashvar[9314] = ["Icing Index Flag II(RH)>0.4", "", "", "", ""] +atm_stashvar[9315] = ["Icing Index Flag II(RH)>0.5", "", "", "", ""] +atm_stashvar[9316] = ["Icing Index Flag II(RH)>0.6", "", "", "", ""] +atm_stashvar[9317] = ["Icing Index Flag II(RH)>0.7", "", "", "", ""] +atm_stashvar[9318] = ["Icing Index Flag II(RH)>0.8", "", "", "", ""] +atm_stashvar[9319] = ["Icing Index Flag II(RH)>0.9", "", "", "", ""] +atm_stashvar[9320] = ["Icing Index II(RHCldPres)", "", "", "", ""] +atm_stashvar[9321] = ["Icing Index Flag II(RHCldPres)>0.1", "", "", "", ""] +atm_stashvar[9322] = ["Icing Index Flag II(RHCldPres)>0.2", "", "", "", ""] +atm_stashvar[9323] = ["Icing Index Flag II(RHCldPres)>0.3", "", "", "", ""] +atm_stashvar[9324] = ["Icing Index Flag II(RHCldPres)>0.4", "", "", "", ""] +atm_stashvar[9325] = ["Icing Index Flag II(RHCldPres)>0.5", "", "", "", ""] +atm_stashvar[9326] = ["Icing Index Flag II(RHCldPres)>0.6", "", "", "", ""] +atm_stashvar[9327] = ["Icing Index Flag II(RHCldPres)>0.7", "", "", "", ""] +atm_stashvar[9328] = ["Icing Index Flag II(RHCldPres)>0.8", "", "", "", ""] +atm_stashvar[9329] = ["Icing Index Flag II(RHCldPres)>0.9", "", "", "", ""] +atm_stashvar[9330] = ["Icing Index II(CF)", "", "", "", ""] +atm_stashvar[9331] = ["Icing Index Flag II(CF)>0.1", "", "", "", ""] +atm_stashvar[9332] = ["Icing Index II(CF)>0.2", "", "", "", ""] +atm_stashvar[9333] = ["Icing Index Flag II(CF)>0.3", "", "", "", ""] +atm_stashvar[9334] = ["Icing Index Flag II(CF)>0.4", "", "", "", ""] +atm_stashvar[9335] = ["Icing Index Flag II(CF)>0.5", "", "", "", ""] +atm_stashvar[9336] = ["Icing Index Flag II(CF)>0.6", "", "", "", ""] +atm_stashvar[9337] = ["Icing Index Flag II(CF)>0.7", "", "", "", ""] +atm_stashvar[9338] = ["Icing Index Flag II(CF)>0.8", "", "", "", ""] +atm_stashvar[9339] = ["Icing Index Flag II(CF)>0.9", "", "", "", ""] +atm_stashvar[9340] = ["Icing Index II(LCF)", "", "", "", ""] +atm_stashvar[9341] = ["Icing Index Flag II(LCF)>0.1", "", "", "", ""] +atm_stashvar[9342] = ["Icing Index Flag II(LCF)>0.2", "", "", "", ""] +atm_stashvar[9343] = ["Icing Index Flag II(LCF)>0.3", "", "", "", ""] +atm_stashvar[9344] = ["Icing Index Flag II(LCF)>0.4", "", "", "", ""] +atm_stashvar[9345] = ["Icing Index Flag II(LCF)>0.5", "", "", "", ""] +atm_stashvar[9346] = ["Icing Index Flag II(LCF)>0.6", "", "", "", ""] +atm_stashvar[9347] = ["Icing Index Flag II(LCF)>0.7", "", "", "", ""] +atm_stashvar[9348] = ["Icing Index Flag II(LCF)>0.8", "", "", "", ""] +atm_stashvar[9349] = ["Icing Index Flag II(LCF)>0.9", "", "", "", ""] +atm_stashvar[9350] = ["Icing Index II(LWC)", "", "", "", ""] +atm_stashvar[9351] = ["Icing Index Flag II(LWC)>0.1", "", "", "", ""] +atm_stashvar[9352] = ["Icing Index Flag II(LWC)>0.2", "", "", "", ""] +atm_stashvar[9353] = ["Icing Index Flag II(LWC)>0.3", "", "", "", ""] +atm_stashvar[9354] = ["Icing Index Flag II(LWC)>0.4", "", "", "", ""] +atm_stashvar[9355] = ["Icing Index Flag II(LWC)>0.5", "", "", "", ""] +atm_stashvar[9356] = ["Icing Index Flag II(LWC)>0.6", "", "", "", ""] +atm_stashvar[9357] = ["Icing Index Flag II(LWC)>0.7", "", "", "", ""] +atm_stashvar[9358] = ["Icing Index Flag II(LWC)>0.8", "", "", "", ""] +atm_stashvar[9359] = ["Icing Index Flag II(LWC)>0.9", "", "", "", ""] +atm_stashvar[9360] = ["Icing Index II(icLWC)", "", "", "", ""] +atm_stashvar[9361] = ["Icing Index Flag II(icLWC)>0.1", "", "", "", ""] +atm_stashvar[9362] = ["Icing Index Flag II(icLWC)>0.2", "", "", "", ""] +atm_stashvar[9363] = ["Icing Index Flag II(icLWC)>0.3", "", "", "", ""] +atm_stashvar[9364] = ["Icing Index Flag II(icLWC)>0.4", "", "", "", ""] +atm_stashvar[9365] = ["Icing Index Flag II(icLWC)>0.5", "", "", "", ""] +atm_stashvar[9366] = ["Icing Index Flag II(icLWC)>0.6", "", "", "", ""] +atm_stashvar[9367] = ["Icing Index Flag II(icLWC)>0.7", "", "", "", ""] +atm_stashvar[9368] = ["Icing Index Flag II(icLWC)>0.8", "", "", "", ""] +atm_stashvar[9369] = ["Icing Index Flag II(icLWC)>0.9", "", "", "", ""] +atm_stashvar[9370] = ["Icing Index II(FROST-LN)", "", "", "", ""] +atm_stashvar[9371] = ["Icing Index Flag II(FROST-LN)>0.1", "", "", "", ""] +atm_stashvar[9372] = ["Icing Index Flag II(FROST-LN)>0.2", "", "", "", ""] +atm_stashvar[9373] = ["Icing Index Flag II(FROST-LN)>0.3", "", "", "", ""] +atm_stashvar[9374] = ["Icing Index Flag II(FROST-LN)>0.4", "", "", "", ""] +atm_stashvar[9375] = ["Icing Index Flag II(FROST-LN)>0.5", "", "", "", ""] +atm_stashvar[9376] = ["Icing Index Flag II(FROST-LN)>0.6", "", "", "", ""] +atm_stashvar[9377] = ["Icing Index Flag II(FROST-LN)>0.7", "", "", "", ""] +atm_stashvar[9378] = ["Icing Index Flag II(FROST-LN)>0.8", "", "", "", ""] +atm_stashvar[9379] = ["Icing Index Flag II(FROST-LN)>0.9", "", "", "", ""] +atm_stashvar[9380] = ["Icing Index II(FROST-Gamma)", "", "", "", ""] +atm_stashvar[9381] = ["Icing Index Flag II(FROSTGamma)>0.1", "", "", "", ""] +atm_stashvar[9382] = ["Icing Index Flag II(FROSTGamma)>0.2", "", "", "", ""] +atm_stashvar[9383] = ["Icing Index Flag II(FROSTGamma)>0.3", "", "", "", ""] +atm_stashvar[9384] = ["Icing Index Flag II(FROSTGamma)>0.4", "", "", "", ""] +atm_stashvar[9385] = ["Icing Index Flag II(FROSTGamma)>0.5", "", "", "", ""] +atm_stashvar[9386] = ["Icing Index Flag II(FROSTGamma)>0.6", "", "", "", ""] +atm_stashvar[9387] = ["Icing Index Flag II(FROSTGamma)>0.7", "", "", "", ""] +atm_stashvar[9388] = ["Icing Index Flag II(FROSTGamma)>0.8", "", "", "", ""] +atm_stashvar[9389] = ["Icing Index Flag II(FROSTGamma)>0.9", "", "", "", ""] +atm_stashvar[9391] = ["Icing Index 2d MaxRan II(RH)", "", "", "", ""] +atm_stashvar[9392] = ["Icing Index 2d MaxRan II(RHCldPres)", "", "", "", ""] +atm_stashvar[9393] = ["Icing Index 2d MaxRan II(CF)", "", "", "", ""] +atm_stashvar[9394] = ["Icing Index 2d MaxRan II(LCF)", "", "", "", ""] +atm_stashvar[9395] = ["Icing Index 2d MaxRan II(LWC)", "", "", "", ""] +atm_stashvar[9396] = ["Icing Index 2d MaxRan II(icLWC)", "", "", "", ""] +atm_stashvar[9397] = ["Icing Index 2d MaxRan II(FROST-LN)", "", "", "", ""] +atm_stashvar[9398] = ["Icing Index 2d MaxRan II(FROST-Gamma", "", "", "", ""] +atm_stashvar[10181] = ["dT SOLVER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[10185] = ["dU SOLVER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[10186] = ["dV SOLVER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[10187] = ["dW SOLVER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[12002] = ["U (MODEL LEVELS) AFTER ADVECTION", "", "", "", ""] +atm_stashvar[12003] = ["V (MODEL LEVELS) AFTER ADVECTION", "", "", "", ""] +atm_stashvar[12004] = ["TEMPERATURE AFTER ADVECTION", "", "", "", ""] +atm_stashvar[12010] = ["SPECIFIC HUMIDITY AFTER ADVECTION", "", "", "", ""] +atm_stashvar[12012] = ["QCF AFTER ADVECTION", "", "", "", ""] +atm_stashvar[12170] = ["QCL INCR: advect positive", "", "", "", ""] +atm_stashvar[12171] = ["QCL INCR: advect negative", "", "", "", ""] +atm_stashvar[12172] = ["QCF INCR: advect positive", "", "", "", ""] +atm_stashvar[12173] = ["QCF INCR: advect negative", "", "", "", ""] +atm_stashvar[12176] = ["LIQ CLOUD VOL INCR: advect positive", "", "", "", ""] +atm_stashvar[12177] = ["LIQ CLOUD VOL INCR: advect negative", "", "", "", ""] +atm_stashvar[12178] = ["FROZEN CLOUD VOL INCR:advect positiv", "", "", "", ""] +atm_stashvar[12179] = ["FROZEN CLOUD VOL INCR:advect negativ", "", "", "", ""] +atm_stashvar[12181] = ["TEMPERATURE INCR: advect K/Timestep", "", "", "", ""] +atm_stashvar[12182] = ["Q INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12183] = ["QCL INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12184] = ["QCF INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12185] = ["U WIND INCR: advection", "", "", "", ""] +atm_stashvar[12186] = ["V WIND INCR: advection", "", "", "", ""] +atm_stashvar[12187] = ["W INCR: advect m/s/timestep", "", "", "", ""] +atm_stashvar[12189] = ["RAIN INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12190] = ["GRAUPEL INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12191] = ["QCF2 INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12192] = ["BULK CLOUD VOL INCR: advect", "", "", "", ""] +atm_stashvar[12193] = ["LIQUID CLOUD VOL INCR: advect", "", "", "", ""] +atm_stashvar[12194] = ["FROZEN CLOUD VOL INCR: advect", "", "", "", ""] +atm_stashvar[12195] = ["M_V INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12196] = ["M_CL INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12197] = ["M_CF INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12198] = ["M_RAIN INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12199] = ["M_GRAUP INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12200] = ["M_CF2 INCR: advect kg/kg/timestep", "", "", "", ""] +atm_stashvar[12203] = ["dz to w departure point m", "", "", "", ""] +atm_stashvar[12204] = ["lambda w departure point radians", "", "", "", ""] +atm_stashvar[12205] = ["phi w departure point radians", "", "", "", ""] +atm_stashvar[12254] = ["QCL AFTER ADVECTION", "", "", "", ""] +atm_stashvar[12381] = ["TEMP INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12382] = ["Q INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12383] = ["QCL INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12384] = ["QCF INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12389] = ["RAIN INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12390] = ["GRAUPEL INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12391] = ["QCF2 INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12395] = ["M_V INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12396] = ["M_CL INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12397] = ["M_CF INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12398] = ["M_RAIN INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12399] = ["M_GRAUP INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[12400] = ["M_CF2 INC DUE TO ADV CORRECTION", "", "", "", ""] +atm_stashvar[13181] = ["dT DIFFUSION INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13182] = ["dQ DIFFUSION INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13185] = ["dU DIFFUSION INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13186] = ["dV DIFFUSION INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13187] = ["dW DIFFUSION INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13190] = ["SMAG: VISC_M", "", "", "", ""] +atm_stashvar[13191] = ["SMAG: VISC_H", "", "", "", ""] +atm_stashvar[13192] = ["SMAG: S (SHEAR TERM)", "", "", "", ""] +atm_stashvar[13193] = ["MIXING LENGTH RNEUTML", "", "", "", ""] +atm_stashvar[13201] = ["Indicator of local q diffusion", "", "", "", ""] +atm_stashvar[13381] = ["dT FILTER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13385] = ["dU FILTER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13386] = ["dV FILTER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13387] = ["dW FILTER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13388] = ["dEXNER FILTER INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13481] = ["dT FILTER INC INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13485] = ["dU FILTER INC INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13486] = ["dV FILTER INC INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[13487] = ["dW FILTER INC INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[14181] = ["TEMPERATURE INCR: En cor K/Timestep", "", "", "", ""] +atm_stashvar[14201] = ["ATMOS ENERGY CORR'N IN COLUMN W/M2", "", "", "", ""] +atm_stashvar[15002] = ["U WIND ON MODEL LEVELS B GRID", "ua", "m s-1", "eastward_wind", ""] +atm_stashvar[15003] = ["V WIND ON MODEL LEVELS B GRID", "va", "m s-1", "northward_wind", ""] +atm_stashvar[15101] = ["H OF THETA MODEL LEVS FROM SEA LEVEL", "", "", "", ""] +atm_stashvar[15102] = ["H OF RHO MODEL LEVS FROM SEA LEVEL", "", "", "", ""] +atm_stashvar[15108] = ["PRESSURE ON GEOMETRIC HEIGHT LEVELS", "", "", "", ""] +atm_stashvar[15119] = ["THETA ON GEOMETRIC HEIGHT LEVELS", "", "K", "air_potential_temperature", ""] +atm_stashvar[15127] = ["RHO ON GEOMETRIC HEIGHT LEVELS", "", "", "", ""] +atm_stashvar[15142] = ["W ON GEOMETRIC HEIGHT LEVELS", "", "", "", ""] +atm_stashvar[15143] = ["U ON GEOMETRIC HEIGHT LEVELS", "", "", "", ""] +atm_stashvar[15144] = ["V ON GEOMETRIC HEIGHT LEVELS", "", "", "", ""] +atm_stashvar[15181] = ["dT INC FROM QT_BAL_CLD", "", "", "", ""] +atm_stashvar[15182] = ["DQ INC FROM QT_BAL_CLD", "", "", "", ""] +atm_stashvar[15183] = ["DQCL INC FROM QT_BAL_CLD", "", "", "", ""] +atm_stashvar[15201] = ["U WIND ON PRESSURE LEVELS B GRID", "ua", "m s-1", "eastward_wind", ""] +atm_stashvar[15202] = ["V WIND ON PRESSURE LEVELS B GRID", "va", "m s-1", "northward_wind", ""] +atm_stashvar[15212] = ["50 METRE WIND U-COMPONENT B GRID", "", "", "", ""] +atm_stashvar[15213] = ["50 METRE WIND V-COMPONENT B GRID", "", "", "", ""] +atm_stashvar[15214] = ["ERTEL POTENTIAL VORTICITY THETA SURF", "", "", "", ""] +atm_stashvar[15215] = ["THETA ON PV=+/-2 SURFACE", "", "K", "air_potential_temperature", ""] +atm_stashvar[15216] = ["THETA AT PV POINTS", "", "K", "air_potential_temperature", ""] +atm_stashvar[15217] = ["PV ON MODEL LEVELS(CALC PV)", "", "", "", ""] +atm_stashvar[15218] = ["PV on model theta levels", "", "", "", ""] +atm_stashvar[15229] = ["POTENTIAL VORTICITY ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[15231] = ["TEST FIELD ON V-GRID-SINGLE LEVEL", "", "", "", ""] +atm_stashvar[15232] = ["TEST FIELD ON P GRID-SINGLE LEVEL", "", "", "", ""] +atm_stashvar[15233] = ["TEST FIELD ON P GRID-PRESS LEVELS", "", "", "", ""] +atm_stashvar[15234] = ["TEST FIELD ON P GRID-MODEL LEVELS", "", "", "", ""] +atm_stashvar[15242] = ["W COMPNT (OF WIND) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[15243] = ["U WIND ON PRESSURE LEVELS", "ua", "m s-1", "eastward_wind", ""] +atm_stashvar[15244] = ["V WIND ON PRESSURE LEVELS", "va", "m s-1", "northward_wind", ""] +atm_stashvar[15245] = ["50 METRE WIND U-COMPONENT", "", "", "", ""] +atm_stashvar[15246] = ["50 METRE WIND V-COMPONENT", "", "", "", ""] +atm_stashvar[15260] = ["Rho*w on rho levels", "", "", "", ""] +atm_stashvar[15261] = ["Rho*u*w on rho levels", "", "", "", ""] +atm_stashvar[15262] = ["Rho*v*w on rho levels", "", "", "", ""] +atm_stashvar[15263] = ["Rho*w with w > 0m/s on rho levels", "", "", "", ""] +atm_stashvar[15264] = ["Rho*w with w < 0m/s on rho levels", "", "", "", ""] +atm_stashvar[15265] = ["Rho*w with w > 1m/s on rho levels", "", "", "", ""] +atm_stashvar[15266] = ["Rho*w with w < -1m/s on rho levels", "", "", "", ""] +atm_stashvar[15270] = ["SQU OF NORM OF FOURIER TRANS OF W", "", "", "", ""] +atm_stashvar[15271] = ["True unscaled density", "", "", "", ""] +atm_stashvar[16004] = ["TEMPERATURE ON THETA LEVELS", "ta", "K", "air_temperature", ""] +atm_stashvar[16140] = ["QCL INCR: pc2 init positive", "", "", "", ""] +atm_stashvar[16141] = ["QCL INCR: pc2 init negative", "", "", "", ""] +atm_stashvar[16142] = ["QCF INCR: pc2 init positive", "", "", "", ""] +atm_stashvar[16143] = ["QCF INCR: pc2 init negative", "", "", "", ""] +atm_stashvar[16146] = ["LIQ CLOUD VOL INCR: pc2 init positiv", "", "", "", ""] +atm_stashvar[16147] = ["LIQ CLOUD VOL INCR: pc2 init negativ", "", "", "", ""] +atm_stashvar[16148] = ["ICE CLOUD VOL INCR: pc2 init positiv", "", "", "", ""] +atm_stashvar[16149] = ["ICE CLOUD VOL INCR: pc2 init negativ", "", "", "", ""] +atm_stashvar[16150] = ["QCL INCR: pc2 pressure change positi", "", "", "", ""] +atm_stashvar[16151] = ["QCL INCR: pc2 pressure change negati", "", "", "", ""] +atm_stashvar[16156] = ["LIQ CLOUD VOL INCR: pc2 press positi", "", "", "", ""] +atm_stashvar[16157] = ["LIQ CLOUD VOL INCR: pc2 press negati", "", "", "", ""] +atm_stashvar[16161] = ["TEMPERATURE INCR: pc2 initialisation", "", "", "", ""] +atm_stashvar[16162] = ["SPECIFIC HUMIDITY INCR: pc2 initiali", "", "", "", ""] +atm_stashvar[16163] = ["QCL INCR: pc2 initialisation", "", "", "", ""] +atm_stashvar[16164] = ["QCF INCR: pc2 initialisation", "", "", "", ""] +atm_stashvar[16172] = ["BULK CLOUD VOL INCR: pc2 initialisat", "", "", "", ""] +atm_stashvar[16173] = ["LIQ CLOUD VOL INCR: pc2 init", "", "", "", ""] +atm_stashvar[16174] = ["ICE CLOUD VOL INCR: pc2 initialise", "", "", "", ""] +atm_stashvar[16181] = ["TEMPERATURE INCR: pc2 pres change", "", "", "", ""] +atm_stashvar[16182] = ["SPECIFIC HUMIDITY INCR: pc2 pressure", "", "", "", ""] +atm_stashvar[16183] = ["QCL INCR: pc2 pressure change", "", "", "", ""] +atm_stashvar[16184] = ["QCF INCR: from pc2 pressure change", "", "", "", ""] +atm_stashvar[16192] = ["BULK CLOUD VOL INCR: pc2 pres change", "", "", "", ""] +atm_stashvar[16193] = ["LIQ CLOUD VOL INCR: pc2 pressure cha", "", "", "", ""] +atm_stashvar[16194] = ["FROZEN CLOUD VOL INCR: pc2 pressure", "", "", "", ""] +atm_stashvar[16201] = ["GEOPOTENTIAL HEIGHT ON THETA LEVELS", "zg", "m", "geopotential_height", ""] +atm_stashvar[16202] = ["GEOPOTENTIAL HEIGHT ON P LEV/P GRID", "zg", "m", "geopotential_height", ""] +atm_stashvar[16203] = ["TEMPERATURE ON P LEV/P GRID", "ta", "K", "air_temperature", ""] +atm_stashvar[16204] = ["RH WRT ICE ON P LEV/P GRID", "hur", "%", "relative_humidity", ""] +atm_stashvar[16205] = ["WET BULB POTENTIAL TEMPERATURE K", "", "", "", ""] +atm_stashvar[16206] = ["CLOUD WATER CONTENT (qc)", "", "", "", ""] +atm_stashvar[16207] = ["TOTAL SPECIFIC HUMIDITY (qT)", "", "", "", ""] +atm_stashvar[16222] = ["PRESSURE AT MEAN SEA LEVEL", "psl", "Pa", "air_pressure_at_sea_level", ""] +atm_stashvar[16255] = ["GEOPOTENTIAL HEIGHT ON RHO LEVELS", "zg", "m", "geopotential_height", ""] +atm_stashvar[16256] = ["RH WRT WATER ON P LEV/P GRID", "hur", "%", "relative_humidity", ""] +atm_stashvar[17203] = ["MSA MASS MIXING RATIO FLUX KG/KG/S", "", "", "", ""] +atm_stashvar[17204] = ["NH3 DEPLETION KG/KG AFTER TSTEP", "", "", "", ""] +atm_stashvar[17205] = ["DIMETHYL SULPHIDE EMISSIONS", "", "", "", ""] +atm_stashvar[17206] = ["DMS DRY OXIDATION MMR FLUX KG/KG/S", "", "", "", ""] +atm_stashvar[17207] = ["DMS DRY OXIDATION TO SO2 KG/KG/S", "", "", "", ""] +atm_stashvar[17208] = ["DMS DRY OXIDATION TO SO4 ACC KG/KG/S", "", "", "", ""] +atm_stashvar[17209] = ["DMS DRY OXIDATION TO SO4 AIT KG/KG/S", "", "", "", ""] +atm_stashvar[17210] = ["SO2 DRY OXID BY OH MMR FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17211] = ["SO2 WET OXID BY H2O2 FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17212] = ["SO2 WET OXID BY O3 FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17213] = ["SO4 DIS TO ACC BY EVAP FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17214] = ["SO4 ACC TO DIS BY NUCL FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17215] = ["SO4 AIT TO DIS BY DIFF FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17216] = ["SO4 AIT TO ACC BY COAG FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17217] = ["SO2 DRY OXID TO SO4 ACC FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17218] = ["SO2 DRY OXID TO SO4 AIT FLX KG/KG/S", "", "", "", ""] +atm_stashvar[17219] = ["SO4 AIT-ACC BY MODE MERGING kg/kg/s", "", "", "", ""] +atm_stashvar[17220] = ["PM10 CONCENTRATION", "", "", "", ""] +atm_stashvar[17221] = ["PM2.5 CONCENTRATION", "", "", "", ""] +atm_stashvar[17222] = ["SULPHATE CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17223] = ["SULPHATE CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17224] = ["BLACK CARBON CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17225] = ["BLACK CARBON CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17226] = ["BIOM BURNING CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17227] = ["BIOM BURNING CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17228] = ["OCFF CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17229] = ["OCFF CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17230] = ["SOA CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17231] = ["SOA CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17232] = ["SEA SALT CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17233] = ["SEA SALT CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17234] = ["DUST CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17235] = ["DUST CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17236] = ["NITRATE CONTRIB TO PM10 CONC", "", "", "", ""] +atm_stashvar[17237] = ["NITRATE CONTRIB TO PM2.5 CONC", "", "", "", ""] +atm_stashvar[17240] = ["NH3 OXID BY HNO3 MMR FLX KG[N]/KG/S", "", "", "", ""] +atm_stashvar[17241] = ["NIT ACC TO DIS BY NUC FLX KG[N]/KG/S", "", "", "", ""] +atm_stashvar[17242] = ["NIT DIS-ACC BY EVAP FLX KG[N]/KG/S", "", "", "", ""] +atm_stashvar[17257] = ["TOTAL DUST CONC (microg/m3)", "", "", "", ""] +atm_stashvar[19001] = ["VEGETATION CARBON ON PFTS KG C/M2", "", "", "", ""] +atm_stashvar[19002] = ["GRIDBOX MEAN VEG CARBON KG C/M2", "", "", "", ""] +atm_stashvar[19003] = ["PHENOLOGICAL LEAF TURNOVER RATE PFTS", "", "", "", ""] +atm_stashvar[19004] = ["LITTER CARBON ON PFTS KG C/M2/YEAR", "", "", "", ""] +atm_stashvar[19005] = ["GRIDBOX MEAN LITTER CARBN KGC/M2/YR", "", "", "", ""] +atm_stashvar[19006] = ["MEAN LEAF TRNVR RATE PFTS FOR PHENOL", "", "", "", ""] +atm_stashvar[19007] = ["LEAF AREA INDEX PFTS AFTER PHENOLOGY", "", "", "", ""] +atm_stashvar[19008] = ["MN LEAF TRNVR RATE PFTS FOR TRIFFID", "", "", "", ""] +atm_stashvar[19009] = ["MEAN NPP ON PFTS FOR TRIFFID", "", "", "", ""] +atm_stashvar[19010] = ["MEAN WOOD RESP ON PFTS FOR TRIFFID", "", "", "", ""] +atm_stashvar[19011] = ["MEAN SOIL RESPIRATION FOR TRIFFID", "", "", "", ""] +atm_stashvar[19012] = ["DISTURBED FRACTION OF VEGETATION", "", "", "", ""] +atm_stashvar[19013] = ["SURFACE TYPE FRACTIONS AFTER TRIFFID", "", "", "", ""] +atm_stashvar[19014] = ["LEAF AREA INDEX PFTS AFTER TRIFFID", "", "", "", ""] +atm_stashvar[19015] = ["CANOPY HEIGHT ON PFTS AFTER TRIFFID", "", "", "", ""] +atm_stashvar[19016] = ["SOIL CARBON CONTENT AFTER TRIFFID", "", "", "", ""] +atm_stashvar[19017] = ["DPM SOIL RESP FOR TRIFFID KG C/M2/S", "", "", "", ""] +atm_stashvar[19018] = ["RPM SOIL RESP FOR TRIFFID KG C/M2/S", "", "", "", ""] +atm_stashvar[19019] = ["BIO SOIL RESP FOR TRIFFID KG C/M2/S", "", "", "", ""] +atm_stashvar[19020] = ["HUM SOIL RESP FOR TRIFFID KG C/M2/S", "", "", "", ""] +atm_stashvar[19021] = ["DPM SOIL-C AFTER TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19022] = ["RPM SOIL-C AFTER TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19023] = ["BIO SOIL-C AFTER TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19024] = ["HUM SOIL-C AFTER TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19025] = ["LEAF CARBON ON PFTS KGC/M2", "", "", "", ""] +atm_stashvar[19026] = ["GRIDBOX MEAN LEAF CARBON KGC/M2", "", "", "", ""] +atm_stashvar[19027] = ["WOOD CARBON ON PFTS KGC/M2", "", "", "", ""] +atm_stashvar[19028] = ["GRIDBOX MEAN WOOD CARBON KGC/M2", "", "", "", ""] +atm_stashvar[19029] = ["ROOT CARBON ON PFTS KGC/M2", "", "", "", ""] +atm_stashvar[19030] = ["GRIDBOX MEAN ROOT CARBON KGC/M2", "", "", "", ""] +atm_stashvar[19031] = ["PREVIOUS DIST FRAC OF VEGETATION", "", "", "", ""] +atm_stashvar[19032] = ["FAST TURNOVER WOOD PRODUCT KGC/M2", "", "", "", ""] +atm_stashvar[19033] = ["MEDIUM TURNOVER WOOD PRODUCT KGC/M2", "", "", "", ""] +atm_stashvar[19034] = ["SLOW TURNOVER WOOD PRODUCT KGC/M2", "", "", "", ""] +atm_stashvar[19036] = ["LU C FLUX TO FAST POOL KGC/M2/YR", "", "", "", ""] +atm_stashvar[19037] = ["LU C FLUX TO MEDIUM POOL KGC/M2/YR", "", "", "", ""] +atm_stashvar[19038] = ["LU C FLUX TO SLOW POOL KGC/M2/YR", "", "", "", ""] +atm_stashvar[19039] = ["FAST POOL DECOMP C FLUX KGC/M2/YR", "", "", "", ""] +atm_stashvar[19040] = ["MEDIUM POOL DECOMP C FLUX KGC/M2/YR", "", "", "", ""] +atm_stashvar[19041] = ["SLOW POOL DECOMP C FLUX KGC/M2/YR", "", "", "", ""] +atm_stashvar[19042] = ["LANDUSE CO2 FLUX TO ATM KGC/M2/YR", "", "", "", ""] +atm_stashvar[19043] = ["HARVEST C ON PFTS KGC/M2/360d", "", "", "", ""] +atm_stashvar[19044] = ["HARVEST C (GBM) KGC/M2/360d", "", "", "", ""] +atm_stashvar[19045] = ["LANDUSE C TO SOIL ON PFTS KG/M2/YR", "", "", "", ""] +atm_stashvar[19046] = ["LANDUSE C TO SOIL (GBM) KGC/M2/YR", "", "", "", ""] +atm_stashvar[19047] = ["TRIFFID CO2 FLUX TO ATMOS KGC/M2/YR", "", "", "", ""] +atm_stashvar[19048] = ["CARBON ERROR IN VEG2 KGC/M2", "", "", "", ""] +atm_stashvar[19049] = ["CARBON ERROR IN TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19050] = ["VEG CARBON ERROR IN TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19051] = ["SOIL CARBON ERROR IN TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19052] = ["WP CARBON ERROR IN TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19053] = ["SOIL TO ATMOS RESP FLUX KGC/M2/YR", "", "", "", ""] +atm_stashvar[19054] = ["FRAC. OF TOTAL LITTER GOING TO DPM", "", "", "", ""] +atm_stashvar[19101] = ["NPP ON PFTS POST N-LIMIT KGC/M2/YR", "", "", "", ""] +atm_stashvar[19102] = ["NPP POST N-LIMIT (GBM) KGC/M2/YR", "", "", "", ""] +atm_stashvar[19103] = ["EXUDATES ON PFTS KGC/M2/YR", "", "", "", ""] +atm_stashvar[19104] = ["GRIDBOX MEAN EXUDATES KGC/M2/YR", "", "", "", ""] +atm_stashvar[19111] = ["NITROGEN DEPOSITION KGN/M2/YR", "", "", "", ""] +atm_stashvar[19112] = ["NITROGEN FIXATION PFTS KGC/M2/YR", "", "", "", ""] +atm_stashvar[19113] = ["NITROGEN FIXATION (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19114] = ["NITROGEN LEACHING (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19115] = ["MINERALISED NIT. GAS LOSS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19116] = ["INORG NITROGEN LOSS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19117] = ["NITROGEN ATM GAS LOSS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19118] = ["NITROGEN TOTAL LOSS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19119] = ["HARVEST N ON PFTS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19120] = ["HARVEST N (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19121] = ["NITROGEN LUC ON PFTS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19122] = ["NITROGEN LUC (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19123] = ["NITROGEN LITTER ON PFTS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19124] = ["NITROGEN LITTER (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19125] = ["N FERTILISER ON PFTS KGN/M2/YR", "", "", "", ""] +atm_stashvar[19126] = ["N FERTILISER (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19127] = ["LANDUSE N TO SOIL ON PFTS KG/M2/YR", "", "", "", ""] +atm_stashvar[19128] = ["LANDUSE N TO SOIL (GBM) KGC/M2/YR", "", "", "", ""] +atm_stashvar[19131] = ["NITROGEN STEM/WOOD KGN/M2", "", "", "", ""] +atm_stashvar[19132] = ["NITROGEN LEAF KGN/M2", "", "", "", ""] +atm_stashvar[19133] = ["NITROGEN ROOT KGN/M2", "", "", "", ""] +atm_stashvar[19134] = ["NITROGEN LEAF LABILE KGN/M2", "", "", "", ""] +atm_stashvar[19135] = ["NITROGEN LEAF ALLOCATED KGN/M2", "", "", "", ""] +atm_stashvar[19136] = ["NITROGEN VEG KGN/M2", "", "", "", ""] +atm_stashvar[19137] = ["NITROGEN VEG (GBM) KGN/M2", "", "", "", ""] +atm_stashvar[19141] = ["NITROGEN SOIL RPM KGN/M2", "", "", "", ""] +atm_stashvar[19142] = ["NITROGEN SOIL DPM KGN/M2", "", "", "", ""] +atm_stashvar[19143] = ["NITROGEN SOIL BIO KGN/M2", "", "", "", ""] +atm_stashvar[19144] = ["NITROGEN SOIL HUM KGN/M2", "", "", "", ""] +atm_stashvar[19145] = ["NITROGEN SOIL TOTAL KGN/M2", "", "", "", ""] +atm_stashvar[19146] = ["INORGANIC NITROGEN KGN/M2", "", "", "", ""] +atm_stashvar[19147] = ["NITROGEN TOTAL ECOSYSTEM KGN/M2", "", "", "", ""] +atm_stashvar[19152] = ["N DEMAND GROWTH KGN/M2/YR", "", "", "", ""] +atm_stashvar[19153] = ["N DEMAND SPREAD KGN/M2/YR", "", "", "", ""] +atm_stashvar[19154] = ["N DEMAND TOTAL KGN/M2/YR", "", "", "", ""] +atm_stashvar[19155] = ["N DEMAND TOTAL (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19156] = ["N UPTAKE TURNOVER KGN/M2/YR", "", "", "", ""] +atm_stashvar[19157] = ["N UPTAKE GROWTH KGN/M2/YR", "", "", "", ""] +atm_stashvar[19158] = ["N UPTAKE SPREAD KGN/M2/YR", "", "", "", ""] +atm_stashvar[19159] = ["N UPTAKE TOTAL KGN/M2/YR", "", "", "", ""] +atm_stashvar[19160] = ["N UPTAKE TOTAL (GBM) KGN/M2/YR", "", "", "", ""] +atm_stashvar[19161] = ["N SOIL DECOMPOSITION RATE MODIFIER", "", "", "", ""] +atm_stashvar[19162] = ["N IMMOBILIS POTEN DPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19163] = ["N IMMOBILIS POTEN RPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19164] = ["N IMMOBILIS POTEN BIO KGN/M2/YR", "", "", "", ""] +atm_stashvar[19165] = ["N IMMOBILIS POTEN HUM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19166] = ["N IMMOBILIS POTEN TOT KGN/M2/YR", "", "", "", ""] +atm_stashvar[19167] = ["N IMMOBILIS DPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19168] = ["N IMMOBILIS RPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19169] = ["N IMMOBILIS BIO KGN/M2/YR", "", "", "", ""] +atm_stashvar[19170] = ["N IMMOBILIS HUM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19171] = ["N IMMOBILIS TOT KGN/M2/YR", "", "", "", ""] +atm_stashvar[19172] = ["N MINERALIS POTEN DPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19173] = ["N MINERALIS POTEN RPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19174] = ["N MINERALIS POTEN BIO KGN/M2/YR", "", "", "", ""] +atm_stashvar[19175] = ["N MINERALIS POTEN HUM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19176] = ["N MINERALIS POTEN TOT KGN/M2/YR", "", "", "", ""] +atm_stashvar[19177] = ["N MINERALIS DPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19178] = ["N MINERALIS RPM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19179] = ["N MINERALIS BIO KGN/M2/YR", "", "", "", ""] +atm_stashvar[19180] = ["N MINERALIS HUM KGN/M2/YR", "", "", "", ""] +atm_stashvar[19181] = ["N MINERALIS TOT KGN/M2/YR", "", "", "", ""] +atm_stashvar[19182] = ["GPP ON PFTS (KGC/M2/YR)", "", "", "", ""] +atm_stashvar[19183] = ["GPP GRIDBOX MEAN (KGC/M2/YR)", "", "", "", ""] +atm_stashvar[19184] = ["PLANT RESP AFT N LIM PFTS KGC/M2/YR", "", "", "", ""] +atm_stashvar[19185] = ["PLANT RESP AFT N LIM GBM KGC/M2/YR", "", "", "", ""] +atm_stashvar[19186] = ["VEG NITROGEN ERROR IN TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19187] = ["SOIL NITROGEN ERROR TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19188] = ["INORG NITROGEN ERROR TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[19189] = ["NITROGEN ERROR IN TRIFFID KGC/M2", "", "", "", ""] +atm_stashvar[20001] = ["THICKNESS : 1000-500 MB", "", "", "", ""] +atm_stashvar[20002] = ["THICKNESS : 1000-850 MB", "", "", "", ""] +atm_stashvar[20003] = ["WIND SPEEDS : 10 METRES B GRID", "", "", "", ""] +atm_stashvar[20004] = ["WIND SPEEDS : PRESSURE LEVEL", "", "", "", ""] +atm_stashvar[20005] = ["DIVERGENCE", "", "", "", ""] +atm_stashvar[20006] = ["RELATIVE VORTICITY", "", "", "", ""] +atm_stashvar[20007] = ["MOUNTAIN WAVE TURBULENCE PREDICTOR", "", "", "", ""] +atm_stashvar[20012] = ["CONVECTIVE CLOUD DEPTHS (kft)", "", "", "", ""] +atm_stashvar[20013] = ["TOTAL PRECIP ACCUMULATION : 6 HOURS", "", "", "", ""] +atm_stashvar[20014] = ["PRECIPITATION SYMBOL", "", "", "", ""] +atm_stashvar[20015] = ["PRESENT WEATHER CODE", "", "", "", ""] +atm_stashvar[20016] = ["CAT PREDICTOR", "", "", "", ""] +atm_stashvar[20017] = ["MAX CAT", "", "", "", ""] +atm_stashvar[20018] = ["MAX CAT PRESSURE", "", "", "", ""] +atm_stashvar[20020] = ["MAX WIND U-COMPONENT", "", "", "", ""] +atm_stashvar[20021] = ["MAX WIND V-COMPONENT", "", "", "", ""] +atm_stashvar[20022] = ["MAX WIND PRESSURE", "", "", "", ""] +atm_stashvar[20023] = ["MAX WIND ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20024] = ["TROPOPAUSE PRESSURE", "", "", "", ""] +atm_stashvar[20025] = ["TROPOPAUSE TEMPERATURE", "", "", "", ""] +atm_stashvar[20026] = ["TROPOPAUSE HEIGHT", "", "", "", ""] +atm_stashvar[20027] = ["TROPOPAUSE ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20028] = ["SNOW PROBABILITY", "", "", "", ""] +atm_stashvar[20029] = ["CONTRAIL - LOWER LIMIT", "", "", "", ""] +atm_stashvar[20030] = ["CONTRAIL - UPPER LIMIT", "", "", "", ""] +atm_stashvar[20031] = ["THERMAL ADVECTION", "", "", "", ""] +atm_stashvar[20032] = ["MEAN THERMAL ADVECTION", "", "", "", ""] +atm_stashvar[20033] = ["FREEZING LEVEL GEOPOTENTIAL HEIGHT", "", "", "", ""] +atm_stashvar[20034] = ["FREEZING LEVEL PRESSURE", "", "", "", ""] +atm_stashvar[20035] = ["FREEZING LEVEL ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20036] = ["-20C ISOTHERM GEOPOTENTIAL HEIGHT", "", "", "", ""] +atm_stashvar[20037] = ["-20C ISOTHERM PRESSURE", "", "", "", ""] +atm_stashvar[20038] = ["-20C ISOTHERM ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20039] = ["CONV CLOUD BASE ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20040] = ["CONV CLOUD TOP ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20041] = ["MAXIMUM WIND BASE - ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20042] = ["MAXIMUM WIND TOP - ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20043] = ["WAFC ICING POTENTIAL", "", "", "", ""] +atm_stashvar[20044] = ["WAFC ICING POTENTIAL (retired)", "", "", "", ""] +atm_stashvar[20045] = ["WAFC IN-CLOUD TURB POTENTIAL", "", "", "", ""] +atm_stashvar[20046] = ["WAFC IN-CLOUD TURB POTENTIAL (ret)", "", "", "", ""] +atm_stashvar[20047] = ["WAFC CAT POTENTIAL", "", "", "", ""] +atm_stashvar[20048] = ["WAFC CAT POTENTIAL (retired)", "", "", "", ""] +atm_stashvar[20049] = ["WAFC CB HORIZONTAL EXTENT", "", "", "", ""] +atm_stashvar[20050] = ["WAFC PRESSURE AT CB BASE", "", "", "", ""] +atm_stashvar[20051] = ["WAFC PRESSURE AT CB TOP", "", "", "", ""] +atm_stashvar[20052] = ["WAFC PRESSURE AT EMBD CB BASE", "", "", "", ""] +atm_stashvar[20053] = ["WAFC PRESSURE AT EMBD CB TOP", "", "", "", ""] +atm_stashvar[20054] = ["WAFC ICAO HEIGHT AT CB BASE", "", "", "", ""] +atm_stashvar[20055] = ["WAFC ICAO HEIGHT AT CB TOP", "", "", "", ""] +atm_stashvar[20056] = ["WAFC ICAO HGHT EMBD CB BASE", "", "", "", ""] +atm_stashvar[20057] = ["WAFC ICAO HGHT EMBD CB TOP", "", "", "", ""] +atm_stashvar[20058] = ["SURFACE DUST CONCENTRATION (g/m3)", "", "", "", ""] +atm_stashvar[20059] = ["2000-5000FT DUST CONCENTRATION(g/m3)", "", "", "", ""] +atm_stashvar[20060] = ["ZENITH TOTAL DELAY", "", "", "", ""] +atm_stashvar[20061] = ["-70C ISOTHERM GEOPOTENTIAL HEIGHT", "", "", "", ""] +atm_stashvar[20062] = ["-70C ISOTHERM PRESSURE", "", "", "", ""] +atm_stashvar[20063] = ["-70C ISOTHERM ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20064] = ["TROPOPAUSE PRESSURE", "", "", "", ""] +atm_stashvar[20065] = ["TROPOPAUSE TEMPERATURE", "", "", "", ""] +atm_stashvar[20066] = ["TROPOPAUSE HEIGHT", "", "", "", ""] +atm_stashvar[20067] = ["TROPOPAUSE ICAO HEIGHT", "", "", "", ""] +atm_stashvar[20068] = ["THINNED LS RAINFALL RATE KG/M2/S", "", "", "", ""] +atm_stashvar[20069] = ["THINNED TOTAL PRECIP RATE KG/M2/S", "", "", "", ""] +atm_stashvar[20070] = ["VIS AT 1.5M (incl ppn and dust) M", "", "", "", ""] +atm_stashvar[20071] = ["VIS IN DUST ONLY AT 1.5M M", "", "", "", ""] +atm_stashvar[20072] = ["CONVECTIVE PRECIP RATE: kg/m2/s", "", "", "", ""] +atm_stashvar[20073] = ["EXTENDED CONV PRECIP RATE: kg/m2/s", "", "", "", ""] +atm_stashvar[20074] = ["COLSON-PANOFSKY TURB INDEX m2/s2", "", "", "", ""] +atm_stashvar[20075] = ["ELLRODS TI1 TURBULENCE INDEX s-2", "", "", "", ""] +atm_stashvar[20076] = ["INVERSE RICHARDSON NUMBER (-)", "", "", "", ""] +atm_stashvar[20077] = ["WAFC CAT POT. (Turp et al) (StaGE)", "", "", "", ""] +atm_stashvar[20080] = ["UPDRAFT HELICITY 2000-5000m M2/S2", "", "", "", ""] +atm_stashvar[20084] = ["TROPOPAUSE PRESSURE", "", "", "", ""] +atm_stashvar[20085] = ["TROPOPAUSE TEMPERATURE", "", "", "", ""] +atm_stashvar[20086] = ["TROPOPAUSE HEIGHT", "", "", "", ""] +atm_stashvar[20087] = ["TROPOPAUSE ICAO HEIGHT", "", "", "", ""] +atm_stashvar[21100] = ["FLASH RATE S-1", "", "", "", ""] +atm_stashvar[21101] = ["STORM LOCATION FLAG", "", "", "", ""] +atm_stashvar[21102] = ["GRAUPEL WATER PATH IN ELEC KG M-2", "", "", "", ""] +atm_stashvar[21103] = ["TOTAL ICE WATER PATH IN ELEC KG M-2", "", "", "", ""] +atm_stashvar[21104] = ["NUMBER OF LIGHTNING FLASHES", "", "", "", ""] +atm_stashvar[21105] = ["FLASH RATE: GRAUP. FLX (MCCAUL) S-1", "", "", "", ""] +atm_stashvar[21106] = ["FLASH RATE: TOTAL ICE (MCCAUL) S-1", "", "", "", ""] +atm_stashvar[26001] = ["RIVER WATER STORAGE KG", "", "", "", ""] +atm_stashvar[26002] = ["GRIDBOX OUTFLOW KG/S", "", "kg s-1", "", ""] +atm_stashvar[26003] = ["GRIDBOX INFLOW KG/S", "", "kg s-1", "", ""] +atm_stashvar[26004] = ["RIVER OUTFLOW KG/M2/S", "", "kg m-2 s-1", "", ""] +atm_stashvar[26006] = ["INLANDBASINFLOW TRIP GRID KG/S", "", "kg s-1", "", ""] +atm_stashvar[30001] = ["U COMPNT OF WIND RHO GRID", "ua", "m s-1", "eastward_wind", ""] +atm_stashvar[30002] = ["V COMPNT OF WIND RHO GRID", "va", "m s-1", "northward_wind", ""] +atm_stashvar[30003] = ["W COMPNT OF WIND RHO GRID", "", "", "", ""] +atm_stashvar[30004] = ["TEMPERATURE RHO GRID", "ta", "K", "air_temperature", ""] +atm_stashvar[30005] = ["SPECIFIC HUMIDITY RHO GRID", "hus", "1", "specific_humidity", ""] +atm_stashvar[30006] = ["height model levels RHO GRID M", "", "", "", ""] +atm_stashvar[30007] = ["KE model levels RHO GRID m2/s2", "", "", "", ""] +atm_stashvar[30008] = ["OMEGA ON THETA LEVELS (C GRID)", "", "", "", ""] +atm_stashvar[30011] = ["U*U*rho_dry*dr X1.E-5 kg/s2", "", "", "", ""] +atm_stashvar[30012] = ["U*V*rho_dry*dr X1.E-5 kg/s2", "", "", "", ""] +atm_stashvar[30013] = ["U*W*rho_dry*dr X1.E-5 kg/s2", "", "", "", ""] +atm_stashvar[30014] = ["U*T*rho_dry*dr X1.E-5 kgK/ms", "", "", "", ""] +atm_stashvar[30015] = ["U*Q*rho_dry*dr X1.E-5 kg/ms", "", "", "", ""] +atm_stashvar[30016] = ["U*Z*rho_dry*dr X1.E-5 kg/s", "", "", "", ""] +atm_stashvar[30017] = ["U*KE*rho_dry*dr X1.E-5 kgm/s3", "", "", "", ""] +atm_stashvar[30022] = ["V*V*rho_dry*dr X1.E-5 kg/s2", "", "", "", ""] +atm_stashvar[30023] = ["V*W*rho_dry*dr X1.E-5 kg/s2", "", "", "", ""] +atm_stashvar[30024] = ["V*T*rho_dry*dr X1.E-5 kgK/ms", "", "", "", ""] +atm_stashvar[30025] = ["V*Q *rho_dry*dr X1.E-5 kg/ms", "", "", "", ""] +atm_stashvar[30026] = ["V*Z*rho_dry*dr X1.E-5 kg/s", "", "", "", ""] +atm_stashvar[30027] = ["V*KE*rho_dry*dr X1.E-5 kgm/s3", "", "", "", ""] +atm_stashvar[30033] = ["W*W*rho_dry*dr X1.E-5 kg/s2", "", "", "", ""] +atm_stashvar[30034] = ["W*T*rho_dry*dr X1.E-5 kgK/ms", "", "", "", ""] +atm_stashvar[30035] = ["W*Q *rho_dry*dr X1.E-5 kg/ms", "", "", "", ""] +atm_stashvar[30036] = ["W*Z*rho_dry*dr X1.E-5 kg/s", "", "", "", ""] +atm_stashvar[30037] = ["W*KE*rho_dry*dr X1.E-5 kgm/s3", "", "", "", ""] +atm_stashvar[30044] = ["T*T*rho_dry*dr X1.E-5 kgK2/m2", "", "", "", ""] +atm_stashvar[30045] = ["T*Q*rho_dry*dr X1.E-5 kgK/m2", "", "", "", ""] +atm_stashvar[30046] = ["TZ*rho_dry*dr X1.E-5 kgK/m", "", "", "", ""] +atm_stashvar[30047] = ["T*KE*rho_dry*dr X1.E-5 kgK/s2", "", "", "", ""] +atm_stashvar[30055] = ["QQ*rho_dry*dr X1.E-5 kg/m2", "", "", "", ""] +atm_stashvar[30056] = ["Q*Z*rho_dry*dr X1.E-5 kg", "", "", "", ""] +atm_stashvar[30057] = ["Q*KE*rho_dry*dr X1.E-5 kg/s2", "", "", "", ""] +atm_stashvar[30066] = ["Z*Z*rho_dry*dr X1.E-5 kg", "", "", "", ""] +atm_stashvar[30067] = ["Z*KE*rho_dry*dr X1.E-5 kg/ms2", "", "", "", ""] +atm_stashvar[30077] = ["KE*KE*rho_dry*dr X1.E-5 kg/m4s4", "", "", "", ""] +atm_stashvar[30078] = ["ZOM RHO GRID X1.E-16", "", "", "", ""] +atm_stashvar[30101] = ["U MASS WEIGHTED RHO GRID kgm/s", "", "", "", ""] +atm_stashvar[30102] = ["V MASS WEIGHTED RHO GRID kg/ms", "", "", "", ""] +atm_stashvar[30103] = ["W MASS WEIGHTED RHO GRID kg/ms", "", "", "", ""] +atm_stashvar[30104] = ["T MASS WEIGHTED RHO GRID kgK/m2", "", "", "", ""] +atm_stashvar[30105] = ["Q MASS WEIGHTED RHO GRID kg/m2", "", "", "", ""] +atm_stashvar[30106] = ["height mass weighted kg/m", "", "", "", ""] +atm_stashvar[30107] = ["KE mass weighted RHO GRID kg/s2", "", "", "", ""] +atm_stashvar[30111] = ["T AT EOT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30112] = ["WBIG Set to 1 if w GT 1.0m/s", "", "", "", ""] +atm_stashvar[30113] = ["RH on model levels at end timestep", "", "", "", ""] +atm_stashvar[30114] = ["WBIG Set to 1 if w GT 0.1m/s", "", "", "", ""] +atm_stashvar[30115] = ["DRY MASS WEIGHTING MODEL LEV KG/M2", "", "", "", ""] +atm_stashvar[30171] = ["dT**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30172] = ["dQ**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30173] = ["dQcl**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30174] = ["dQcf**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30175] = ["dU**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30176] = ["dV**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30177] = ["dW**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30178] = ["dRHO**2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30181] = ["T TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30182] = ["Q TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30183] = ["QCL TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30184] = ["QCF TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30185] = ["U TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30186] = ["V TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30187] = ["W TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30188] = ["RHO TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30189] = ["RAIN TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30190] = ["GRAUPEL TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30191] = ["QCF2 TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30192] = ["CF TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30193] = ["CFL TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30194] = ["CFF TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30195] = ["M_V TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30196] = ["M_CL TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30197] = ["M_CF TOTAL INCREMENT ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30198] = ["M_RAIN TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30199] = ["M_GRAUP TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30200] = ["M_CF2 TOTAL INC ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30201] = ["U COMPNT OF WIND ON P LEV/UV GRID", "ua", "m s-1", "eastward_wind", "ua_plev"] +atm_stashvar[30202] = ["V COMPNT OF WIND ON P LEV/UV GRID", "va", "m s-1", "northward_wind", "va_plev"] +atm_stashvar[30203] = ["W COMPNT OF WIND ON P LEV/UV GRID", "wa", "m s-1", "upward_air_velocity", "wa_plev"] +atm_stashvar[30204] = ["TEMPERATURE ON P LEV/UV GRID", "ta", "K", "air_temperature", "ta_plev"] +atm_stashvar[30205] = ["SPECIFIC HUMIDITY ON P LEV/UV GRID", "hus", "1", "specific_humidity", "hus_plev"] +atm_stashvar[30206] = ["RELATIVE HUMIDITY ON P LEV/UV GRID", "hur", "%", "relative_humidity", "hur_plev"] +atm_stashvar[30207] = ["GEOPOTENTIAL HEIGHT ON P LEV/UV GRID", "zg", "m", "geopotential_height", "zg_plev"] +atm_stashvar[30208] = ["OMEGA ON P LEV/UV GRID", "wap", "Pa s-1", "lagrangian_tendency_of_air_pressure", "wap_plev"] +atm_stashvar[30211] = ["UU ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30212] = ["UV ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30213] = ["UW ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30214] = ["UT ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30215] = ["UQ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30217] = ["UZ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30218] = ["UOM ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30222] = ["VV ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30223] = ["VW ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30224] = ["VT ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30225] = ["VQ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30227] = ["VZ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30228] = ["VOM ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30233] = ["WW ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30234] = ["WT ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30235] = ["WQ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30237] = ["WZ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30238] = ["WOM ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30244] = ["TT ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30245] = ["TQ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30247] = ["TZ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30248] = ["TOM ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30255] = ["QQ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30257] = ["QZ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30258] = ["QOM ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30277] = ["ZZ ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30278] = ["ZOM ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30288] = ["OMOM ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30293] = ["W COMPNT OF WIND ON P LEV/T GRID", "", "", "", ""] +atm_stashvar[30294] = ["TEMPERATURE ON P LEV/T GRID", "ta", "K", "air_temperature", "ta_plev"] +atm_stashvar[30295] = ["SPECIFIC HUMIDITY ON P LEV/T GRID", "hus", "1", "specific_humidity", "hus_plev"] +atm_stashvar[30296] = ["RELATIVE HUMIDITY ON P LEV/T GRID", "hur", "%", "relative_humidity", "hur_plev"] +atm_stashvar[30297] = ["GEOPOTENTIAL HEIGHT ON P LEV/T GRID", "zg", "m", "geopotential_height", "zg_plev"] +atm_stashvar[30298] = ["OMEGA ON P LEV/T GRID", "wa", "Pa s-1", "lagrangian_tendency_of_air_pressure", "wap_plev"] +atm_stashvar[30301] = ["HEAVYSIDE FN ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30302] = ["VIRTUAL TEMPERATURE ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30303] = ["VIRTUAL TEMP*OMEGA ON P LEV/UV GRID", "", "", "", ""] +atm_stashvar[30304] = ["HEAVYSIDE FN ON P LEV/T GRID", "", "", "", ""] +atm_stashvar[30310] = ["RESIDUAL MN MERID. CIRC. VSTARBAR", "", "", "", ""] +atm_stashvar[30311] = ["RESIDUAL MN MERID. CIRC. WSTARBAR", "", "", "", ""] +atm_stashvar[30312] = ["ELIASSEN-PALM FLUX (MERID. COMPNT)", "", "", "", ""] +atm_stashvar[30313] = ["ELIASSEN-PALM FLUX (VERT. COMPNT)", "", "", "", ""] +atm_stashvar[30314] = ["DIVERGENCE OF ELIASSEN-PALM FLUX", "", "", "", ""] +atm_stashvar[30315] = ["MERIDIONAL HEAT FLUX", "", "", "", ""] +atm_stashvar[30316] = ["MERIDIONAL MOMENTUM FLUX", "", "", "", ""] +atm_stashvar[30401] = ["TOTAL KE PER UNIT AREA RHO GRID", "", "", "", ""] +atm_stashvar[30402] = ["TOTAL KE PER UA WITH W RHO GRID", "", "", "", ""] +atm_stashvar[30403] = ["TOTAL COLUMN DRY MASS RHO GRID", "", "kg m-2", "", ""] +atm_stashvar[30404] = ["TOTAL COLUMN WET MASS RHO GRID", "", "kg m-2", "", ""] +atm_stashvar[30405] = ["TOTAL COLUMN QCL RHO GRID", "lwp", "kg m-2", "atmosphere_cloud_liquid_water_content", ""] +atm_stashvar[30406] = ["TOTAL COLUMN QCF RHO GRID", "clivi", "kg m-2", "atmosphere_cloud_ice_content", ""] +atm_stashvar[30407] = ["TOTAL WATER VAPOUR FLUX U RHO GRID", "", "", "", ""] +atm_stashvar[30408] = ["TOTAL WATER VAPOUR FLUX V RHO GRID", "", "", "", ""] +atm_stashvar[30409] = ["TOTAL WATER VAPOUR FLUX W RHO GRID", "", "", "", ""] +atm_stashvar[30410] = ["MOUNTAIN TORQUE PER UNIT AREA N/M", "", "", "", ""] +atm_stashvar[30411] = ["ANGULAR MOMENTUM M1 KG M2/S X10-24", "", "", "", ""] +atm_stashvar[30412] = ["ANGULAR MOMENTUM M2 KG M2/S X10-24", "", "", "", ""] +atm_stashvar[30413] = ["ANGULAR MOMENTUM M3 KG M2/S X10-24", "", "", "", ""] +atm_stashvar[30414] = ["ANGULAR MOMENTUM W1 KG M2/S X10-24", "", "", "", ""] +atm_stashvar[30415] = ["ANGULAR MOMENTUM W2 KG M2/S X10-24", "", "", "", ""] +atm_stashvar[30416] = ["ANGULAR MOMENTUM W3 KG M2/S X10-24", "", "", "", ""] +atm_stashvar[30417] = ["PSTAR P GRID", "", "Pa", "surface_air_pressure", ""] +atm_stashvar[30418] = ["PSTAR UV GRID", "", "", "", ""] +atm_stashvar[30419] = ["ENERGY CORR P GRID IN COLUMN W/M2", "", "", "", ""] +atm_stashvar[30420] = ["column integral cvT per unit area", "", "", "", ""] +atm_stashvar[30421] = ["column integral gr per unit area", "", "", "", ""] +atm_stashvar[30422] = ["dry mass col int u*gz per unit area", "", "", "", ""] +atm_stashvar[30423] = ["dry mass col int v*gz per unit area", "", "", "", ""] +atm_stashvar[30424] = ["dry mass col int w*gz per unit area", "", "", "", ""] +atm_stashvar[30425] = ["dry mass col int u*T per unit area", "", "", "", ""] +atm_stashvar[30426] = ["dry mass col int v*T per unit area", "", "", "", ""] +atm_stashvar[30427] = ["dry mass col int w*T per unit area", "", "", "", ""] +atm_stashvar[30428] = ["dry mass col int u*q per unit area", "", "", "", ""] +atm_stashvar[30429] = ["dry mass col int v*q per unit area", "", "", "", ""] +atm_stashvar[30430] = ["dry mass col int w*q per unit area", "", "", "", ""] +atm_stashvar[30431] = ["dry mass col int u*v per unit area", "", "", "", ""] +atm_stashvar[30432] = ["dry mass col int u*w per unit area", "", "", "", ""] +atm_stashvar[30433] = ["dry mass col int v*w per unit area", "", "", "", ""] +atm_stashvar[30434] = ["dry mass col int u*KE per unit area", "", "", "", ""] +atm_stashvar[30435] = ["dry mass col int v*KE per unit area", "", "", "", ""] +atm_stashvar[30436] = ["dry mass col int w*KE per unit area", "", "", "", ""] +atm_stashvar[30437] = ["dry mass col int u per unit area", "", "", "", ""] +atm_stashvar[30438] = ["dry mass col int v per unit area", "", "", "", ""] +atm_stashvar[30439] = ["dry mass col int w per unit area", "", "", "", ""] +atm_stashvar[30440] = ["mountain x-surf. pressure drag N/m-2", "", "", "", ""] +atm_stashvar[30441] = ["mountain y-surf. pressure drag N/m-2", "", "", "", ""] +atm_stashvar[30442] = ["COLUMN SATURATION FRACTION", "", "", "", ""] +atm_stashvar[30451] = ["Pressure at Tropopause Level", "", "", "", ""] +atm_stashvar[30452] = ["Temperature at Tropopause Level", "", "", "", ""] +atm_stashvar[30453] = ["Height at Tropopause Level", "", "", "", ""] +atm_stashvar[30454] = ["ICAO HT OF TROP- NEED HT,TEMP,PRESS", "", "", "", ""] +atm_stashvar[30455] = ["VORTICITY 850", "", "", "", ""] +atm_stashvar[30456] = ["FILTERED VORTICITY 850", "", "", "", ""] +atm_stashvar[30457] = ["VORTICITY TC", "", "", "", ""] +atm_stashvar[30458] = ["FILTERED VORTICITY TC", "", "", "", ""] +atm_stashvar[30459] = ["MEAN VORTICITY of req. levels", "", "", "", ""] +atm_stashvar[30460] = ["FIL MEAN VORT of req. levels", "", "", "", ""] +atm_stashvar[30461] = ["TOTAL COLUMN Q (WATER VAPOUR PATH)", "", "kg m-2", "", ""] +atm_stashvar[30462] = ["TOTAL MOISTURE FLUX U RHO GRID", "", "", "", ""] +atm_stashvar[30463] = ["TOTAL MOISTURE FLUX V RHO GRID", "", "", "", ""] +atm_stashvar[30464] = ["ATMOSPHERIC CO2 BURDEN IN GtC", "", "", "", ""] +atm_stashvar[30465] = ["ATMOSPHERIC CO2 BURDEN IN kg(CO2)", "", "", "", ""] +atm_stashvar[30466] = ["CO2 CONCENTRATION (ppmv)", "", "", "", ""] +atm_stashvar[30467] = ["CO2 MASS MIXING RATIO (kg/kg)", "", "", "", ""] +atm_stashvar[30901] = ["THETA TOTAL INCR ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30902] = ["THETAVD TOTAL INCR ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[30903] = ["DRY RHO TOTAL INCR ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[31001] = ["OROGRAPHY HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31002] = ["U HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31003] = ["V HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31004] = ["W HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31005] = ["DENSITY HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31006] = ["POTENTIAL TEMP HORIZ BOUND VALUE", "", "", "", ""] +atm_stashvar[31007] = ["SPECIFIC HUMIDTY HORIZ BOUND VALUE", "", "", "", ""] +atm_stashvar[31008] = ["QCL HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31009] = ["QCF HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31010] = ["EXNER PRESSURE HORIZ BOUND VALUE", "", "", "", ""] +atm_stashvar[31011] = ["U_ADV HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31012] = ["V_ADV HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31013] = ["W_ADV HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31014] = ["CLD ICE (CRY) HORIZ. BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31015] = ["RAIN HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31016] = ["GRAUPEL HORIZONTAL BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31017] = ["TOTAL CLOUD FRACTION BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31018] = ["LIQUID CLOUD FRACTION BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31019] = ["FROZEN CLOUD FRACTION BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31020] = ["TOTAL AEROSOL (MURK) BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31023] = ["DUST DIV 1 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31024] = ["DUST DIV 2 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31025] = ["DUST DIV 3 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31026] = ["DUST DIV 4 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31027] = ["DUST DIV 5 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31028] = ["DUST DIV 6 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31029] = ["SO2 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31030] = ["DMS BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31031] = ["SO4_AITKEN BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31032] = ["SO4_ACCU BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31033] = ["SO4_DISS BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31035] = ["NH3 BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31036] = ["SOOT_NEW BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31037] = ["SOOT_AGD BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31038] = ["SOOT_CLD BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31039] = ["BMASS_NEW BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31040] = ["BMASS_AGD BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31041] = ["BMASS_CLD BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31042] = ["OCFF_NEW BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31043] = ["OCFF_AGD BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31044] = ["OCFF_CLD BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31045] = ["NITR_ACC BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31046] = ["NITR_DISS BOUNDARY VALUE", "", "", "", ""] +atm_stashvar[31257] = ["U HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31258] = ["V HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31259] = ["W HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31260] = ["DENSITY HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31261] = ["POTENTIAL TEMP HORIZ BOUND TENDENCY", "", "", "", ""] +atm_stashvar[31262] = ["SPECIFIC HUMIDTY HORIZ BOUND TEND", "", "", "", ""] +atm_stashvar[31263] = ["QCL HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31264] = ["QCF HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31265] = ["EXNER PRESSURE HORIZ BOUND TENDENCY", "", "", "", ""] +atm_stashvar[31266] = ["U_ADV HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31267] = ["V_ADV HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31268] = ["W_ADV HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31269] = ["CLD ICE (CRY) HORIZ. BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31270] = ["RAIN HORIZONTAL BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31271] = ["GRAUPEL HORIZONTAL BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31272] = ["TOTAL CLOUD FRACTN BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31273] = ["LIQUID CLOUD FRACN BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31274] = ["FROZEN CLOUD FRACN BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[31275] = ["TOTAL AEROSOL (MURK) BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31276] = ["DUST DIV 1 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31277] = ["DUST DIV 2 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31278] = ["DUST DIV 3 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31279] = ["DUST DIV 4 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31280] = ["DUST DIV 5 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31281] = ["DUST DIV 6 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31282] = ["SO2 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31283] = ["DMS BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31284] = ["SO4_AITKEN BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31285] = ["SO4_ACCU BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31286] = ["SO4_DISS BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31288] = ["NH3 BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31289] = ["SOOT_NEW BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31290] = ["SOOT_AGD BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31291] = ["SOOT_CLD BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31292] = ["BMASS_NEW BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31293] = ["BMASS_AGD BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31294] = ["BMASS_CLD BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31295] = ["OCFF_NEW BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31296] = ["OCFF_AGD BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31297] = ["OCFF_CLD BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31298] = ["NITR_ACC BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[31299] = ["NITR_DISS BOUNDARY TEND.", "", "", "", ""] +atm_stashvar[32001] = ["OROGRAPHY HORIZONTAL BV OUT retired", "", "", "", ""] +atm_stashvar[32002] = ["U HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32003] = ["V HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32004] = ["W HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32005] = ["DENSITY HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32006] = ["POTENTIAL TEMP HORIZ BV OUT(retired)", "", "", "", ""] +atm_stashvar[32007] = ["SPECIFIC HUMIDTY HORIZ BV OUT (retd)", "", "", "", ""] +atm_stashvar[32008] = ["QCL HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32009] = ["QCF HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32010] = ["EXNER PRESSURE HORIZ BV OUT(retired)", "", "", "", ""] +atm_stashvar[32011] = ["U_ADV HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32012] = ["V_ADV HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32013] = ["W_ADV HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32014] = ["CLOUD ICE HORIZONTAL BV OUT retired", "", "", "", ""] +atm_stashvar[32015] = ["RAIN HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32016] = ["GRAUPEL HORIZONTAL BV OUT (retired)", "", "", "", ""] +atm_stashvar[32017] = ["TOTAL CLOUD FRACTION BV OUT(retired)", "", "", "", ""] +atm_stashvar[32018] = ["LIQUID CLOUD FRACTION BV OUT", "", "", "", ""] +atm_stashvar[32019] = ["FROZEN CLOUD FRACTION BV OUT (retd)", "", "", "", ""] +atm_stashvar[32020] = ["TOTAL AEROSOL (MURK) BV OUT (retd)", "", "", "", ""] +atm_stashvar[32021] = ["ATM FREE TRACER BOUND VAL. OUT retd", "", "", "", ""] +atm_stashvar[32022] = ["UKCA TRACER BOUND VAL. OUT (retired)", "", "", "", ""] +atm_stashvar[32023] = ["DUST DIV 1 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32024] = ["DUST DIV 2 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32025] = ["DUST DIV 3 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32026] = ["DUST DIV 4 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32027] = ["DUST DIV 5 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32028] = ["DUST DIV 6 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32029] = ["SO2 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32030] = ["DMS BV OUT (retired)", "", "", "", ""] +atm_stashvar[32031] = ["SO4_AITKEN BV OUT (retired)", "", "", "", ""] +atm_stashvar[32032] = ["SO4_ACCU BV OUT (retired)", "", "", "", ""] +atm_stashvar[32033] = ["SO4_DISS BV OUT (retired)", "", "", "", ""] +atm_stashvar[32035] = ["NH3 BV OUT (retired)", "", "", "", ""] +atm_stashvar[32036] = ["SOOT_NEW BV OUT (retired)", "", "", "", ""] +atm_stashvar[32037] = ["SOOT_AGD BV OUT (retired)", "", "", "", ""] +atm_stashvar[32038] = ["SOOT_CLD BV OUT (retired)", "", "", "", ""] +atm_stashvar[32039] = ["BMASS_NEW BV OUT (retired)", "", "", "", ""] +atm_stashvar[32040] = ["BMASS_AGD BV OUT (retired)", "", "", "", ""] +atm_stashvar[32041] = ["BMASS_CLD BV OUT (retired)", "", "", "", ""] +atm_stashvar[32042] = ["OCFF_NEW BV OUT (retired)", "", "", "", ""] +atm_stashvar[32043] = ["OCFF_AGD BV OUT (retired)", "", "", "", ""] +atm_stashvar[32044] = ["OCFF_CLD BV OUT (retired)", "", "", "", ""] +atm_stashvar[32045] = ["NITR_ACC BV OUT (retired)", "", "", "", ""] +atm_stashvar[32046] = ["NITR_DISS BV OUT (retired)", "", "", "", ""] +atm_stashvar[33001] = ["ATM TRACER 1 AFTER TS", "", "", "", ""] +atm_stashvar[33002] = ["ATM TRACER 2 AFTER TS", "", "", "", ""] +atm_stashvar[33003] = ["ATM TRACER 3 AFTER TS", "", "", "", ""] +atm_stashvar[33004] = ["ATM TRACER 4 AFTER TS", "", "", "", ""] +atm_stashvar[33005] = ["ATM TRACER 5 AFTER TS", "", "", "", ""] +atm_stashvar[33006] = ["ATM TRACER 6 AFTER TS", "", "", "", ""] +atm_stashvar[33007] = ["ATM TRACER 7 AFTER TS", "", "", "", ""] +atm_stashvar[33008] = ["ATM TRACER 8 AFTER TS", "", "", "", ""] +atm_stashvar[33009] = ["ATM TRACER 9 AFTER TS", "", "", "", ""] +atm_stashvar[33010] = ["ATM TRACER 10 AFTER TS", "", "", "", ""] +atm_stashvar[33011] = ["ATM TRACER 11 AFTER TS", "", "", "", ""] +atm_stashvar[33012] = ["ATM TRACER 12 AFTER TS", "", "", "", ""] +atm_stashvar[33013] = ["ATM TRACER 13 AFTER TS", "", "", "", ""] +atm_stashvar[33014] = ["ATM TRACER 14 AFTER TS", "", "", "", ""] +atm_stashvar[33015] = ["ATM TRACER 15 AFTER TS", "", "", "", ""] +atm_stashvar[33016] = ["ATM TRACER 16 AFTER TS", "", "", "", ""] +atm_stashvar[33017] = ["ATM TRACER 17 AFTER TS", "", "", "", ""] +atm_stashvar[33018] = ["ATM TRACER 18 AFTER TS", "", "", "", ""] +atm_stashvar[33019] = ["ATM TRACER 19 AFTER TS", "", "", "", ""] +atm_stashvar[33020] = ["ATM TRACER 20 AFTER TS", "", "", "", ""] +atm_stashvar[33021] = ["ATM TRACER 21 AFTER TS", "", "", "", ""] +atm_stashvar[33022] = ["ATM TRACER 22 AFTER TS", "", "", "", ""] +atm_stashvar[33023] = ["ATM TRACER 23 AFTER TS", "", "", "", ""] +atm_stashvar[33024] = ["ATM TRACER 24 AFTER TS", "", "", "", ""] +atm_stashvar[33025] = ["ATM TRACER 25 AFTER TS", "", "", "", ""] +atm_stashvar[33026] = ["ATM TRACER 26 AFTER TS", "", "", "", ""] +atm_stashvar[33027] = ["ATM TRACER 27 AFTER TS", "", "", "", ""] +atm_stashvar[33028] = ["ATM TRACER 28 AFTER TS", "", "", "", ""] +atm_stashvar[33029] = ["ATM TRACER 29 AFTER TS", "", "", "", ""] +atm_stashvar[33030] = ["ATM TRACER 30 AFTER TS", "", "", "", ""] +atm_stashvar[33031] = ["ATM TRACER 31 AFTER TS", "", "", "", ""] +atm_stashvar[33032] = ["ATM TRACER 32 AFTER TS", "", "", "", ""] +atm_stashvar[33033] = ["ATM TRACER 33 AFTER TS", "", "", "", ""] +atm_stashvar[33034] = ["ATM TRACER 34 AFTER TS", "", "", "", ""] +atm_stashvar[33035] = ["ATM TRACER 35 AFTER TS", "", "", "", ""] +atm_stashvar[33036] = ["ATM TRACER 36 AFTER TS", "", "", "", ""] +atm_stashvar[33037] = ["ATM TRACER 37 AFTER TS", "", "", "", ""] +atm_stashvar[33038] = ["ATM TRACER 38 AFTER TS", "", "", "", ""] +atm_stashvar[33039] = ["ATM TRACER 39 AFTER TS", "", "", "", ""] +atm_stashvar[33040] = ["ATM TRACER 40 AFTER TS", "", "", "", ""] +atm_stashvar[33041] = ["ATM TRACER 41 AFTER TS", "", "", "", ""] +atm_stashvar[33042] = ["ATM TRACER 42 AFTER TS", "", "", "", ""] +atm_stashvar[33043] = ["ATM TRACER 43 AFTER TS", "", "", "", ""] +atm_stashvar[33044] = ["ATM TRACER 44 AFTER TS", "", "", "", ""] +atm_stashvar[33045] = ["ATM TRACER 45 AFTER TS", "", "", "", ""] +atm_stashvar[33046] = ["ATM TRACER 46 AFTER TS", "", "", "", ""] +atm_stashvar[33047] = ["ATM TRACER 47 AFTER TS", "", "", "", ""] +atm_stashvar[33048] = ["ATM TRACER 48 AFTER TS", "", "", "", ""] +atm_stashvar[33049] = ["ATM TRACER 49 AFTER TS", "", "", "", ""] +atm_stashvar[33050] = ["ATM TRACER 50 AFTER TS", "", "", "", ""] +atm_stashvar[33051] = ["ATM TRACER 51 AFTER TS", "", "", "", ""] +atm_stashvar[33052] = ["ATM TRACER 52 AFTER TS", "", "", "", ""] +atm_stashvar[33053] = ["ATM TRACER 53 AFTER TS", "", "", "", ""] +atm_stashvar[33054] = ["ATM TRACER 54 AFTER TS", "", "", "", ""] +atm_stashvar[33055] = ["ATM TRACER 55 AFTER TS", "", "", "", ""] +atm_stashvar[33056] = ["ATM TRACER 56 AFTER TS", "", "", "", ""] +atm_stashvar[33057] = ["ATM TRACER 57 AFTER TS", "", "", "", ""] +atm_stashvar[33058] = ["ATM TRACER 58 AFTER TS", "", "", "", ""] +atm_stashvar[33059] = ["ATM TRACER 59 AFTER TS", "", "", "", ""] +atm_stashvar[33060] = ["ATM TRACER 60 AFTER TS", "", "", "", ""] +atm_stashvar[33061] = ["ATM TRACER 61 AFTER TS", "", "", "", ""] +atm_stashvar[33062] = ["ATM TRACER 62 AFTER TS", "", "", "", ""] +atm_stashvar[33063] = ["ATM TRACER 63 AFTER TS", "", "", "", ""] +atm_stashvar[33064] = ["ATM TRACER 64 AFTER TS", "", "", "", ""] +atm_stashvar[33065] = ["ATM TRACER 65 AFTER TS", "", "", "", ""] +atm_stashvar[33066] = ["ATM TRACER 66 AFTER TS", "", "", "", ""] +atm_stashvar[33067] = ["ATM TRACER 67 AFTER TS", "", "", "", ""] +atm_stashvar[33068] = ["ATM TRACER 68 AFTER TS", "", "", "", ""] +atm_stashvar[33069] = ["ATM TRACER 69 AFTER TS", "", "", "", ""] +atm_stashvar[33070] = ["ATM TRACER 70 AFTER TS", "", "", "", ""] +atm_stashvar[33071] = ["ATM TRACER 71 AFTER TS", "", "", "", ""] +atm_stashvar[33072] = ["ATM TRACER 72 AFTER TS", "", "", "", ""] +atm_stashvar[33073] = ["ATM TRACER 73 AFTER TS", "", "", "", ""] +atm_stashvar[33074] = ["ATM TRACER 74 AFTER TS", "", "", "", ""] +atm_stashvar[33075] = ["ATM TRACER 75 AFTER TS", "", "", "", ""] +atm_stashvar[33076] = ["ATM TRACER 76 AFTER TS", "", "", "", ""] +atm_stashvar[33077] = ["ATM TRACER 77 AFTER TS", "", "", "", ""] +atm_stashvar[33078] = ["ATM TRACER 78 AFTER TS", "", "", "", ""] +atm_stashvar[33079] = ["ATM TRACER 79 AFTER TS", "", "", "", ""] +atm_stashvar[33080] = ["ATM TRACER 80 AFTER TS", "", "", "", ""] +atm_stashvar[33081] = ["ATM TRACER 81 AFTER TS", "", "", "", ""] +atm_stashvar[33082] = ["ATM TRACER 82 AFTER TS", "", "", "", ""] +atm_stashvar[33083] = ["ATM TRACER 83 AFTER TS", "", "", "", ""] +atm_stashvar[33084] = ["ATM TRACER 84 AFTER TS", "", "", "", ""] +atm_stashvar[33085] = ["ATM TRACER 85 AFTER TS", "", "", "", ""] +atm_stashvar[33086] = ["ATM TRACER 86 AFTER TS", "", "", "", ""] +atm_stashvar[33087] = ["ATM TRACER 87 AFTER TS", "", "", "", ""] +atm_stashvar[33088] = ["ATM TRACER 88 AFTER TS", "", "", "", ""] +atm_stashvar[33089] = ["ATM TRACER 89 AFTER TS", "", "", "", ""] +atm_stashvar[33090] = ["ATM TRACER 90 AFTER TS", "", "", "", ""] +atm_stashvar[33091] = ["ATM TRACER 91 AFTER TS", "", "", "", ""] +atm_stashvar[33092] = ["ATM TRACER 92 AFTER TS", "", "", "", ""] +atm_stashvar[33093] = ["ATM TRACER 93 AFTER TS", "", "", "", ""] +atm_stashvar[33094] = ["ATM TRACER 94 AFTER TS", "", "", "", ""] +atm_stashvar[33095] = ["ATM TRACER 95 AFTER TS", "", "", "", ""] +atm_stashvar[33096] = ["ATM TRACER 96 AFTER TS", "", "", "", ""] +atm_stashvar[33097] = ["ATM TRACER 97 AFTER TS", "", "", "", ""] +atm_stashvar[33098] = ["ATM TRACER 98 AFTER TS", "", "", "", ""] +atm_stashvar[33099] = ["ATM TRACER 99 AFTER TS", "", "", "", ""] +atm_stashvar[33100] = ["ATM TRACER100 AFTER TS", "", "", "", ""] +atm_stashvar[33101] = ["ATM TRACER101 AFTER TS", "", "", "", ""] +atm_stashvar[33102] = ["ATM TRACER102 AFTER TS", "", "", "", ""] +atm_stashvar[33103] = ["ATM TRACER103 AFTER TS", "", "", "", ""] +atm_stashvar[33104] = ["ATM TRACER104 AFTER TS", "", "", "", ""] +atm_stashvar[33105] = ["ATM TRACER105 AFTER TS", "", "", "", ""] +atm_stashvar[33106] = ["ATM TRACER106 AFTER TS", "", "", "", ""] +atm_stashvar[33107] = ["ATM TRACER107 AFTER TS", "", "", "", ""] +atm_stashvar[33108] = ["ATM TRACER108 AFTER TS", "", "", "", ""] +atm_stashvar[33109] = ["ATM TRACER109 AFTER TS", "", "", "", ""] +atm_stashvar[33110] = ["ATM TRACER110 AFTER TS", "", "", "", ""] +atm_stashvar[33111] = ["ATM TRACER111 AFTER TS", "", "", "", ""] +atm_stashvar[33112] = ["ATM TRACER112 AFTER TS", "", "", "", ""] +atm_stashvar[33113] = ["ATM TRACER113 AFTER TS", "", "", "", ""] +atm_stashvar[33114] = ["ATM TRACER114 AFTER TS", "", "", "", ""] +atm_stashvar[33115] = ["ATM TRACER115 AFTER TS", "", "", "", ""] +atm_stashvar[33116] = ["ATM TRACER116 AFTER TS", "", "", "", ""] +atm_stashvar[33117] = ["ATM TRACER117 AFTER TS", "", "", "", ""] +atm_stashvar[33118] = ["ATM TRACER118 AFTER TS", "", "", "", ""] +atm_stashvar[33119] = ["ATM TRACER119 AFTER TS", "", "", "", ""] +atm_stashvar[33120] = ["ATM TRACER120 AFTER TS", "", "", "", ""] +atm_stashvar[33121] = ["ATM TRACER121 AFTER TS", "", "", "", ""] +atm_stashvar[33122] = ["ATM TRACER122 AFTER TS", "", "", "", ""] +atm_stashvar[33123] = ["ATM TRACER123 AFTER TS", "", "", "", ""] +atm_stashvar[33124] = ["ATM TRACER124 AFTER TS", "", "", "", ""] +atm_stashvar[33125] = ["ATM TRACER125 AFTER TS", "", "", "", ""] +atm_stashvar[33126] = ["ATM TRACER126 AFTER TS", "", "", "", ""] +atm_stashvar[33127] = ["ATM TRACER127 AFTER TS", "", "", "", ""] +atm_stashvar[33128] = ["ATM TRACER128 AFTER TS", "", "", "", ""] +atm_stashvar[33129] = ["ATM TRACER129 AFTER TS", "", "", "", ""] +atm_stashvar[33130] = ["ATM TRACER130 AFTER TS", "", "", "", ""] +atm_stashvar[33131] = ["ATM TRACER131 AFTER TS", "", "", "", ""] +atm_stashvar[33132] = ["ATM TRACER132 AFTER TS", "", "", "", ""] +atm_stashvar[33133] = ["ATM TRACER133 AFTER TS", "", "", "", ""] +atm_stashvar[33134] = ["ATM TRACER134 AFTER TS", "", "", "", ""] +atm_stashvar[33135] = ["ATM TRACER135 AFTER TS", "", "", "", ""] +atm_stashvar[33136] = ["ATM TRACER136 AFTER TS", "", "", "", ""] +atm_stashvar[33137] = ["ATM TRACER137 AFTER TS", "", "", "", ""] +atm_stashvar[33138] = ["ATM TRACER138 AFTER TS", "", "", "", ""] +atm_stashvar[33139] = ["ATM TRACER139 AFTER TS", "", "", "", ""] +atm_stashvar[33140] = ["ATM TRACER140 AFTER TS", "", "", "", ""] +atm_stashvar[33141] = ["ATM TRACER141 AFTER TS", "", "", "", ""] +atm_stashvar[33142] = ["ATM TRACER142 AFTER TS", "", "", "", ""] +atm_stashvar[33143] = ["ATM TRACER143 AFTER TS", "", "", "", ""] +atm_stashvar[33144] = ["ATM TRACER144 AFTER TS", "", "", "", ""] +atm_stashvar[33145] = ["ATM TRACER145 AFTER TS", "", "", "", ""] +atm_stashvar[33146] = ["ATM TRACER146 AFTER TS", "", "", "", ""] +atm_stashvar[33147] = ["ATM TRACER147 AFTER TS", "", "", "", ""] +atm_stashvar[33148] = ["ATM TRACER148 AFTER TS", "", "", "", ""] +atm_stashvar[33149] = ["ATM TRACER149 AFTER TS", "", "", "", ""] +atm_stashvar[33150] = ["ATM TRACER150 AFTER TS", "", "", "", ""] +atm_stashvar[34001] = ["O3 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34002] = ["NO MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34003] = ["NO3 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34004] = ["NO2 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34005] = ["N2O5 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34006] = ["HO2NO2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34007] = ["HONO2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34008] = ["H2O2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34009] = ["CH4 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34010] = ["CO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34011] = ["HCHO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34012] = ["MeOOH MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34013] = ["HONO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34014] = ["C2H6 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34015] = ["EtOOH MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34016] = ["MeCHO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34017] = ["PAN MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34018] = ["C3H8 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34019] = ["n-PrOOH MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34020] = ["i-PrOOH MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34021] = ["EtCHO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34022] = ["Me2CO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34023] = ["MeCOCH2OOH MASS MIXING RATIO AFT TS", "", "", "", ""] +atm_stashvar[34024] = ["PPAN MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34025] = ["MeONO2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34026] = ["O3S MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34027] = ["C5H8 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34028] = ["ISOOH MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34029] = ["ISON MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34030] = ["MACR MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34031] = ["MACROOH MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34032] = ["MPAN MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34033] = ["HACET MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34034] = ["MGLY MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34035] = ["NALD MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34036] = ["HCOOH MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34037] = ["MeCO3H MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34038] = ["MeCO2H MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34039] = ["MVK MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34040] = ["MVKOOH MASS MIXING RATIO AFTER T", "", "", "", ""] +atm_stashvar[34041] = ["Cl MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34042] = ["ClO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34043] = ["Cl2O2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34044] = ["OClO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34045] = ["Br MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34047] = ["BrCl MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34048] = ["BrONO2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34049] = ["N2O MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34051] = ["HOCl MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34052] = ["HBr MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34053] = ["HOBr MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34054] = ["ClONO2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34055] = ["CFCl3 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34056] = ["CF2Cl2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34057] = ["MeBr MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34058] = ["N MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34059] = ["O3P MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34060] = ["ORGNIT MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34069] = ["CH3OH MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34070] = ["H2 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34071] = ["DMS MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34072] = ["SO2 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34073] = ["H2SO4 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34074] = ["MSA MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34075] = ["DMSO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34076] = ["NH3 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34077] = ["CS2 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34078] = ["COS MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34079] = ["H2S MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34080] = ["H MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34081] = ["OH MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34082] = ["HO2 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34083] = ["MeOO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34084] = ["EtOO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34085] = ["MeCO3 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34086] = ["n-PrOO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34087] = ["i-PrOO MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34088] = ["EtCO3 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34089] = ["MeCOCH2OO MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34090] = ["MeOH MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34091] = ["MONOTERPENE MASS MIXING RATIO AFT TS", "", "", "", ""] +atm_stashvar[34092] = ["SEC_ORG MASS MIXING RATIO AFTER TS", "", "", "", ""] +atm_stashvar[34093] = ["C3H6 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34094] = ["SO3 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34095] = ["C4H9OOH MASS MIXING RATIO AFT TSTEP", "", "", "", ""] +atm_stashvar[34096] = ["MEK MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34097] = ["TOLUENE MASS MIXING RATIO AFT TSTEP", "", "", "", ""] +atm_stashvar[34098] = ["LUMPED N (as NO2) MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34099] = ["LUMPED Br (as BrO) MMR AFTER TSTEP", "", "", "", ""] +atm_stashvar[34100] = ["LUMPED Cl (as HCl) MMR AFTER TSTEP", "", "", "", ""] +atm_stashvar[34101] = ["NUCLEATION MODE (SOLUBLE) NUMBER", "", "", "", ""] +atm_stashvar[34102] = ["NUCLEATION MODE (SOLUBLE) H2SO4 MMR", "", "", "", ""] +atm_stashvar[34103] = ["AITKEN MODE (SOLUBLE) NUMBER", "", "", "", ""] +atm_stashvar[34104] = ["AITKEN MODE (SOLUBLE) H2SO4 MMR", "", "", "", ""] +atm_stashvar[34105] = ["AITKEN MODE (SOLUBLE) BC MMR", "", "", "", ""] +atm_stashvar[34106] = ["AITKEN MODE (SOLUBLE) OM MMR", "", "", "", ""] +atm_stashvar[34107] = ["ACCUMULATION MODE (SOLUBLE) NUMBER", "", "", "", ""] +atm_stashvar[34108] = ["ACCUMULATION MODE (SOL) H2SO4 MMR", "", "", "", ""] +atm_stashvar[34109] = ["ACCUMULATION MODE (SOL) BC MMR", "", "", "", ""] +atm_stashvar[34110] = ["ACCUMULATION MODE (SOL) OM MMR", "", "", "", ""] +atm_stashvar[34111] = ["ACCUMULATION MODE (SOL) SEA SALT MMR", "", "", "", ""] +atm_stashvar[34112] = ["ACCUMULATION MODE (SOL) DUST MMR", "", "", "", ""] +atm_stashvar[34113] = ["COARSE MODE (SOLUBLE) NUMBER", "", "", "", ""] +atm_stashvar[34114] = ["COARSE MODE (SOLUBLE) H2SO4 MMR", "", "", "", ""] +atm_stashvar[34115] = ["COARSE MODE (SOLUBLE) BC MMR", "", "", "", ""] +atm_stashvar[34116] = ["COARSE MODE (SOLUBLE) OM MMR", "", "", "", ""] +atm_stashvar[34117] = ["COARSE MODE (SOLUBLE) SEA SALT MMR", "", "", "", ""] +atm_stashvar[34118] = ["COARSE MODE (SOLUBLE) DUST MMR", "", "", "", ""] +atm_stashvar[34119] = ["AITKEN MODE (INSOLUBLE) NUMBER", "", "", "", ""] +atm_stashvar[34120] = ["AITKEN MODE (INSOLUBLE) BC MMR", "", "", "", ""] +atm_stashvar[34121] = ["AITKEN MODE (INSOLUBLE) OM MMR", "", "", "", ""] +atm_stashvar[34122] = ["ACCUMULATION MODE (INSOLUBLE) NUMBER", "", "", "", ""] +atm_stashvar[34123] = ["ACCUMULATION MODE (INSOLUBLE) DUST", "", "", "", ""] +atm_stashvar[34124] = ["COARSE MODE (INSOLUBLE) NUMBER", "", "", "", ""] +atm_stashvar[34125] = ["COARSE MODE (INSOLUBLE) DUST MMR", "", "", "", ""] +atm_stashvar[34126] = ["NUCLEATION MODE (SOLUBLE) OM MMR", "", "", "", ""] +atm_stashvar[34127] = ["AITKEN MODE (SOLUBLE) SEA SALT MMR", "", "", "", ""] +atm_stashvar[34128] = ["NUCLEATION MODE (SOLUBLE) OM2 MMR", "", "", "", ""] +atm_stashvar[34129] = ["AITKEN MODE (SOLUBLE) OM2 MMR", "", "", "", ""] +atm_stashvar[34130] = ["ACCUMULATION MODE (SOLUBLE) OM2 MMR", "", "", "", ""] +atm_stashvar[34131] = ["COARSE MODE (SOLUBLE) OM2 MMR", "", "", "", ""] +atm_stashvar[34132] = ["NUCLEATION MODE (SOLUBLE) NH4 MMR", "", "", "", ""] +atm_stashvar[34133] = ["AITKEN MODE (SOLUBLE) NH4 MMR", "", "", "", ""] +atm_stashvar[34134] = ["ACCUMULATION MODE (SOLUBLE) NH4 MMR", "", "", "", ""] +atm_stashvar[34135] = ["COARSE MODE (SOLUBLE) NH4 MMR", "", "", "", ""] +atm_stashvar[34136] = ["NUCLEATION MODE (SOLUBLE) NO3 MMR", "", "", "", ""] +atm_stashvar[34137] = ["AITKEN MODE (SOLUBLE) NO3 MMR", "", "", "", ""] +atm_stashvar[34138] = ["ACCUMULATION MODE (SOLUBLE) NO3 MMR", "", "", "", ""] +atm_stashvar[34139] = ["COARSE MODE (SOLUBLE) NO3 MMR", "", "", "", ""] +atm_stashvar[34149] = ["PASSIVE O3 MASS MIXING RATIO", "", "", "", ""] +atm_stashvar[34150] = ["AGE OF AIR IN SECONDS", "", "", "", ""] +atm_stashvar[34151] = ["UKCA NON-TRANSP SPECIES 151 RETIRED", "", "", "", ""] +atm_stashvar[34152] = ["UKCA NON-TRANSP SPECIES 152 RETIRED", "", "", "", ""] +atm_stashvar[34153] = ["UKCA NON-TRANSP SPECIES 153 RETIRED", "", "", "", ""] +atm_stashvar[34154] = ["UKCA NON-TRANSP SPECIES 154 RETIRED", "", "", "", ""] +atm_stashvar[34155] = ["UKCA NON-TRANSP SPECIES 155 RETIRED", "", "", "", ""] +atm_stashvar[34156] = ["UKCA NON-TRANSP SPECIES 156 RETIRED", "", "", "", ""] +atm_stashvar[34157] = ["UKCA NON-TRANSP SPECIES 157 RETIRED", "", "", "", ""] +atm_stashvar[34158] = ["UKCA NON-TRANSP SPECIES 158 RETIRED", "", "", "", ""] +atm_stashvar[34159] = ["UKCA NON-TRANSP SPECIES 159 RETIRED", "", "", "", ""] +atm_stashvar[34160] = ["UKCA NON-TRANSP SPECIES 160 RETIRED", "", "", "", ""] +atm_stashvar[34161] = ["UKCA NON-TRANSP SPECIES 161 RETIRED", "", "", "", ""] +atm_stashvar[34162] = ["UKCA NON-TRANSP SPECIES 162 RETIRED", "", "", "", ""] +atm_stashvar[34163] = ["UKCA NON-TRANSP SPECIES 163 RETIRED", "", "", "", ""] +atm_stashvar[34164] = ["UKCA NON-TRANSP SPECIES 164 RETIRED", "", "", "", ""] +atm_stashvar[34165] = ["UKCA NON-TRANSP SPECIES 165 RETIRED", "", "", "", ""] +atm_stashvar[34166] = ["UKCA NON-TRANSP SPECIES 166 RETIRED", "", "", "", ""] +atm_stashvar[34167] = ["UKCA NON-TRANSP SPECIES 167 RETIRED", "", "", "", ""] +atm_stashvar[34168] = ["UKCA NON-TRANSP SPECIES 168 RETIRED", "", "", "", ""] +atm_stashvar[34169] = ["UKCA NON-TRANSP SPECIES 169 RETIRED", "", "", "", ""] +atm_stashvar[34170] = ["UKCA NON-TRANSP SPECIES 170 RETIRED", "", "", "", ""] +atm_stashvar[34171] = ["UKCA NON-TRANSP SPECIES 171 RETIRED", "", "", "", ""] +atm_stashvar[34172] = ["UKCA NON-TRANSP SPECIES 172 RETIRED", "", "", "", ""] +atm_stashvar[34921] = ["DRY PARTICLE DIAMETER AITKEN-SOL", "", "", "", ""] +atm_stashvar[34922] = ["DRY PARTICLE DIAMETER ACCUMULATN-SOL", "", "", "", ""] +atm_stashvar[34923] = ["DRY PARTICLE DIAMETER COARSE-SOL", "", "", "", ""] +atm_stashvar[34924] = ["DRY PARTICLE DIAMETER AITKEN-INS", "", "", "", ""] +atm_stashvar[34925] = ["DRY PARTICLE DIAMETER ACCUMULATN-INS", "", "", "", ""] +atm_stashvar[34926] = ["DRY PARTICLE DIAMETER COARSE-INSOL", "", "", "", ""] +atm_stashvar[34927] = ["WET PARTICLE DIAMETER AITKEN-SOL", "", "", "", ""] +atm_stashvar[34928] = ["WET PARTICLE DIAMETER ACCUMULATN-SOL", "", "", "", ""] +atm_stashvar[34929] = ["WET PARTICLE DIAMETER COARSE-SOL", "", "", "", ""] +atm_stashvar[34930] = ["PTCL MASS DENSITY AITKEN-SOL (WET)", "", "", "", ""] +atm_stashvar[34931] = ["PTCL MASS DENSITY ACCUM.-SOL (WET)", "", "", "", ""] +atm_stashvar[34932] = ["PTCL MASS DENSITY COARSE-SOL (WET)", "", "", "", ""] +atm_stashvar[34933] = ["PTCL MASS DENSITY AITKEN-INS", "", "", "", ""] +atm_stashvar[34934] = ["PTCL MASS DENSITY ACCUM.-INS", "", "", "", ""] +atm_stashvar[34935] = ["PTCL MASS DENSITY COARSE-INS", "", "", "", ""] +atm_stashvar[34936] = ["H2SO4 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[34937] = ["BC PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[34938] = ["OM1 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[34939] = ["NO3 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[34940] = ["OM2 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[34941] = ["H2O PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[34942] = ["H2SO4 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34943] = ["BC PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34944] = ["OM1 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34945] = ["SS PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34946] = ["NO3 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34947] = ["DU PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34948] = ["OM2 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34949] = ["CL PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34950] = ["NA PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34951] = ["H2O PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[34952] = ["H2SO4 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34953] = ["BC PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34954] = ["OM1 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34955] = ["SSALT PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34956] = ["NO3 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34957] = ["DU PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34958] = ["OM2 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34959] = ["CL PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34960] = ["NA PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34961] = ["H2O PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[34962] = ["BC PARTIAL VOLUME CONC (AIT-INS)", "", "", "", ""] +atm_stashvar[34963] = ["OM1 PARTIAL VOLUME CONC (AIT-INS)", "", "", "", ""] +atm_stashvar[34964] = ["DU PARTIAL VOLUME CONC (ACC-INS)", "", "", "", ""] +atm_stashvar[34965] = ["DU PARTIAL VOLUME CONC (COR-INS)", "", "", "", ""] +atm_stashvar[34966] = ["Aerosol surface area dens (cm2/cm3)", "", "", "", ""] +atm_stashvar[34967] = ["Cloud Droplet No. Conc. ^-1/3 (m-1)", "", "", "", ""] +atm_stashvar[34968] = ["Cloud Droplet No. Conc. (m-3)", "", "", "", ""] +atm_stashvar[34969] = ["Stratospheric HO2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34970] = ["Stratospheric OH MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34971] = ["Stratospheric O(1D) MMR AFTER TSTEP", "", "", "", ""] +atm_stashvar[34972] = ["Stratospheric O(3P) MMR AFTER TSTEP", "", "", "", ""] +atm_stashvar[34973] = ["Self reaction of HO2 on aerosol (s-1)", "", "", "", ""] +atm_stashvar[34974] = ["Loss rate of N2O5 on aerosol (s-1)", "", "", "", ""] +atm_stashvar[34975] = ["HOC6H5CH3O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34976] = ["HOC5H8O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34977] = ["CH3COCH(O2)CH2OH MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34978] = ["CHOCH(OH)CO2CH3CHO MMR AFTER TSTEP", "", "", "", ""] +atm_stashvar[34979] = ["C6H5CH2O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34980] = ["CH3CHO2CH2OH MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34981] = ["CH2O2CH2OH MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34982] = ["CH3COCH(O2)CH3 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34983] = ["CH3COCH2O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34984] = ["CH3COC2O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34985] = ["C2H5COO2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34986] = ["i-C2H7O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34987] = ["s-C4H9O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34988] = ["n-C2H7O2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34989] = ["CH3COO2 MMR AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34990] = ["C2H5O2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34991] = ["CH3O2 MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34992] = ["HCl MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34993] = ["HO2 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34994] = ["BrO MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34995] = ["OH MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34996] = ["NO2 MASS MIXING RATIO AFTER TIMESTEP", "", "", "", ""] +atm_stashvar[34997] = ["O(1D) MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[34998] = ["O(3P) MASS MIXING RATIO AFTER TSTEP", "", "", "", ""] +atm_stashvar[35001] = ["U COMPNT OF WIND AFTER SKEB2", "", "", "", ""] +atm_stashvar[35002] = ["V COMPNT OF WIND AFTER SKEB2", "", "", "", ""] +atm_stashvar[35003] = ["U COMPNT OF WIND INCR SKEB2", "", "", "", ""] +atm_stashvar[35004] = ["V COMPNT OF WIND INCR SKEB2", "", "", "", ""] +atm_stashvar[35005] = ["ROT U COMPNT OF WIND INCR SKEB2", "", "", "", ""] +atm_stashvar[35006] = ["ROT V COMPNT OF WIND INCR SKEB2", "", "", "", ""] +atm_stashvar[35007] = ["DIV U COMPNT OF WIND INCR SKEB2", "", "", "", ""] +atm_stashvar[35008] = ["DIV V COMPNT OF WIND INCR SKEB2", "", "", "", ""] +atm_stashvar[35009] = ["SKEB2 DISSIPATION FROM SMAG", "", "", "", ""] +atm_stashvar[35010] = ["SKEB2 DISSIPATION FROM CONVECTION", "", "", "", ""] +atm_stashvar[35011] = ["SKEB2 DISS FROM SKEB1-TYPE PATTERN", "", "", "", ""] +atm_stashvar[35012] = ["SKEB2 SMOOTHED MODULATING FIELD", "", "", "", ""] +atm_stashvar[35013] = ["SKEB2 STREAMFUNCTION FORC FIELD", "", "", "", ""] +atm_stashvar[35014] = ["SKEB2 INITIAL RANDOM PATTERN", "", "", "", ""] +atm_stashvar[35015] = ["MASS VERT INT OF STRM FORC FIELD", "", "", "", ""] +atm_stashvar[35016] = ["VERT INTEG NUMERICAL DISSP (W/M^2)", "", "", "", ""] +atm_stashvar[35017] = ["VERT INTEG CONVECTVE DISSP (W/M^2)", "", "", "", ""] +atm_stashvar[35018] = ["VERT INTEG SKEB1-TYPE DISS (W/M^2)", "", "", "", ""] +atm_stashvar[35019] = ["MASS VERT INT OF MODULATED STRMFUNC", "", "", "", ""] +atm_stashvar[35020] = ["V INT KE WIND INCR PRE SKEB2 (J/M^2)", "", "", "", ""] +atm_stashvar[35021] = ["V INT KE WIND INCR SKEB2 (J/M^2)", "", "", "", ""] +atm_stashvar[35022] = ["V INT KE WIND INCR POST SKEB2(J/M^2)", "", "", "", ""] +atm_stashvar[35023] = ["SPT FORCING PATTERN", "", "", "", ""] +atm_stashvar[35024] = ["THETA TENDENCY SPT INCREMENT", "", "", "", ""] +atm_stashvar[35025] = ["Q TENDENCY SPT INCREMENT", "", "", "", ""] +atm_stashvar[35026] = ["U TENDENCY SPT INCREMENT", "", "", "", ""] +atm_stashvar[35027] = ["V TENDENCY SPT INCREMENT", "", "", "", ""] +atm_stashvar[35028] = ["CFL criteria breached", "", "", "", ""] +atm_stashvar[35029] = ["T TENDENCY SPT INCREMENT", "", "", "", ""] +atm_stashvar[36001] = ["ATM TRACER 1 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36002] = ["ATM TRACER 2 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36003] = ["ATM TRACER 3 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36004] = ["ATM TRACER 4 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36005] = ["ATM TRACER 5 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36006] = ["ATM TRACER 6 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36007] = ["ATM TRACER 7 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36008] = ["ATM TRACER 8 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36009] = ["ATM TRACER 9 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36010] = ["ATM TRACER 10 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36011] = ["ATM TRACER 11 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36012] = ["ATM TRACER 12 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36013] = ["ATM TRACER 13 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36014] = ["ATM TRACER 14 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36015] = ["ATM TRACER 15 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36016] = ["ATM TRACER 16 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36017] = ["ATM TRACER 17 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36018] = ["ATM TRACER 18 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36019] = ["ATM TRACER 19 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36020] = ["ATM TRACER 20 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36021] = ["ATM TRACER 21 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36022] = ["ATM TRACER 22 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36023] = ["ATM TRACER 23 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36024] = ["ATM TRACER 24 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36025] = ["ATM TRACER 25 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36026] = ["ATM TRACER 26 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36027] = ["ATM TRACER 27 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36028] = ["ATM TRACER 28 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36029] = ["ATM TRACER 29 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36030] = ["ATM TRACER 30 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36031] = ["ATM TRACER 31 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36032] = ["ATM TRACER 32 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36033] = ["ATM TRACER 33 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36034] = ["ATM TRACER 34 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36035] = ["ATM TRACER 35 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36036] = ["ATM TRACER 36 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36037] = ["ATM TRACER 37 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36038] = ["ATM TRACER 38 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36039] = ["ATM TRACER 39 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36040] = ["ATM TRACER 40 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36041] = ["ATM TRACER 41 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36042] = ["ATM TRACER 42 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36043] = ["ATM TRACER 43 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36044] = ["ATM TRACER 44 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36045] = ["ATM TRACER 45 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36046] = ["ATM TRACER 46 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36047] = ["ATM TRACER 47 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36048] = ["ATM TRACER 48 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36049] = ["ATM TRACER 49 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36050] = ["ATM TRACER 50 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36051] = ["ATM TRACER 51 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36052] = ["ATM TRACER 52 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36053] = ["ATM TRACER 53 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36054] = ["ATM TRACER 54 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36055] = ["ATM TRACER 55 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36056] = ["ATM TRACER 56 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36057] = ["ATM TRACER 57 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36058] = ["ATM TRACER 58 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36059] = ["ATM TRACER 59 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36060] = ["ATM TRACER 60 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36061] = ["ATM TRACER 61 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36062] = ["ATM TRACER 62 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36063] = ["ATM TRACER 63 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36064] = ["ATM TRACER 64 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36065] = ["ATM TRACER 65 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36066] = ["ATM TRACER 66 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36067] = ["ATM TRACER 67 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36068] = ["ATM TRACER 68 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36069] = ["ATM TRACER 69 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36070] = ["ATM TRACER 70 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36071] = ["ATM TRACER 71 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36072] = ["ATM TRACER 72 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36073] = ["ATM TRACER 73 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36074] = ["ATM TRACER 74 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36075] = ["ATM TRACER 75 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36076] = ["ATM TRACER 76 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36077] = ["ATM TRACER 77 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36078] = ["ATM TRACER 78 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36079] = ["ATM TRACER 79 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36080] = ["ATM TRACER 80 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36081] = ["ATM TRACER 81 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36082] = ["ATM TRACER 82 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36083] = ["ATM TRACER 83 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36084] = ["ATM TRACER 84 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36085] = ["ATM TRACER 85 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36086] = ["ATM TRACER 86 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36087] = ["ATM TRACER 87 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36088] = ["ATM TRACER 88 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36089] = ["ATM TRACER 89 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36090] = ["ATM TRACER 90 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36091] = ["ATM TRACER 91 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36092] = ["ATM TRACER 92 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36093] = ["ATM TRACER 93 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36094] = ["ATM TRACER 94 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36095] = ["ATM TRACER 95 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36096] = ["ATM TRACER 96 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36097] = ["ATM TRACER 97 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36098] = ["ATM TRACER 98 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36099] = ["ATM TRACER 99 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36100] = ["ATM TRACER 100 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36101] = ["ATM TRACER 101 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36102] = ["ATM TRACER 102 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36103] = ["ATM TRACER 103 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36104] = ["ATM TRACER 104 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36105] = ["ATM TRACER 105 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36106] = ["ATM TRACER 106 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36107] = ["ATM TRACER 107 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36108] = ["ATM TRACER 108 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36109] = ["ATM TRACER 109 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36110] = ["ATM TRACER 110 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36111] = ["ATM TRACER 111 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36112] = ["ATM TRACER 112 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36113] = ["ATM TRACER 113 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36114] = ["ATM TRACER 114 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36115] = ["ATM TRACER 115 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36116] = ["ATM TRACER 116 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36117] = ["ATM TRACER 117 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36118] = ["ATM TRACER 118 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36119] = ["ATM TRACER 119 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36120] = ["ATM TRACER 120 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36121] = ["ATM TRACER 121 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36122] = ["ATM TRACER 122 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36123] = ["ATM TRACER 123 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36124] = ["ATM TRACER 124 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36125] = ["ATM TRACER 125 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36126] = ["ATM TRACER 126 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36127] = ["ATM TRACER 127 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36128] = ["ATM TRACER 128 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36129] = ["ATM TRACER 129 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36130] = ["ATM TRACER 130 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36131] = ["ATM TRACER 131 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36132] = ["ATM TRACER 132 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36133] = ["ATM TRACER 133 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36134] = ["ATM TRACER 134 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36135] = ["ATM TRACER 135 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36136] = ["ATM TRACER 136 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36137] = ["ATM TRACER 137 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36138] = ["ATM TRACER 138 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36139] = ["ATM TRACER 139 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36140] = ["ATM TRACER 140 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36141] = ["ATM TRACER 141 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36142] = ["ATM TRACER 142 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36143] = ["ATM TRACER 143 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36144] = ["ATM TRACER 144 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36145] = ["ATM TRACER 145 LATERAL BOUNDARY", "", "", "", ""] +atm_stashvar[36146] = ["ATM TRACER 146 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36147] = ["ATM TRACER 147 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36148] = ["ATM TRACER 148 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36149] = ["ATM TRACER 149 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36150] = ["ATM TRACER 150 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[36257] = ["ATM TRACER 1 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36258] = ["ATM TRACER 2 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36259] = ["ATM TRACER 3 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36260] = ["ATM TRACER 4 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36261] = ["ATM TRACER 5 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36262] = ["ATM TRACER 6 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36263] = ["ATM TRACER 7 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36264] = ["ATM TRACER 8 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36265] = ["ATM TRACER 9 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36266] = ["ATM TRACER 10 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36267] = ["ATM TRACER 11 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36268] = ["ATM TRACER 12 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36269] = ["ATM TRACER 13 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36270] = ["ATM TRACER 14 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36271] = ["ATM TRACER 15 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36272] = ["ATM TRACER 16 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36273] = ["ATM TRACER 17 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36274] = ["ATM TRACER 18 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36275] = ["ATM TRACER 19 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36276] = ["ATM TRACER 20 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36277] = ["ATM TRACER 21 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36278] = ["ATM TRACER 22 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36279] = ["ATM TRACER 23 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36280] = ["ATM TRACER 24 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36281] = ["ATM TRACER 25 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36282] = ["ATM TRACER 26 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36283] = ["ATM TRACER 27 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36284] = ["ATM TRACER 28 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36285] = ["ATM TRACER 29 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36286] = ["ATM TRACER 30 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36287] = ["ATM TRACER 31 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36288] = ["ATM TRACER 32 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36289] = ["ATM TRACER 33 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36290] = ["ATM TRACER 34 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36291] = ["ATM TRACER 35 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36292] = ["ATM TRACER 36 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36293] = ["ATM TRACER 37 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36294] = ["ATM TRACER 38 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36295] = ["ATM TRACER 39 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36296] = ["ATM TRACER 40 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36297] = ["ATM TRACER 41 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36298] = ["ATM TRACER 42 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36299] = ["ATM TRACER 43 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36300] = ["ATM TRACER 44 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36301] = ["ATM TRACER 45 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36302] = ["ATM TRACER 46 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36303] = ["ATM TRACER 47 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36304] = ["ATM TRACER 48 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36305] = ["ATM TRACER 49 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36306] = ["ATM TRACER 50 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36307] = ["ATM TRACER 51 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36308] = ["ATM TRACER 52 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36309] = ["ATM TRACER 53 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36310] = ["ATM TRACER 54 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36311] = ["ATM TRACER 55 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36312] = ["ATM TRACER 56 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36313] = ["ATM TRACER 57 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36314] = ["ATM TRACER 58 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36315] = ["ATM TRACER 59 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36316] = ["ATM TRACER 60 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36317] = ["ATM TRACER 61 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36318] = ["ATM TRACER 62 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36319] = ["ATM TRACER 63 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36320] = ["ATM TRACER 64 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36321] = ["ATM TRACER 65 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36322] = ["ATM TRACER 66 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36323] = ["ATM TRACER 67 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36324] = ["ATM TRACER 68 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36325] = ["ATM TRACER 69 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36326] = ["ATM TRACER 70 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36327] = ["ATM TRACER 71 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36328] = ["ATM TRACER 72 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36329] = ["ATM TRACER 73 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36330] = ["ATM TRACER 74 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36331] = ["ATM TRACER 75 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36332] = ["ATM TRACER 76 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36333] = ["ATM TRACER 77 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36334] = ["ATM TRACER 78 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36335] = ["ATM TRACER 79 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36336] = ["ATM TRACER 80 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36337] = ["ATM TRACER 81 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36338] = ["ATM TRACER 82 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36339] = ["ATM TRACER 83 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36340] = ["ATM TRACER 84 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36341] = ["ATM TRACER 85 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36342] = ["ATM TRACER 86 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36343] = ["ATM TRACER 87 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36344] = ["ATM TRACER 88 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36345] = ["ATM TRACER 89 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36346] = ["ATM TRACER 90 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36347] = ["ATM TRACER 91 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36348] = ["ATM TRACER 92 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36349] = ["ATM TRACER 93 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36350] = ["ATM TRACER 94 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36351] = ["ATM TRACER 95 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36352] = ["ATM TRACER 96 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36353] = ["ATM TRACER 97 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36354] = ["ATM TRACER 98 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36355] = ["ATM TRACER 99 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36356] = ["ATM TRACER 100 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36357] = ["ATM TRACER 101 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36358] = ["ATM TRACER 102 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36359] = ["ATM TRACER 103 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36360] = ["ATM TRACER 104 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36361] = ["ATM TRACER 105 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36362] = ["ATM TRACER 106 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36363] = ["ATM TRACER 107 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36364] = ["ATM TRACER 108 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36365] = ["ATM TRACER 109 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36366] = ["ATM TRACER 110 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36367] = ["ATM TRACER 111 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36368] = ["ATM TRACER 112 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36369] = ["ATM TRACER 113 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36370] = ["ATM TRACER 114 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36371] = ["ATM TRACER 115 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36372] = ["ATM TRACER 116 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36373] = ["ATM TRACER 117 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36374] = ["ATM TRACER 118 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36375] = ["ATM TRACER 119 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36376] = ["ATM TRACER 120 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36377] = ["ATM TRACER 121 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36378] = ["ATM TRACER 122 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36379] = ["ATM TRACER 123 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36380] = ["ATM TRACER 124 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36381] = ["ATM TRACER 125 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36382] = ["ATM TRACER 126 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36383] = ["ATM TRACER 127 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36384] = ["ATM TRACER 128 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36385] = ["ATM TRACER 129 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36386] = ["ATM TRACER 130 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36387] = ["ATM TRACER 131 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36388] = ["ATM TRACER 132 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36389] = ["ATM TRACER 133 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36390] = ["ATM TRACER 134 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36391] = ["ATM TRACER 135 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36392] = ["ATM TRACER 136 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36393] = ["ATM TRACER 137 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36394] = ["ATM TRACER 138 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36395] = ["ATM TRACER 139 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36396] = ["ATM TRACER 140 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36397] = ["ATM TRACER 141 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36398] = ["ATM TRACER 142 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36399] = ["ATM TRACER 143 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36400] = ["ATM TRACER 144 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36401] = ["ATM TRACER 145 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36402] = ["ATM TRACER 146 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36403] = ["ATM TRACER 147 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36404] = ["ATM TRACER 148 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36405] = ["ATM TRACER 149 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[36406] = ["ATM TRACER 150 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37001] = ["UKCA TRACER 1 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37002] = ["UKCA TRACER 2 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37003] = ["UKCA TRACER 3 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37004] = ["UKCA TRACER 4 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37005] = ["UKCA TRACER 5 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37006] = ["UKCA TRACER 6 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37007] = ["UKCA TRACER 7 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37008] = ["UKCA TRACER 8 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37009] = ["UKCA TRACER 9 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37010] = ["UKCA TRACER 10 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37011] = ["UKCA TRACER 11 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37012] = ["UKCA TRACER 12 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37013] = ["UKCA TRACER 13 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37014] = ["UKCA TRACER 14 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37015] = ["UKCA TRACER 15 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37016] = ["UKCA TRACER 16 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37017] = ["UKCA TRACER 17 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37018] = ["UKCA TRACER 18 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37019] = ["UKCA TRACER 19 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37020] = ["UKCA TRACER 20 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37021] = ["UKCA TRACER 21 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37022] = ["UKCA TRACER 22 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37023] = ["UKCA TRACER 23 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37024] = ["UKCA TRACER 24 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37025] = ["UKCA TRACER 25 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37026] = ["UKCA TRACER 26 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37027] = ["UKCA TRACER 27 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37028] = ["UKCA TRACER 28 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37029] = ["UKCA TRACER 29 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37030] = ["UKCA TRACER 30 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37031] = ["UKCA TRACER 31 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37032] = ["UKCA TRACER 32 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37033] = ["UKCA TRACER 33 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37034] = ["UKCA TRACER 34 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37035] = ["UKCA TRACER 35 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37036] = ["UKCA TRACER 36 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37037] = ["UKCA TRACER 37 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37038] = ["UKCA TRACER 38 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37039] = ["UKCA TRACER 39 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37040] = ["UKCA TRACER 40 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37041] = ["UKCA TRACER 41 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37042] = ["UKCA TRACER 42 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37043] = ["UKCA TRACER 43 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37044] = ["UKCA TRACER 44 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37045] = ["UKCA TRACER 45 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37046] = ["UKCA TRACER 46 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37047] = ["UKCA TRACER 47 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37048] = ["UKCA TRACER 48 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37049] = ["UKCA TRACER 49 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37050] = ["UKCA TRACER 50 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37051] = ["UKCA TRACER 51 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37052] = ["UKCA TRACER 52 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37053] = ["UKCA TRACER 53 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37054] = ["UKCA TRACER 54 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37055] = ["UKCA TRACER 55 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37056] = ["UKCA TRACER 56 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37057] = ["UKCA TRACER 57 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37058] = ["UKCA TRACER 58 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37059] = ["UKCA TRACER 59 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37060] = ["UKCA TRACER 60 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37061] = ["UKCA TRACER 61 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37062] = ["UKCA TRACER 62 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37063] = ["UKCA TRACER 63 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37064] = ["UKCA TRACER 64 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37065] = ["UKCA TRACER 65 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37066] = ["UKCA TRACER 66 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37067] = ["UKCA TRACER 67 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37068] = ["UKCA TRACER 68 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37069] = ["UKCA TRACER 69 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37070] = ["UKCA TRACER 70 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37071] = ["UKCA TRACER 71 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37072] = ["UKCA TRACER 72 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37073] = ["UKCA TRACER 73 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37074] = ["UKCA TRACER 74 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37075] = ["UKCA TRACER 75 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37076] = ["UKCA TRACER 76 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37077] = ["UKCA TRACER 77 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37078] = ["UKCA TRACER 78 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37079] = ["UKCA TRACER 79 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37080] = ["UKCA TRACER 80 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37081] = ["UKCA TRACER 81 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37082] = ["UKCA TRACER 82 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37083] = ["UKCA TRACER 83 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37084] = ["UKCA TRACER 84 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37085] = ["UKCA TRACER 85 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37086] = ["UKCA TRACER 86 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37087] = ["UKCA TRACER 87 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37088] = ["UKCA TRACER 88 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37089] = ["UKCA TRACER 89 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37090] = ["UKCA TRACER 90 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37091] = ["UKCA TRACER 91 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37092] = ["UKCA TRACER 92 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37093] = ["UKCA TRACER 93 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37094] = ["UKCA TRACER 94 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37095] = ["UKCA TRACER 95 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37096] = ["UKCA TRACER 96 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37097] = ["UKCA TRACER 97 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37098] = ["UKCA TRACER 98 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37099] = ["UKCA TRACER 99 LATERAL BOUNDARY VAL.", "", "", "", ""] +atm_stashvar[37100] = ["UKCA TRACER 100 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37101] = ["UKCA TRACER 101 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37102] = ["UKCA TRACER 102 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37103] = ["UKCA TRACER 103 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37104] = ["UKCA TRACER 104 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37105] = ["UKCA TRACER 105 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37106] = ["UKCA TRACER 106 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37107] = ["UKCA TRACER 107 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37108] = ["UKCA TRACER 108 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37109] = ["UKCA TRACER 109 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37110] = ["UKCA TRACER 110 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37111] = ["UKCA TRACER 111 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37112] = ["UKCA TRACER 112 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37113] = ["UKCA TRACER 113 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37114] = ["UKCA TRACER 114 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37115] = ["UKCA TRACER 115 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37116] = ["UKCA TRACER 116 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37117] = ["UKCA TRACER 117 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37118] = ["UKCA TRACER 118 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37119] = ["UKCA TRACER 119 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37120] = ["UKCA TRACER 120 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37121] = ["UKCA TRACER 121 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37122] = ["UKCA TRACER 122 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37123] = ["UKCA TRACER 123 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37124] = ["UKCA TRACER 124 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37125] = ["UKCA TRACER 125 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37126] = ["UKCA TRACER 126 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37127] = ["UKCA TRACER 127 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37128] = ["UKCA TRACER 128 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37129] = ["UKCA TRACER 129 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37130] = ["UKCA TRACER 130 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37131] = ["UKCA TRACER 131 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37132] = ["UKCA TRACER 132 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37133] = ["UKCA TRACER 133 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37134] = ["UKCA TRACER 134 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37135] = ["UKCA TRACER 135 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37136] = ["UKCA TRACER 136 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37137] = ["UKCA TRACER 137 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37138] = ["UKCA TRACER 138 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37139] = ["UKCA TRACER 139 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37140] = ["UKCA TRACER 140 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37141] = ["UKCA TRACER 141 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37142] = ["UKCA TRACER 142 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37143] = ["UKCA TRACER 143 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37144] = ["UKCA TRACER 144 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37145] = ["UKCA TRACER 145 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37146] = ["UKCA TRACER 146 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37147] = ["UKCA TRACER 147 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37148] = ["UKCA TRACER 148 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37149] = ["UKCA TRACER 149 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37150] = ["UKCA TRACER 150 LATERAL BOUNDARY VAL", "", "", "", ""] +atm_stashvar[37257] = ["UKCA TRACER 1 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37258] = ["UKCA TRACER 2 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37259] = ["UKCA TRACER 3 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37260] = ["UKCA TRACER 4 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37261] = ["UKCA TRACER 5 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37262] = ["UKCA TRACER 6 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37263] = ["UKCA TRACER 7 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37264] = ["UKCA TRACER 8 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37265] = ["UKCA TRACER 9 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37266] = ["UKCA TRACER 10 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37267] = ["UKCA TRACER 11 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37268] = ["UKCA TRACER 12 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37269] = ["UKCA TRACER 13 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37270] = ["UKCA TRACER 14 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37271] = ["UKCA TRACER 15 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37272] = ["UKCA TRACER 16 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37273] = ["UKCA TRACER 17 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37274] = ["UKCA TRACER 18 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37275] = ["UKCA TRACER 19 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37276] = ["UKCA TRACER 20 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37277] = ["UKCA TRACER 21 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37278] = ["UKCA TRACER 22 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37279] = ["UKCA TRACER 23 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37280] = ["UKCA TRACER 24 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37281] = ["UKCA TRACER 25 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37282] = ["UKCA TRACER 26 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37283] = ["UKCA TRACER 27 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37284] = ["UKCA TRACER 28 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37285] = ["UKCA TRACER 29 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37286] = ["UKCA TRACER 30 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37287] = ["UKCA TRACER 31 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37288] = ["UKCA TRACER 32 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37289] = ["UKCA TRACER 33 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37290] = ["UKCA TRACER 34 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37291] = ["UKCA TRACER 35 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37292] = ["UKCA TRACER 36 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37293] = ["UKCA TRACER 37 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37294] = ["UKCA TRACER 38 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37295] = ["UKCA TRACER 39 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37296] = ["UKCA TRACER 40 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37297] = ["UKCA TRACER 41 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37298] = ["UKCA TRACER 42 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37299] = ["UKCA TRACER 43 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37300] = ["UKCA TRACER 44 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37301] = ["UKCA TRACER 45 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37302] = ["UKCA TRACER 46 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37303] = ["UKCA TRACER 47 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37304] = ["UKCA TRACER 48 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37305] = ["UKCA TRACER 49 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37306] = ["UKCA TRACER 50 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37307] = ["UKCA TRACER 51 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37308] = ["UKCA TRACER 52 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37309] = ["UKCA TRACER 53 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37310] = ["UKCA TRACER 54 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37311] = ["UKCA TRACER 55 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37312] = ["UKCA TRACER 56 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37313] = ["UKCA TRACER 57 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37314] = ["UKCA TRACER 58 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37315] = ["UKCA TRACER 59 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37316] = ["UKCA TRACER 60 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37317] = ["UKCA TRACER 61 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37318] = ["UKCA TRACER 62 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37319] = ["UKCA TRACER 63 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37320] = ["UKCA TRACER 64 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37321] = ["UKCA TRACER 65 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37322] = ["UKCA TRACER 66 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37323] = ["UKCA TRACER 67 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37324] = ["UKCA TRACER 68 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37325] = ["UKCA TRACER 69 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37326] = ["UKCA TRACER 70 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37327] = ["UKCA TRACER 71 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37328] = ["UKCA TRACER 72 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37329] = ["UKCA TRACER 73 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37330] = ["UKCA TRACER 74 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37331] = ["UKCA TRACER 75 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37332] = ["UKCA TRACER 76 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37333] = ["UKCA TRACER 77 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37334] = ["UKCA TRACER 78 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37335] = ["UKCA TRACER 79 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37336] = ["UKCA TRACER 80 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37337] = ["UKCA TRACER 81 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37338] = ["UKCA TRACER 82 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37339] = ["UKCA TRACER 83 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37340] = ["UKCA TRACER 84 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37341] = ["UKCA TRACER 85 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37342] = ["UKCA TRACER 86 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37343] = ["UKCA TRACER 87 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37344] = ["UKCA TRACER 88 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37345] = ["UKCA TRACER 89 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37346] = ["UKCA TRACER 90 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37347] = ["UKCA TRACER 91 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37348] = ["UKCA TRACER 92 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37349] = ["UKCA TRACER 93 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37350] = ["UKCA TRACER 94 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37351] = ["UKCA TRACER 95 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37352] = ["UKCA TRACER 96 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37353] = ["UKCA TRACER 97 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37354] = ["UKCA TRACER 98 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37355] = ["UKCA TRACER 99 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37356] = ["UKCA TRACER 100 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37357] = ["UKCA TRACER 101 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37358] = ["UKCA TRACER 102 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37359] = ["UKCA TRACER 103 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37360] = ["UKCA TRACER 104 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37361] = ["UKCA TRACER 105 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37362] = ["UKCA TRACER 106 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37363] = ["UKCA TRACER 107 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37364] = ["UKCA TRACER 108 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37365] = ["UKCA TRACER 109 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37366] = ["UKCA TRACER 110 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37367] = ["UKCA TRACER 111 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37368] = ["UKCA TRACER 112 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37369] = ["UKCA TRACER 113 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37370] = ["UKCA TRACER 114 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37371] = ["UKCA TRACER 115 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37372] = ["UKCA TRACER 116 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37373] = ["UKCA TRACER 117 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37374] = ["UKCA TRACER 118 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37375] = ["UKCA TRACER 119 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37376] = ["UKCA TRACER 120 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37377] = ["UKCA TRACER 121 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37378] = ["UKCA TRACER 122 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37379] = ["UKCA TRACER 123 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37380] = ["UKCA TRACER 124 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37381] = ["UKCA TRACER 125 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37382] = ["UKCA TRACER 126 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37383] = ["UKCA TRACER 127 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37384] = ["UKCA TRACER 128 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37385] = ["UKCA TRACER 129 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37386] = ["UKCA TRACER 130 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37387] = ["UKCA TRACER 131 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37388] = ["UKCA TRACER 132 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37389] = ["UKCA TRACER 133 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37390] = ["UKCA TRACER 134 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37391] = ["UKCA TRACER 135 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37392] = ["UKCA TRACER 136 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37393] = ["UKCA TRACER 137 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37394] = ["UKCA TRACER 138 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37395] = ["UKCA TRACER 139 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37396] = ["UKCA TRACER 140 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37397] = ["UKCA TRACER 141 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37398] = ["UKCA TRACER 142 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37399] = ["UKCA TRACER 143 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37400] = ["UKCA TRACER 144 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37401] = ["UKCA TRACER 145 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37402] = ["UKCA TRACER 146 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37403] = ["UKCA TRACER 147 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37404] = ["UKCA TRACER 148 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37405] = ["UKCA TRACER 149 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[37406] = ["UKCA TRACER 150 BOUNDARY TENDENCY", "", "", "", ""] +atm_stashvar[38201] = ["PRIMARY H2SO4 TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38202] = ["PRIMARY H2SO4 TO ACCUMULATION (SOL)", "", "", "", ""] +atm_stashvar[38203] = ["PRIMARY H2SO4 TO COARSE (SOL)", "", "", "", ""] +atm_stashvar[38204] = ["PRIMARY SEA-SALT TO ACCUMULTN (SOL)", "", "", "", ""] +atm_stashvar[38205] = ["PRIMARY SEA-SALT TO COARSE (SOL)", "", "", "", ""] +atm_stashvar[38206] = ["PRIMARY BLACK CARBON TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38207] = ["PRIMARY BLACK CARBON TO AITKEN (INS)", "", "", "", ""] +atm_stashvar[38208] = ["PRIMARY OM TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38209] = ["PRIMARY OM TO AITKEN (INS)", "", "", "", ""] +atm_stashvar[38210] = ["PRIMARY DUST TO ACCUMULATION (SOL)", "", "", "", ""] +atm_stashvar[38211] = ["PRIMARY DUST TO ACCUMULATION (INS)", "", "", "", ""] +atm_stashvar[38212] = ["PRIMARY DUST TO COARSE (SOLUBLE)", "", "", "", ""] +atm_stashvar[38213] = ["PRIMARY DUST TO COARSE (INSOLUBLE)", "", "", "", ""] +atm_stashvar[38214] = ["DRY DEPOSITION H2SO4 NUCLN. (SOL)", "", "", "", ""] +atm_stashvar[38215] = ["DRY DEPOSITION H2SO4 AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38216] = ["DRY DEPOSITION H2SO4 ACCUMULTN (SOL)", "", "", "", ""] +atm_stashvar[38217] = ["DRY DEPOSITION H2SO4 COARSE (SOL)", "", "", "", ""] +atm_stashvar[38218] = ["DRY DEPOSITION SEA-SALT ACC (SOL)", "", "", "", ""] +atm_stashvar[38219] = ["DRY DEPOSITION SEA-SALT COARSE (SOL)", "", "", "", ""] +atm_stashvar[38220] = ["DRY DEPOSITION BLK CARB AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38221] = ["DRY DEPOSITION BLK CARB ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38222] = ["DRY DEPOSITION BLK CARB COARSE (SOL)", "", "", "", ""] +atm_stashvar[38223] = ["DRY DEPOSITION BLK CARB AITKEN (INS)", "", "", "", ""] +atm_stashvar[38224] = ["DRY DEPOSITION OM NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38225] = ["DRY DEPOSITION OM AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38226] = ["DRY DEPOSITION OM ACCUMULATION (SOL)", "", "", "", ""] +atm_stashvar[38227] = ["DRY DEPOSITION OM COARSE (SOL)", "", "", "", ""] +atm_stashvar[38228] = ["DRY DEPOSITION OM AITKEN (INS)", "", "", "", ""] +atm_stashvar[38229] = ["DRY DEPOSITION OM2 NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38230] = ["DRY DEPOSITION OM2 AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38231] = ["DRY DEPOSITION OM2 ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38232] = ["DRY DEPOSITION OM2 COARSE (SOL)", "", "", "", ""] +atm_stashvar[38233] = ["DRY DEPOSITION DUST ACCUMULATN (SOL)", "", "", "", ""] +atm_stashvar[38234] = ["DRY DEPOSITION DUST COARSE (SOL)", "", "", "", ""] +atm_stashvar[38235] = ["DRY DEPOSITION DUST ACCUMULATN (INS)", "", "", "", ""] +atm_stashvar[38236] = ["DRY DEPOSITION DUST COARSE (INS)", "", "", "", ""] +atm_stashvar[38237] = ["NUC SCAVENGING H2SO4 NUCLN. (SOL)", "", "", "", ""] +atm_stashvar[38238] = ["NUC SCAVENGING H2SO4 AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38239] = ["NUC SCAVENGING H2SO4 ACCUMULTN (SOL)", "", "", "", ""] +atm_stashvar[38240] = ["NUC SCAVENGING H2SO4 COARSE (SOL)", "", "", "", ""] +atm_stashvar[38241] = ["NUC SCAVENGING SEA-SALT ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38242] = ["NUC SCAVENGING SEA-SALT COARSE (SOL)", "", "", "", ""] +atm_stashvar[38243] = ["NUC SCAVENGING BLK CARB AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38244] = ["NUC SCAVENGING BLK CARB ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38245] = ["NUC SCAVENGING BLK CARB COARSE (SOL)", "", "", "", ""] +atm_stashvar[38246] = ["NUC SCAVENGING BLK CARB AITKEN (INS)", "", "", "", ""] +atm_stashvar[38247] = ["NUC SCAVENGING OM NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38248] = ["NUC SCAVENGING OM AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38249] = ["NUC SCAVENGING OM ACCUMULATION (SOL)", "", "", "", ""] +atm_stashvar[38250] = ["NUC SCAVENGING OM COARSE (SOL)", "", "", "", ""] +atm_stashvar[38251] = ["NUC SCAVENGING OM AITKEN (INS)", "", "", "", ""] +atm_stashvar[38252] = ["NUC SCAVENGING OM2 NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38253] = ["NUC SCAVENGING OM2 AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38254] = ["NUC SCAVENGING OM2 ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38255] = ["NUC SCAVENGING OM2 COARSE (SOL)", "", "", "", ""] +atm_stashvar[38257] = ["NUC SCAVENGING DUST ACCUMULTN. (SOL)", "", "", "", ""] +atm_stashvar[38258] = ["NUC SCAVENGING DUST COARSE (SOL)", "", "", "", ""] +atm_stashvar[38259] = ["NUC SCAVENGING DUST ACCUMULTN. (INS)", "", "", "", ""] +atm_stashvar[38260] = ["NUC SCAVENGING DUST COARSE (INS)", "", "", "", ""] +atm_stashvar[38261] = ["IMP SCAVENGING H2SO4 NUCLN. (SOL)", "", "", "", ""] +atm_stashvar[38262] = ["IMP SCAVENGING H2SO4 AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38263] = ["IMP SCAVENGING H2SO4 ACCUMULTN (SOL)", "", "", "", ""] +atm_stashvar[38264] = ["IMP SCAVENGING H2SO4 COARSE (SOL)", "", "", "", ""] +atm_stashvar[38265] = ["IMP SCAVENGING SEA-SALT ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38266] = ["IMP SCAVENGING SEA-SALT COARSE (SOL)", "", "", "", ""] +atm_stashvar[38267] = ["IMP SCAVENGING BLK CARB AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38268] = ["IMP SCAVENGING BLK CARB ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38269] = ["IMP SCAVENGING BLK CARB COARSE (SOL)", "", "", "", ""] +atm_stashvar[38270] = ["IMP SCAVENGING BLK CARB AITKEN (INS)", "", "", "", ""] +atm_stashvar[38271] = ["IMP SCAVENGING OM NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38272] = ["IMP SCAVENGING OM AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38273] = ["IMP SCAVENGING OM ACCUMULATION (SOL)", "", "", "", ""] +atm_stashvar[38274] = ["IMP SCAVENGING OM COARSE (SOL)", "", "", "", ""] +atm_stashvar[38275] = ["IMP SCAVENGING OM AITKEN (INS)", "", "", "", ""] +atm_stashvar[38276] = ["IMP SCAVENGING OM2 NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38277] = ["IMP SCAVENGING OM2 AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38278] = ["IMP SCAVENGING OM2 ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38279] = ["IMP SCAVENGING OM2 COARSE (SOL)", "", "", "", ""] +atm_stashvar[38280] = ["IMP SCAVENGING DUST ACCUMULTN. (SOL)", "", "", "", ""] +atm_stashvar[38281] = ["IMP SCAVENGING DUST COARSE (SOL)", "", "", "", ""] +atm_stashvar[38282] = ["IMP SCAVENGING DUST ACCUMULTN. (INS)", "", "", "", ""] +atm_stashvar[38283] = ["IMP SCAVENGING DUST COARSE (INS)", "", "", "", ""] +atm_stashvar[38284] = ["INCLOUD H2SO4 (H2O2) TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38285] = ["INCLOUD H2SO4 (H2O2) TO ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38286] = ["INCLOUD H2SO4 (H2O2) TO COARSE (SOL)", "", "", "", ""] +atm_stashvar[38287] = ["INCLOUD H2SO4 (O3) TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38288] = ["INCLOUD H2SO4 (O3) TO ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38289] = ["INCLOUD H2SO4 (O3) TO COARSE (SOL)", "", "", "", ""] +atm_stashvar[38290] = ["CLOUDPROC H2SO4 AITSOL --> ACCSOL", "", "", "", ""] +atm_stashvar[38291] = ["CLOUDPROC BC AITSOL --> ACCSOL", "", "", "", ""] +atm_stashvar[38292] = ["CLOUDPROC OM AITSOL --> ACCSOL", "", "", "", ""] +atm_stashvar[38293] = ["CLOUDPROC OM2 AITSOL --> ACCSOL", "", "", "", ""] +atm_stashvar[38294] = ["CONDENSATION H2SO4 TO NUCLN. (SOL)", "", "", "", ""] +atm_stashvar[38295] = ["CONDENSATION H2SO4 TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38296] = ["CONDENSATION H2SO4 TO ACCUM. (SOL)", "", "", "", ""] +atm_stashvar[38297] = ["CONDENSATION H2SO4 TO COARSE (SOL)", "", "", "", ""] +atm_stashvar[38298] = ["CONDENSATION H2SO4 TO AITKEN (INSOL)", "", "", "", ""] +atm_stashvar[38299] = ["CONDENSATION H2SO4 TO ACCUM. (INSOL)", "", "", "", ""] +atm_stashvar[38300] = ["CONDENSATION H2SO4 TO COARSE (INSOL)", "", "", "", ""] +atm_stashvar[38301] = ["CONDENSATION OM1 TO NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38302] = ["CONDENSATION OM1 TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38303] = ["CONDENSATION OM1 TO ACCUMULTN (SOL)", "", "", "", ""] +atm_stashvar[38304] = ["CONDENSATION OM1 TO COARSE (SOL)", "", "", "", ""] +atm_stashvar[38305] = ["CONDENSATION OM1 TO AITKEN (INSOL)", "", "", "", ""] +atm_stashvar[38306] = ["CONDENSATION OM1 TO ACCUM. (INSOL)", "", "", "", ""] +atm_stashvar[38307] = ["CONDENSATION OM1 TO COARSE (INSOL)", "", "", "", ""] +atm_stashvar[38308] = ["CONDENSATION OM2 TO NUCLEATION (SOL)", "", "", "", ""] +atm_stashvar[38309] = ["CONDENSATION OM2 TO AITKEN (SOL)", "", "", "", ""] +atm_stashvar[38310] = ["CONDENSATION OM2 TO ACCUMULTN (SOL)", "", "", "", ""] +atm_stashvar[38311] = ["CONDENSATION OM2 TO COARSE (SOL)", "", "", "", ""] +atm_stashvar[38312] = ["CONDENSATION OM2 TO AITKEN (INSOL)", "", "", "", ""] +atm_stashvar[38313] = ["CONDENSATION OM2 TO ACCUM. (INSOL)", "", "", "", ""] +atm_stashvar[38314] = ["CONDENSATION OM2 TO COARSE (INSOL)", "", "", "", ""] +atm_stashvar[38315] = ["HETOX ON DUST {SO2 -> SO4} (ACC-SOL)", "", "", "", ""] +atm_stashvar[38316] = ["HETOX ON DUST {SO2 -> SO4} (COR-SOL)", "", "", "", ""] +atm_stashvar[38317] = ["HETOX ON DUST {SO2 -> SO4} (ACC-INS)", "", "", "", ""] +atm_stashvar[38318] = ["HETOX ON DUST {SO2 -> SO4} (COR-INS)", "", "", "", ""] +atm_stashvar[38319] = ["NUCLEATION OF H2SO4 (TO NUC-SOL)", "", "", "", ""] +atm_stashvar[38320] = ["COAG H2SO4 NUCLTN-SOL TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38321] = ["COAG H2SO4 NUCLTN-SOL TO ACCUM.-SOL", "", "", "", ""] +atm_stashvar[38322] = ["COAG H2SO4 NUCLTN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38323] = ["COAG H2SO4 NUCLTN-SOL TO AITKEN-INS", "", "", "", ""] +atm_stashvar[38324] = ["COAG H2SO4 NUCLTN-SOL TO ACCUM.-INS", "", "", "", ""] +atm_stashvar[38325] = ["COAG H2SO4 NUCLTN-SOL TO COARSE-INS", "", "", "", ""] +atm_stashvar[38326] = ["COAG OM1 NUCLTN-SOL TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38327] = ["COAG OM1 NUCLTN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38328] = ["COAG OM1 NUCLTN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38329] = ["COAG OM1 NUCLTN-SOL TO AITKEN-INSOL", "", "", "", ""] +atm_stashvar[38330] = ["COAG OM1 NUCLTN-SOL TO ACCUM.-INSOL", "", "", "", ""] +atm_stashvar[38331] = ["COAG OM1 NUCLTN-SOL TO COARSE-INSOL", "", "", "", ""] +atm_stashvar[38332] = ["COAG OM2 NUCLTN-SOL TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38333] = ["COAG OM2 NUCLTN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38334] = ["COAG OM2 NUCLTN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38335] = ["COAG OM2 NUCLTN-SOL TO AITKEN-INSOL", "", "", "", ""] +atm_stashvar[38336] = ["COAG OM2 NUCLTN-SOL TO ACCUM.-INSOL", "", "", "", ""] +atm_stashvar[38337] = ["COAG OM2 NUCLTN-SOL TO COARSE-INSOL", "", "", "", ""] +atm_stashvar[38338] = ["COAG H2SO4 AITKEN-SOL TO ACCUM.-SOL", "", "", "", ""] +atm_stashvar[38339] = ["COAG H2SO4 AITKEN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38342] = ["COAG BC AITKEN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38343] = ["COAG BC AITKEN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38346] = ["COAG OM1 AITKEN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38347] = ["COAG OM1 AITKEN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38350] = ["COAG OM2 AITKEN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38351] = ["COAG OM2 AITKEN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38354] = ["COAG H2SO4 ACCUM.-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38356] = ["COAG BC ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38358] = ["COAG OM1 ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38360] = ["COAG SEA-SALT ACC-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38362] = ["COAG OM2 ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38364] = ["COAG DU ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38366] = ["COAG BC AITKEN-INS TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38367] = ["COAG OM1 AITKEN-INS TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38368] = ["COAG BC AITKEN-INS TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38369] = ["COAG OM1 AITKEN-INS TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38370] = ["COAG DU ACCUM.-INS TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38371] = ["AGEING H2SO4 AITKEN-INS TO AIT.-SOL", "", "", "", ""] +atm_stashvar[38372] = ["AGEING BC AITKEN-INS TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38373] = ["AGEING OM1 AITKEN-INS TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38374] = ["AGEING OM2 AITKEN-INS TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38375] = ["MERGE H2SO4 NUCLTN-SOL TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38376] = ["MERGE OM1 NUCLTN-SOL TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38377] = ["MERGE OM2 NUCLTN-SOL TO AITKEN-SOL", "", "", "", ""] +atm_stashvar[38378] = ["MERGE H2SO4 AITKEN-SOL TO ACCUM.-SOL", "", "", "", ""] +atm_stashvar[38379] = ["MERGE BC AITKEN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38380] = ["MERGE OM1 AITKEN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38381] = ["MERGE OM2 AITKEN-SOL TO ACCUMULN-SOL", "", "", "", ""] +atm_stashvar[38382] = ["MERGE H2SO4 ACCUM.-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38383] = ["MERGE SEA_SALT ACC-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38384] = ["MERGE BC ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38385] = ["MERGE OM1 ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38386] = ["MERGE DU ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38387] = ["MERGE OM2 ACCUMULN-SOL TO COARSE-SOL", "", "", "", ""] +atm_stashvar[38401] = ["DRY PARTICLE DIAMETER NUCLEATION-SOL", "", "", "", ""] +atm_stashvar[38402] = ["DRY PARTICLE DIAMETER AITKEN-SOL", "", "", "", ""] +atm_stashvar[38403] = ["DRY PARTICLE DIAMETER ACCUMULATN-SOL", "", "", "", ""] +atm_stashvar[38404] = ["DRY PARTICLE DIAMETER COARSE-SOL", "", "", "", ""] +atm_stashvar[38405] = ["DRY PARTICLE DIAMETER AITKEN-INS", "", "", "", ""] +atm_stashvar[38406] = ["DRY PARTICLE DIAMETER ACCUMULATN-INS", "", "", "", ""] +atm_stashvar[38407] = ["DRY PARTICLE DIAMETER COARSE-INS", "", "", "", ""] +atm_stashvar[38408] = ["WET PARTICLE DIAMETER NUCLEATION-SOL", "", "", "", ""] +atm_stashvar[38409] = ["WET PARTICLE DIAMETER AITKEN-SOL", "", "", "", ""] +atm_stashvar[38410] = ["WET PARTICLE DIAMETER ACCUMULATN-SOL", "", "", "", ""] +atm_stashvar[38411] = ["WET PARTICLE DIAMETER COARSE-SOL", "", "", "", ""] +atm_stashvar[38412] = ["WATER CONTENT FOR NUCLEATION-SOLUBLE", "", "", "", ""] +atm_stashvar[38413] = ["WATER CONTENT FOR AITKEN -SOLUBLE", "", "", "", ""] +atm_stashvar[38414] = ["WATER CONTENT FOR ACCUMULTN.-SOLUBLE", "", "", "", ""] +atm_stashvar[38415] = ["WATER CONTENT FOR COARSE -SOLUBLE", "", "", "", ""] +atm_stashvar[38416] = ["SURFACE AREA CONC NUCLN.-SOL (WET)", "", "", "", ""] +atm_stashvar[38417] = ["SURFACE AREA CONC AITKEN-SOL (WET)", "", "", "", ""] +atm_stashvar[38418] = ["SURFACE AREA CONC ACCUM.-SOL (WET)", "", "", "", ""] +atm_stashvar[38419] = ["SURFACE AREA CONC COARSE-SOL (WET)", "", "", "", ""] +atm_stashvar[38420] = ["SURFACE AREA CONC AITKEN-INS", "", "", "", ""] +atm_stashvar[38421] = ["SURFACE AREA CONC ACCUM.-INS", "", "", "", ""] +atm_stashvar[38422] = ["SURFACE AREA CONC COARSE-INS", "", "", "", ""] +atm_stashvar[38423] = ["VOLUME CONCENTRN. NUCLN.-SOL (WET)", "", "", "", ""] +atm_stashvar[38424] = ["VOLUME CONCENTRN. AITKEN-SOL (WET)", "", "", "", ""] +atm_stashvar[38425] = ["VOLUME CONCENTRN. ACCUM.-SOL (WET)", "", "", "", ""] +atm_stashvar[38426] = ["VOLUME CONCENTRN. COARSE-SOL (WET)", "", "", "", ""] +atm_stashvar[38427] = ["VOLUME CONCENTRN. AITKEN-INS", "", "", "", ""] +atm_stashvar[38428] = ["VOLUME CONCENTRN. ACCUM.-INS", "", "", "", ""] +atm_stashvar[38429] = ["VOLUME CONCENTRN. COARSE-INS", "", "", "", ""] +atm_stashvar[38430] = ["PTCL MASS DENSITY NUCLN.-SOL (WET)", "", "", "", ""] +atm_stashvar[38431] = ["PTCL MASS DENSITY AITKEN-SOL (WET)", "", "", "", ""] +atm_stashvar[38432] = ["PTCL MASS DENSITY ACCUM.-SOL (WET)", "", "", "", ""] +atm_stashvar[38433] = ["PTCL MASS DENSITY COARSE-SOL (WET)", "", "", "", ""] +atm_stashvar[38434] = ["PTCL MASS DENSITY AITKEN-INS", "", "", "", ""] +atm_stashvar[38435] = ["PTCL MASS DENSITY ACCUM.-INS", "", "", "", ""] +atm_stashvar[38436] = ["PTCL MASS DENSITY COARSE-INS", "", "", "", ""] +atm_stashvar[38437] = ["CN NUMBER CONCENTRATION", "", "", "", ""] +atm_stashvar[38438] = ["CCN NO. CONCENTRN. (ACC+COR)", "", "", "", ""] +atm_stashvar[38439] = ["CCN NO. CONCENTRN. (ACC+COR+AIT>25r)", "", "", "", ""] +atm_stashvar[38440] = ["CCN NO. CONCENTRN. (ACC+COR+AIT>35r)", "", "", "", ""] +atm_stashvar[38441] = ["CD NUMBER CONCENTRATION", "", "", "", ""] +atm_stashvar[38442] = ["H2SO4 PARTIAL VOLUME CONC (NUC-SOL)", "", "", "", ""] +atm_stashvar[38443] = ["OM1 PARTIAL VOLUME CONC (NUC-SOL)", "", "", "", ""] +atm_stashvar[38444] = ["OM2 PARTIAL VOLUME CONC (NUC-SOL)", "", "", "", ""] +atm_stashvar[38445] = ["H2O PARTIAL VOLUME CONC (NUC-SOL)", "", "", "", ""] +atm_stashvar[38446] = ["H2SO4 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[38447] = ["BC PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[38448] = ["OM1 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[38449] = ["OM2 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[38450] = ["H2O PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[38451] = ["H2SO4 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38452] = ["BC PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38453] = ["OM1 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38454] = ["SS PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38455] = ["DU PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38456] = ["OM2 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38457] = ["H2O PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38458] = ["H2SO4 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38459] = ["BC PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38460] = ["OM1 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38461] = ["SSALT PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38462] = ["DU PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38463] = ["OM2 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38464] = ["H2O PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38465] = ["BC PARTIAL VOLUME CONC (AIT-INS)", "", "", "", ""] +atm_stashvar[38466] = ["OM1 PARTIAL VOLUME CONC (AIT-INS)", "", "", "", ""] +atm_stashvar[38467] = ["DU PARTIAL VOLUME CONC (ACC-INS)", "", "", "", ""] +atm_stashvar[38468] = ["DU PARTIAL VOLUME CONC (COR-INS)", "", "", "", ""] +atm_stashvar[38469] = ["ACTIVE CLOUD DROP NO CONC (NUC-SOL)", "", "", "", ""] +atm_stashvar[38470] = ["ACTIVE CLOUD DROP NO CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[38471] = ["ACTIVE CLOUD DROP NO CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[38472] = ["ACTIVE CLOUD DROP NO CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[38473] = ["Maximum Supersaturation (percent)", "", "", "", ""] +atm_stashvar[38474] = ["Cloud base for aerosol activation", "", "", "", ""] +atm_stashvar[38475] = ["Sigmaw Updraught Velocity", "", "", "", ""] +atm_stashvar[38476] = ["CLOUD LIQUID FRACTION", "", "", "", ""] +atm_stashvar[38477] = ["TOTAL CDNC * CLOUD LIQ FRACTION", "", "", "", ""] +atm_stashvar[38478] = ["CLOUD FLAG", "", "", "", ""] +atm_stashvar[38479] = ["TOTAL CDNC * CLOUD FLAG (m^-3)", "", "", "", ""] +atm_stashvar[38480] = ["Max SuperSaturation*CLD FLAG (perc)", "", "", "", ""] +atm_stashvar[38481] = ["Charac updraft * CLD FLAG (m s^-1)", "", "", "", ""] +atm_stashvar[38482] = ["Sigmaw * CLOUD FLAG (m s^-1)", "", "", "", ""] +atm_stashvar[38483] = ["BL TKE * CLOUD FLAG (m^2 s^-2)", "", "", "", ""] +atm_stashvar[38484] = ["CCN at fixed Supersaturation (m^-3)", "", "", "", ""] +atm_stashvar[38485] = ["H2SO4 Nucleation-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38486] = ["H2SO4 Aitken-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38487] = ["H2SO4 accumulation-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38488] = ["H2SO4 coarse-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38489] = ["BC Aitken-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38490] = ["BC accumulation-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38491] = ["BC coarse-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38492] = ["BC Aitken-insol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38493] = ["OM Nucleation-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38494] = ["OM Aitken-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38495] = ["OM accumulation-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38496] = ["OM coarse-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38497] = ["OM Aitken-insol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38498] = ["Sea-salt accumln-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38499] = ["Sea-salt coarse-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38500] = ["Dust accumln-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38501] = ["Dust coarse-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38502] = ["Dust accumln-insol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38503] = ["Dust coarse-insol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38504] = ["Number Nucleation-sol mode (m^-3)", "", "kg m-3", "", ""] +atm_stashvar[38505] = ["Number Aitken-sol mode (m^-3)", "", "kg m-3", "", ""] +atm_stashvar[38506] = ["Number accumulation-sol mode (m^-3)", "", "kg m-3", "", ""] +atm_stashvar[38507] = ["Number coarse-sol mode (m^-3)", "", "kg m-3", "", ""] +atm_stashvar[38508] = ["Number Aitken-insol mode (m^-3)", "", "kg m-3", "", ""] +atm_stashvar[38509] = ["Number accumln-insol mode (m^-3)", "", "kg m-3", "", ""] +atm_stashvar[38510] = ["Number coarse-insol mode (m^-3)", "", "kg m-3", "", ""] +atm_stashvar[38511] = ["H2O Nucleation-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38512] = ["H2O Aitken-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38513] = ["H2O accumulation-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38514] = ["H2O coarse-sol mode (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38515] = ["Total aerosol water content (kgm^-3)", "", "kg m-3", "", ""] +atm_stashvar[38516] = ["H2SO4 load Nucleation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38517] = ["H2SO4 load Aitken-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38518] = ["H2SO4 load accumulation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38519] = ["H2SO4 load coarse-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38520] = ["Total aerosol H2SO4 load (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38521] = ["BC load Aitken-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38522] = ["BC load accumulation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38523] = ["BC load coarse-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38524] = ["BC load Aitken-insol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38525] = ["Total aerosol BC load (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38526] = ["OM load Nucleation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38527] = ["OM load Aitken-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38528] = ["OM load accumulation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38529] = ["OM load coarse-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38530] = ["OM load Aitken-insol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38531] = ["Total aerosol OM load (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38532] = ["Dust load accumulation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38533] = ["Dust load coarse-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38534] = ["Dust load accumultn-insol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38535] = ["Dust load coarse-insol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38536] = ["Total aerosol Dust load (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38537] = ["Sea-salt load accumltn-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38538] = ["Sea-salt load coarse-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38539] = ["Total aerosol Sea-salt load (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38540] = ["H2O load nucleation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38541] = ["H2O load Aitken-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38542] = ["H2O load accumulation-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38543] = ["H2O load coarse-sol (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38544] = ["Total aerosol H2O load (kgm^-2)", "", "kg m-2", "", ""] +atm_stashvar[38545] = ["H2O mass mixing ratio (kg/kg)", "", "kg kg-1", "", ""] +atm_stashvar[38546] = ["MASS REMOVED BY MDT FIX NUCL-SOL", "", "", "", ""] +atm_stashvar[38547] = ["MASS REMOVED BY MDT FIX AITKEN-SOL", "", "", "", ""] +atm_stashvar[38548] = ["MASS REMOVED BY MDT FIX ACCUM-SOL", "", "", "", ""] +atm_stashvar[38549] = ["MASS REMOVED BY MDT FIX COARSE-SOL", "", "", "", ""] +atm_stashvar[38550] = ["MASS REMOVED BY MDT FIX AITKEN-INS", "", "", "", ""] +atm_stashvar[38551] = ["MASS REMOVED BY MDT FIX ACCUM-INS", "", "", "", ""] +atm_stashvar[38552] = ["MASS REMOVED BY MDT FIX COARSE-INS", "", "", "", ""] +atm_stashvar[38553] = ["FREQUENCY MDT FIX (%) NUCL-SOL", "", "", "", ""] +atm_stashvar[38554] = ["FREQUENCY MDT FIX (%) AITKEN-SOL", "", "", "", ""] +atm_stashvar[38555] = ["FREQUENCY MDT FIX (%) ACCUM-SOL", "", "", "", ""] +atm_stashvar[38556] = ["FREQUENCY MDT FIX (%) COARSE-SOL", "", "", "", ""] +atm_stashvar[38557] = ["FREQUENCY MDT FIX (%) AITKEN-INS", "", "", "", ""] +atm_stashvar[38558] = ["FREQUENCY MDT FIX (%) ACCUM-INS", "", "", "", ""] +atm_stashvar[38559] = ["FREQUENCY MDT FIX (%) COARSE-INS", "", "", "", ""] +atm_stashvar[38560] = ["PM10 concentration, wet (ug m-3)", "", "", "", ""] +atm_stashvar[38561] = ["PM2.5 concentration, wet (ug m-3)", "", "", "", ""] +atm_stashvar[38562] = ["PM10 concentration, dry (ug m-3)", "", "", "", ""] +atm_stashvar[38563] = ["PM2.5 concentration, dry (ug m-3)", "", "", "", ""] +atm_stashvar[38564] = ["H2SO4 contribution to PM10 (ug m-3)", "", "", "", ""] +atm_stashvar[38565] = ["H2SO4 contribution to PM2.5 (ug m-3)", "", "", "", ""] +atm_stashvar[38566] = ["BC contribution to PM10 (ug m-3)", "", "", "", ""] +atm_stashvar[38567] = ["BC contribution to PM2.5 (ug m-3)", "", "", "", ""] +atm_stashvar[38568] = ["OM contribution to PM10 (ug m-3)", "", "", "", ""] +atm_stashvar[38569] = ["OM contribution to PM2.5 (ug m-3)", "", "", "", ""] +atm_stashvar[38570] = ["Sea-salt contrib. to PM10 (ug m-3)", "", "", "", ""] +atm_stashvar[38571] = ["Sea-salt contrib. to PM2.5 (ug m-3)", "", "", "", ""] +atm_stashvar[38572] = ["Dust contribution to PM10 (ug m-3)", "", "", "", ""] +atm_stashvar[38573] = ["Dust contribution to PM2.5 (ug m-3)", "", "", "", ""] +atm_stashvar[38900] = ["Plume scvnging Nuc-sol H2SO4 (mol/s)", "", "", "", ""] +atm_stashvar[38901] = ["Plume scavenging Nuc-sol OM (mol/s)", "", "", "", ""] +atm_stashvar[38902] = ["Plume scavenging Nuc-sol OM2 (mol/s)", "", "", "", ""] +atm_stashvar[38903] = ["Plume scavenging Nuc-sol NO3 (mol/s)", "", "", "", ""] +atm_stashvar[38904] = ["Plume scavenging Nuc-sol NH4 (mol/s)", "", "", "", ""] +atm_stashvar[38905] = ["Plume scvnging Ait-sol H2SO4 (mol/s)", "", "", "", ""] +atm_stashvar[38906] = ["Plume scavenging Ait-sol BC (mol/s)", "", "", "", ""] +atm_stashvar[38907] = ["Plume scavenging Ait-sol OM (mol/s)", "", "", "", ""] +atm_stashvar[38908] = ["Plume scavenging Ait-sol OM2 (mol/s)", "", "", "", ""] +atm_stashvar[38909] = ["Plume scavenging Ait-sol NO3 (mol/s)", "", "", "", ""] +atm_stashvar[38910] = ["Plume scavenging Ait-sol NH4 (mol/s)", "", "", "", ""] +atm_stashvar[38911] = ["Plume scvnging acc-sol H2SO4 (mol/s)", "", "", "", ""] +atm_stashvar[38912] = ["Plume scavenging acc-sol BC (mol/s)", "", "", "", ""] +atm_stashvar[38913] = ["Plume scavenging acc-sol OM (mol/s)", "", "", "", ""] +atm_stashvar[38914] = ["Plume scavenging acc-sol Cl (mol/s)", "", "", "", ""] +atm_stashvar[38915] = ["Plume scavenging acc-sol Na (mol/s)", "", "", "", ""] +atm_stashvar[38916] = ["Plume scavenging acc-sol Dust(mol/s)", "", "", "", ""] +atm_stashvar[38917] = ["Plume scavenging acc-sol OM2 (mol/s)", "", "", "", ""] +atm_stashvar[38918] = ["Plume scavenging acc-sol NO3 (mol/s)", "", "", "", ""] +atm_stashvar[38919] = ["Plume scavenging acc-sol NH4 (mol/s)", "", "", "", ""] +atm_stashvar[38920] = ["Plume scvnging cor-sol H2SO4 (mol/s)", "", "", "", ""] +atm_stashvar[38921] = ["Plume scavenging cor-sol BC (mol/s)", "", "", "", ""] +atm_stashvar[38922] = ["Plume scavenging cor-sol OM (mol/s)", "", "", "", ""] +atm_stashvar[38923] = ["Plume scavenging cor-sol Cl (mol/s)", "", "", "", ""] +atm_stashvar[38924] = ["Plume scavenging cor-sol Na (mol/s)", "", "", "", ""] +atm_stashvar[38925] = ["Plume scavenging cor-sol Dust(mol/s)", "", "", "", ""] +atm_stashvar[38926] = ["Plume scavenging cor-sol OM2 (mol/s)", "", "", "", ""] +atm_stashvar[38927] = ["Plume scavenging cor-sol NO3 (mol/s)", "", "", "", ""] +atm_stashvar[38928] = ["Plume scavenging cor-sol NH4 (mol/s)", "", "", "", ""] +atm_stashvar[38929] = ["Plume scavenging Ait-ins BC (mol/s)", "", "", "", ""] +atm_stashvar[38930] = ["Plume scavenging Ait-ins OM (mol/s)", "", "", "", ""] +atm_stashvar[38931] = ["Plume scavenging acc-ins Dust(mol/s)", "", "", "", ""] +atm_stashvar[38932] = ["Plume scavenging cor-ins Dust(mol/s)", "", "", "", ""] +atm_stashvar[39001] = ["ANALYSIS TEMPERATURE ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[39002] = ["MODEL TEMPERATURE AFTER NUDGING", "", "", "", ""] +atm_stashvar[39003] = ["TEMPERATURE INCREMENT DUE TO NUDG", "", "", "", ""] +atm_stashvar[39004] = ["TEMPERATURE INCREMENT DUE TO OTHER", "", "", "", ""] +atm_stashvar[39005] = ["TEMPERATURE RELAXATION PARAMETER", "", "", "", ""] +atm_stashvar[39006] = ["ANALYSIS U WIND ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[39007] = ["U COMPNT OF WIND AFTER NUDGING", "", "", "", ""] +atm_stashvar[39008] = ["U WIND INCREMENT DUE TO NUDGING", "", "", "", ""] +atm_stashvar[39009] = ["U WIND INCREMENT DUE TO OTHER", "", "", "", ""] +atm_stashvar[39010] = ["U WIND RELAXATION PARAMETER", "", "", "", ""] +atm_stashvar[39011] = ["ANALYSIS V WIND ON MODEL LEVELS", "", "", "", ""] +atm_stashvar[39012] = ["V COMPNT OF WIND AFTER NUDGING", "", "", "", ""] +atm_stashvar[39013] = ["V WIND INCREMENT DUE TO NUDGING", "", "", "", ""] +atm_stashvar[39014] = ["V WIND INCREMENT DUE TO OTHER", "", "", "", ""] +atm_stashvar[39015] = ["V WIND RELAXATION PARAMETER", "", "", "", ""] +atm_stashvar[44001] = ["Karbou surface emissivity 23.8 GHz", "", "", "", ""] +atm_stashvar[44002] = ["Karbou surf emiss (stdev) 23.8 GHz", "", "", "", ""] +atm_stashvar[44003] = ["Karbou surface emissivity 31.4 GHz", "", "", "", ""] +atm_stashvar[44004] = ["Karbou surf emiss (stdev) 31.4 GHz", "", "", "", ""] +atm_stashvar[44005] = ["Karbou surface emissivity 50.0 GHz", "", "", "", ""] +atm_stashvar[44006] = ["Karbou surf emiss (stdev) 50.0 GHz", "", "", "", ""] +atm_stashvar[44007] = ["Karbou surface emissivity 89.0 GHz", "", "", "", ""] +atm_stashvar[44008] = ["Karbou surf emiss (stdev) 89.0 GHz", "", "", "", ""] +atm_stashvar[44009] = ["Karbou surface emissivity 150.0 GHz", "", "", "", ""] +atm_stashvar[44010] = ["Karbou surf emiss (stdev) 150.0 GHz", "", "", "", ""] +atm_stashvar[44011] = ["DISTANCE OFF-SHORE", "", "", "", ""] +atm_stashvar[44012] = ["MW Surface Emissivity", "", "", "", ""] +atm_stashvar[44013] = ["MW Surface Emissivity (stdev)", "", "", "", ""] +atm_stashvar[50001] = ["Ox PROD: HO2+NO", "", "", "", ""] +atm_stashvar[50002] = ["Ox PROD: MeOO+NO", "", "", "", ""] +atm_stashvar[50003] = ["Ox PROD: NO+RO2", "", "", "", ""] +atm_stashvar[50004] = ["Ox PROD: OH+INORGANIC ACID", "", "", "", ""] +atm_stashvar[50005] = ["Ox PROD: OH+ORGANIC NITRATE", "", "", "", ""] +atm_stashvar[50006] = ["Ox PROD: ORGANIC NITRATE PHOTOLYSIS", "", "", "", ""] +atm_stashvar[50007] = ["Ox PROD: OH + PAN-TYPE REACTIONS", "", "", "", ""] +atm_stashvar[50011] = ["Ox LOSS: O(1D)+H2O", "", "", "", ""] +atm_stashvar[50012] = ["Ox LOSS: MINOR LOSS REACTIONS", "", "", "", ""] +atm_stashvar[50013] = ["Ox LOSS: HO2+O3", "", "", "", ""] +atm_stashvar[50014] = ["Ox LOSS: OH+O3", "", "", "", ""] +atm_stashvar[50015] = ["Ox LOSS: O3+ALKENE", "", "", "", ""] +atm_stashvar[50016] = ["Ox LOSS: N2O5+H2O", "", "", "", ""] +atm_stashvar[50017] = ["Ox LOSS: NO3 CHEMICAL LOSS", "", "", "", ""] +atm_stashvar[50021] = ["Ox BUDGET: O3 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50022] = ["Ox BUDGET: NOy DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50031] = ["Ox BUDGET: NOy WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50041] = ["RXN FLUX: OH+CH4 (CH4 LIFETIME) TROP", "", "", "", ""] +atm_stashvar[50042] = ["RXN FLUX: NO3+C5H8->ISON", "", "", "", ""] +atm_stashvar[50043] = ["RXN FLUX: NO+ISO2->ISON", "", "", "", ""] +atm_stashvar[50044] = ["RXN FLUX: H2O2 PRODUCTION", "", "", "", ""] +atm_stashvar[50045] = ["RXN FLUX: ROOH PRODUCTION", "", "", "", ""] +atm_stashvar[50046] = ["RXN FLUX: HONO2 PRODUCTION (HNO3)", "", "", "", ""] +atm_stashvar[50051] = ["STE: O3", "", "", "", ""] +atm_stashvar[50052] = ["TENDENCY: O3 (TROP ONLY)", "", "", "", ""] +atm_stashvar[50053] = ["TROPOSPHERIC O3", "", "", "", ""] +atm_stashvar[50054] = ["TENDENCY: O3 (WHOLE ATMOS)", "", "", "", ""] +atm_stashvar[50061] = ["AIR MASS DIAGNOSTIC (TROP ONLY)", "", "", "", ""] +atm_stashvar[50062] = ["TROPOSPHERIC MASK", "", "", "", ""] +atm_stashvar[50063] = ["AIR MASS DIAGNOSTIC (WHOLE ATMOS)", "", "", "", ""] +atm_stashvar[50071] = ["CO BUDGET: CO LOSS VIA OH+CO", "", "", "", ""] +atm_stashvar[50072] = ["CO BUDGET: CO PROD VIA HCHO+OH/NO3", "", "", "", ""] +atm_stashvar[50073] = ["CO BUDGET: CO PROD VIA MGLY+OH/NO3", "", "", "", ""] +atm_stashvar[50074] = ["CO BUDGET: CO MISC PROD&O3+MACR/ISOP", "", "", "", ""] +atm_stashvar[50075] = ["CO BUDGET: CO PROD VIA HCHO PHOT RAD", "", "", "", ""] +atm_stashvar[50076] = ["CO BUDGET: CO PROD VIA HCHO PHOT MOL", "", "", "", ""] +atm_stashvar[50077] = ["CO BUDGET: CO PROD VIA MGLY PHOTOL", "", "", "", ""] +atm_stashvar[50078] = ["CO BUDGET: CO PROD VIA MISC PHOTOL", "", "", "", ""] +atm_stashvar[50079] = ["CO BUDGET: CO DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50081] = ["LIGHTNING NOx EMISSIONS 3D", "", "", "", ""] +atm_stashvar[50082] = ["LIGHTNING DIAGNOSTIC: TOT FLASHES 2D", "", "", "", ""] +atm_stashvar[50083] = ["LIGHTNING DIAG: CLD TO GRND FLSH 2D", "", "", "", ""] +atm_stashvar[50084] = ["LIGHTNING DIAG: CLD TO CLD FLSH 2D", "", "", "", ""] +atm_stashvar[50085] = ["LIGHTNING DIAG: TOTAL N PRODUCED 2D", "", "", "", ""] +atm_stashvar[50091] = ["STRATOSPHERIC OH PRODUCTION", "", "", "", ""] +atm_stashvar[50092] = ["STRATOSPHERIC OH LOSS", "", "", "", ""] +atm_stashvar[50101] = ["STRAT O3 PROD: O2+PHOTON->O(3P)+O(3P", "", "", "", ""] +atm_stashvar[50102] = ["STRAT O3 PROD: O2+PHOTON->O(3P)+O(1D", "", "", "", ""] +atm_stashvar[50103] = ["STRAT O3 PROD: HO2 + NO", "", "", "", ""] +atm_stashvar[50104] = ["STRAT O3 PROD: MeOO + NO", "", "", "", ""] +atm_stashvar[50111] = ["STRAT O3 LOSS: Cl2O2 + PHOTON", "", "", "", ""] +atm_stashvar[50112] = ["STRAT O3 LOSS: BrO + ClO", "", "", "", ""] +atm_stashvar[50113] = ["STRAT O3 LOSS: HO2 + O3", "", "", "", ""] +atm_stashvar[50114] = ["STRAT O3 LOSS: ClO + HO2", "", "", "", ""] +atm_stashvar[50115] = ["STRAT O3 LOSS: BrO + HO2", "", "", "", ""] +atm_stashvar[50116] = ["STRAT O3 LOSS: O(3P) + ClO", "", "", "", ""] +atm_stashvar[50117] = ["STRAT O3 LOSS: O(3P) + NO2", "", "", "", ""] +atm_stashvar[50118] = ["STRAT O3 LOSS: O(3P) + HO2", "", "", "", ""] +atm_stashvar[50119] = ["STRAT O3 LOSS: O3 + H", "", "", "", ""] +atm_stashvar[50120] = ["STRAT O3 LOSS: O(3P) + O3", "", "", "", ""] +atm_stashvar[50121] = ["STRAT O3 LOSS: NO3 + PHOTON", "", "", "", ""] +atm_stashvar[50122] = ["STRAT O3 LOSS: O(1D) + H2O", "", "", "", ""] +atm_stashvar[50123] = ["STRAT O3 LOSS: HO2 + NO3", "", "", "", ""] +atm_stashvar[50124] = ["STRAT O3 LOSS: OH + NO3", "", "", "", ""] +atm_stashvar[50125] = ["STRAT O3 LOSS: NO3 + HCHO", "", "", "", ""] +atm_stashvar[50131] = ["STRAT MISC: O3 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50132] = ["STRAT MISC: NOy DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50133] = ["STRAT MISC: NOy WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50140] = ["DMS + OH => SO2 + MeOO + HCHO", "", "", "", ""] +atm_stashvar[50141] = ["DMS + OH => 0.6SO2 + 0.4DMSO + MeOO", "", "", "", ""] +atm_stashvar[50142] = ["DMS + NO3 => SO2 + HONO2 + MeOO", "", "", "", ""] +atm_stashvar[50143] = ["DMSO + OH => 0.6SO2 + 0.4MSA", "", "", "", ""] +atm_stashvar[50144] = ["CS2 + OH => SO2 + COS", "", "", "", ""] +atm_stashvar[50145] = ["H2S + OH => SO2", "", "", "", ""] +atm_stashvar[50146] = ["COS + OH => SO2", "", "", "", ""] +atm_stashvar[50147] = ["Monoterp + OH => Sec_org", "", "", "", ""] +atm_stashvar[50148] = ["Monoterp + O3 => Sec_org", "", "", "", ""] +atm_stashvar[50149] = ["Monoterp + NO3 => Sec_org", "", "", "", ""] +atm_stashvar[50150] = ["SO2 + OH => HO2 + H2SO4", "", "", "", ""] +atm_stashvar[50151] = ["SO2 + H2O2 => NULL0", "", "", "", ""] +atm_stashvar[50152] = ["SO2 + O3 => NULL1", "", "", "", ""] +atm_stashvar[50153] = ["SO2 + O3 => NULL2", "", "", "", ""] +atm_stashvar[50154] = ["SO2 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50155] = ["SO2 WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50156] = ["NO surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50157] = ["CH4 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50158] = ["CO surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50159] = ["HCHO surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50160] = ["C2H6 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50161] = ["C3H8 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50162] = ["Me2CO surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50163] = ["MeCHO surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50164] = ["C5H8 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50165] = ["C4H10 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50166] = ["C2H4 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50167] = ["C3H6 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50168] = ["TOLUENE surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50169] = ["oXYLENE surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50170] = ["CH3OH surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50171] = ["H2 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50172] = ["NO emiss from aircraft (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50173] = ["NO2 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50174] = ["HNO3 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50175] = ["H2O2 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50176] = ["CH4 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50177] = ["MeOOH DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50178] = ["EtOOH DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50179] = ["PAN DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50180] = ["i-PrOOH DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50181] = ["O3S DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50182] = ["ISOOH DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50183] = ["MVKOOH DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50184] = ["ORGNIT DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50185] = ["H2 DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50186] = ["s-BuOOH DRY DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50187] = ["NO3 WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50188] = ["N2O5 WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50189] = ["HO2NO2 WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50190] = ["HONO2 WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50191] = ["H2O2 WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50192] = ["HCHO WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50193] = ["HO2 WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50194] = ["MeOO WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50195] = ["MeOOH WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50196] = ["EtOOH WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50197] = ["i-PrOOH WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50198] = ["ISOOH WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50199] = ["ISON WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50200] = ["MGLY WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50201] = ["MVKOOH WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50202] = ["ORGNIT WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50203] = ["CH3OH WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50204] = ["s-BuOOH WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50205] = ["GLY WET DEPOSITION (3D)", "", "", "", ""] +atm_stashvar[50206] = ["O3 as Offline oxidant (MMR)", "", "", "", ""] +atm_stashvar[50207] = ["OH as Offline oxidant (MMR)", "", "", "", ""] +atm_stashvar[50208] = ["NO3 as Offline oxidant (MMR)", "", "", "", ""] +atm_stashvar[50209] = ["HO2 as Offline oxidant (MMR)", "", "", "", ""] +atm_stashvar[50210] = ["H2O2 as Offline oxidant (MMR)", "", "", "", ""] +atm_stashvar[50211] = ["Monoterp surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50212] = ["NVOC surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50213] = ["NH3 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50214] = ["DMS surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50215] = ["SO2 surf emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50216] = ["SO2 high lev emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50217] = ["SO2 natural emissions (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50218] = ["Nitric Acid Trihydrate (kg/kg)", "", "", "", ""] +atm_stashvar[50219] = ["Ozone column in Dobson Units", "", "", "", ""] +atm_stashvar[50220] = ["Tropospheric CH4 burden in moles", "", "", "", ""] +atm_stashvar[50221] = ["Tropospheric O3 burden in moles", "", "", "", ""] +atm_stashvar[50222] = ["Tropospheric OH burden in moles", "", "", "", ""] +atm_stashvar[50223] = ["Stratospheric CH4 burden in moles", "", "", "", ""] +atm_stashvar[50224] = ["Pressure of PV-THETA tropopause (Pa)", "", "", "", ""] +atm_stashvar[50226] = ["Stratospheric CH4 loss rate (mol/s)", "", "", "", ""] +atm_stashvar[50227] = ["Total reactive nitrogen, NOy (VMR)", "", "", "", ""] +atm_stashvar[50228] = ["Photolysis rate JO1D (s-1)", "", "", "", ""] +atm_stashvar[50229] = ["Photolysis rate JNO2 (s-1)", "", "", "", ""] +atm_stashvar[50230] = ["Non-methane VOC (ug (C) m-3)", "", "", "", ""] +atm_stashvar[50231] = ["Atmospheric Burden of CH4 in moles", "", "", "", ""] +atm_stashvar[50232] = ["Atmospheric Burden of CO in moles", "", "", "", ""] +atm_stashvar[50233] = ["Atmospheric Burden of N2O in moles", "", "", "", ""] +atm_stashvar[50234] = ["Atmospheric Burden of CFC12 in moles", "", "", "", ""] +atm_stashvar[50235] = ["Atmospheric Burden of CFC11 in moles", "", "", "", ""] +atm_stashvar[50236] = ["Atmospheric Burden of CH3Br in moles", "", "", "", ""] +atm_stashvar[50237] = ["Atmospheric Burden of H2 in moles", "", "", "", ""] +atm_stashvar[50238] = ["H2O production from chemistry", "", "", "", ""] +atm_stashvar[50239] = ["H2O loss from chemistry", "", "", "", ""] +atm_stashvar[50240] = ["Specific humidity change from UKCA", "", "", "", ""] +atm_stashvar[50245] = ["Photolysis rate JO2 (s-1)", "", "", "", ""] +atm_stashvar[50246] = ["Photolysis rate JO3P (s-1)", "", "", "", ""] +atm_stashvar[50247] = ["RXN FLUX: CH4 OXIDATION", "", "", "", ""] +atm_stashvar[50248] = ["RXN FLUX: RC(O)O2+NO2 (PAN PROD)", "", "", "", ""] +atm_stashvar[50249] = ["RXN FLUX: RO2+HO2", "", "", "", ""] +atm_stashvar[50250] = ["RXN FLUX: RO2+NO3", "", "", "", ""] +atm_stashvar[50251] = ["RXN FLUX: RO2+RO2", "", "", "", ""] +atm_stashvar[50254] = ["Gross Chemical Prod: O(1D)", "", "", "", ""] +atm_stashvar[50255] = ["UKCA Theta Grid Cell Volume (m^3)", "", "", "", ""] +atm_stashvar[50256] = ["Aerosol surface area in PSC chem", "", "", "", ""] +atm_stashvar[50300] = ["C5H8 ems-flux chk (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50301] = ["Monoterp ems-flux chk (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50302] = ["MeOH ems-flux chk (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[50303] = ["Me2CO ems-flux chk (kg m-2 s-1)", "", "", "", ""] +atm_stashvar[51001] = ["O3 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51002] = ["NO MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51003] = ["NO3 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51004] = ["NO2 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51005] = ["N2O5 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51006] = ["HO2NO2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51007] = ["HONO2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51008] = ["H2O2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51009] = ["CH4 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51010] = ["CO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51011] = ["HCHO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51012] = ["MeOOH MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51013] = ["HONO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51014] = ["C2H6 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51015] = ["EtOOH MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51016] = ["MeCHO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51017] = ["PAN MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51018] = ["C3H8 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51019] = ["n-PrOOH MASS MIX RATIO ON PRESS LEV", "", "", "", ""] +atm_stashvar[51020] = ["i-PrOOH MASS MIX RATIO ON PRESS LEV", "", "", "", ""] +atm_stashvar[51021] = ["EtCHO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51022] = ["Me2CO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51023] = ["MeCOCH2OOH MASS MIX RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51024] = ["PPAN MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51025] = ["MeONO2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51026] = ["O3S MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51027] = ["C5H8 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51028] = ["ISOOH MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51029] = ["ISON MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51030] = ["MACR MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51031] = ["MACROOH MASS MIX RATIO ON PRESS LEV", "", "", "", ""] +atm_stashvar[51032] = ["MPAN MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51033] = ["HACET MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51034] = ["MGLY MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51035] = ["NALD MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51036] = ["HCOOH MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51037] = ["MeCO3H MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51038] = ["MeCO2H MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51039] = ["MVK MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51040] = ["MVKOOH MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51041] = ["Cl MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51042] = ["ClO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51043] = ["Cl2O2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51044] = ["OClO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51045] = ["Br MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51047] = ["BrCl MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51048] = ["BrONO2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51049] = ["N2O MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51051] = ["HOCl MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51052] = ["HBr MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51053] = ["HOBr MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51054] = ["ClONO2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51055] = ["CFCl3 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51056] = ["CF2Cl2 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51057] = ["MeBr MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51058] = ["N MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51059] = ["O3P MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51060] = ["ORGNIT MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51069] = ["CH3OH MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51070] = ["H2 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51071] = ["DMS MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51072] = ["SO2 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51073] = ["H2SO4 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51074] = ["MSA MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51075] = ["DMSO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51076] = ["NH3 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51077] = ["CS2 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51078] = ["COS MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51079] = ["H2S MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51080] = ["H MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51081] = ["OH MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51082] = ["HO2 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51083] = ["MeOO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51084] = ["EtOO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51085] = ["MeCO3 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51086] = ["n-PrOO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51087] = ["i-PrOO MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51088] = ["EtCO3 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51089] = ["MeCOCH2OO MASS MIX RATIO ON PR LEVS", "", "", "", ""] +atm_stashvar[51090] = ["MeOH MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51091] = ["MONOTERPENE MMR ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[51092] = ["SEC_ORG MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51093] = ["C3H6 MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51094] = ["SO3 MASS MIXING RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51095] = ["C4H9OOH MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51096] = ["MEK MASS MIX RATIO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51097] = ["TOLUENE MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51098] = ["LUMPED N (as NO2) MMR ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51099] = ["LUMPED Br (as BrO) MMR ON P LEVELS", "", "", "", ""] +atm_stashvar[51100] = ["LUMPED Cl (as HCl) MMR ON P LEVELS", "", "", "", ""] +atm_stashvar[51101] = ["NUCL MODE (SOL) NUMBER ON PRESS LEV", "", "", "", ""] +atm_stashvar[51102] = ["NUCL MODE (SOL) H2SO4 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51103] = ["AITK MODE (SOL) NUMBER ON PRESS LEV", "", "", "", ""] +atm_stashvar[51104] = ["AITK MODE (SOL) H2SO4 ON PRESS LEV", "", "", "", ""] +atm_stashvar[51105] = ["AITK MODE (SOL) BC ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51106] = ["AITK MODE (SOL) OM ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51107] = ["ACCUM MODE (SOL) NBR ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51108] = ["ACCUM MODE (SOL) H2SO4 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51109] = ["ACCUM MODE (SOL) BC ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51110] = ["ACCUM MODE (SOL) OM ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51111] = ["ACCUM MODE (SOL) SEASALT ON PR LEVS", "", "", "", ""] +atm_stashvar[51112] = ["ACCUM MODE (SOL) DUST ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51113] = ["COARSE MODE (SOL) NBR ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51114] = ["COARSE MODE (SOL) H2SO4 ON PRS LEVS", "", "", "", ""] +atm_stashvar[51115] = ["COARSE MODE (SOL) BC ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51116] = ["COARSE MODE (SOL) OM ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51117] = ["COARSE MODE (SOL) SEASALT ON PR LEV", "", "", "", ""] +atm_stashvar[51118] = ["COARSE MODE (SOL) DUST ON PRES LEVS", "", "", "", ""] +atm_stashvar[51119] = ["AITK MODE (INS) NBR ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51120] = ["AITK MODE (INS) BC ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51121] = ["AITK MODE (INS) OM ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51122] = ["ACCUM MODE (INS) NBR ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51123] = ["ACCUM MODE (INS) DUST ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51124] = ["COARSE MODE (INS) NBR ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51125] = ["COARSE MODE (INS) DUST ON PRESS LEV", "", "", "", ""] +atm_stashvar[51126] = ["NUCL MODE (SOL) OM ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51127] = ["AITK MODE (SOL) SEASALT ON PRS LEVS", "", "", "", ""] +atm_stashvar[51128] = ["NUCL MODE (SOL) OM2 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51129] = ["AITK MODE (SOL) OM2 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51130] = ["ACCUM MODE (SOL) OM2 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51131] = ["COARSE MODE (SOL) OM2 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51132] = ["NUCL MODE (SOL) NH4 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51133] = ["AITK MODE (SOL) NH4 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51134] = ["ACCUM MODE (SOL) NH4 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51135] = ["COARSE MODE (SOL) NH4 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51136] = ["NUCL MODE (SOL) NO3 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51137] = ["AITK MODE (SOL) NO3 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51138] = ["ACCUM MODE (SOL) NO3 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51139] = ["COARSE MODE (SOL) NO3 ON PRESS LEVS", "", "", "", ""] +atm_stashvar[51149] = ["PASSIVE O3 MMR ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[51150] = ["AGE OF AIR (SEC) ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[51151] = ["UKCA NON-TRANS SPEC 151 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51152] = ["UKCA NON-TRANS SPEC 152 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51153] = ["UKCA NON-TRANS SPEC 153 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51154] = ["UKCA NON-TRANS SPEC 154 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51155] = ["UKCA NON-TRANS SPEC 155 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51156] = ["UKCA NON-TRANS SPEC 156 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51157] = ["UKCA NON-TRANS SPEC 157 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51158] = ["UKCA NON-TRANS SPEC 158 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51159] = ["UKCA NON-TRANS SPEC 159 IN PLEV RETD", "", "", "", ""] +atm_stashvar[51160] = ["UKCA NON-TRANS SPEC 160 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51161] = ["UKCA NON-TRANS SPEC 161 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51162] = ["UKCA NON-TRANS SPEC 162 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51163] = ["UKCA NON-TRANS SPEC 163 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51164] = ["UKCA NON-TRANS SPEC 164 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51165] = ["UKCA NON-TRANS SPEC 165 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51166] = ["UKCA NON-TRANS SPEC 166 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51167] = ["UKCA NON-TRANS SPEC 167 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51168] = ["UKCA NON-TRANS SPEC 168 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51169] = ["UKCA NON-TRANS SPEC 169 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51170] = ["UKCA NON-TRANS SPEC 170 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51171] = ["UKCA NON-TRANS SPEC 171 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51172] = ["UKCA NON-TRANS SPEC 172 ON PLEV RETD", "", "", "", ""] +atm_stashvar[51921] = ["DRY PARTICLE DIAMETER AITKEN-SOL", "", "", "", ""] +atm_stashvar[51922] = ["DRY PARTICLE DIAMETER ACCUMULATN-SOL", "", "", "", ""] +atm_stashvar[51923] = ["DRY PARTICLE DIAMETER COARSE-SOL", "", "", "", ""] +atm_stashvar[51924] = ["DRY PARTICLE DIAMETER AITKEN-INS", "", "", "", ""] +atm_stashvar[51925] = ["DRY PARTICLE DIAMETER ACCUMULATN-INS", "", "", "", ""] +atm_stashvar[51926] = ["DRY PARTICLE DIAMETER COARSE-INSOL", "", "", "", ""] +atm_stashvar[51927] = ["WET PARTICLE DIAMETER AITKEN-SOL", "", "", "", ""] +atm_stashvar[51928] = ["WET PARTICLE DIAMETER ACCUMULATN-SOL", "", "", "", ""] +atm_stashvar[51929] = ["WET PARTICLE DIAMETER COARSE-SOL", "", "", "", ""] +atm_stashvar[51930] = ["PTCL MASS DENSITY AITKEN-SOL (WET)", "", "", "", ""] +atm_stashvar[51931] = ["PTCL MASS DENSITY ACCUM.-SOL (WET)", "", "", "", ""] +atm_stashvar[51932] = ["PTCL MASS DENSITY COARSE-SOL (WET)", "", "", "", ""] +atm_stashvar[51933] = ["PTCL MASS DENSITY AITKEN-INS", "", "", "", ""] +atm_stashvar[51934] = ["PTCL MASS DENSITY ACCUM.-INS", "", "", "", ""] +atm_stashvar[51935] = ["PTCL MASS DENSITY COARSE-INS", "", "", "", ""] +atm_stashvar[51936] = ["H2SO4 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[51937] = ["BC PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[51938] = ["OM1 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[51939] = ["NO3 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[51940] = ["OM2 PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[51941] = ["H2O PARTIAL VOLUME CONC (AIT-SOL)", "", "", "", ""] +atm_stashvar[51942] = ["H2SO4 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51943] = ["BC PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51944] = ["OM1 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51945] = ["SS PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51946] = ["NO3 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51947] = ["DU PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51948] = ["OM2 PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51949] = ["CL PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51950] = ["NA PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51951] = ["H2O PARTIAL VOLUME CONC (ACC-SOL)", "", "", "", ""] +atm_stashvar[51952] = ["H2SO4 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51953] = ["BC PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51954] = ["OM1 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51955] = ["SSALT PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51956] = ["NO3 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51957] = ["DU PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51958] = ["OM2 PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51959] = ["CL PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51960] = ["NA PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51961] = ["H2O PARTIAL VOLUME CONC (COR-SOL)", "", "", "", ""] +atm_stashvar[51962] = ["BC PARTIAL VOLUME CONC (AIT-INS)", "", "", "", ""] +atm_stashvar[51963] = ["OM1 PARTIAL VOLUME CONC (AIT-INS)", "", "", "", ""] +atm_stashvar[51964] = ["DU PARTIAL VOLUME CONC (ACC-INS)", "", "", "", ""] +atm_stashvar[51965] = ["DU PARTIAL VOLUME CONC (COR-INS)", "", "", "", ""] +atm_stashvar[51966] = ["Aero surf area (cm2/cm3) ON P LEVS", "", "", "", ""] +atm_stashvar[51967] = ["CDNC. ^-1/3 (m-1) ON P LEVELS", "", "", "", ""] +atm_stashvar[51968] = ["CDNC (m-3) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[51969] = ["Stratospheric HO2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51970] = ["Stratospheric OH MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51971] = ["Stratospheric O(1D) MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51972] = ["Stratospheric O(3P) MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51973] = ["HO2 loss on aerosol (s-1) ON P LEVS", "", "", "", ""] +atm_stashvar[51974] = ["N2O5 loss on aerosol (s-1) ON P LEVS", "", "", "", ""] +atm_stashvar[51975] = ["HOC6H5CH3O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51976] = ["HOC5H8O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51977] = ["CH3COCH(O2)CH2OH MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51978] = ["CHOCH(OH)CO2CH3CHO MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51979] = ["C6H5CH2O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51980] = ["CH3CHO2CH2OH MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51981] = ["CH2O2CH2OH MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51982] = ["CH3COCH(O2)CH3 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51983] = ["CH3COCH2O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51984] = ["CH3COC2O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51985] = ["C2H5COO2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51986] = ["i-C2H7O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51987] = ["s-C4H9O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51988] = ["n-C2H7O2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51989] = ["CH3COO2 MMR ON P LEVS", "", "", "", ""] +atm_stashvar[51990] = ["C2H5O2 MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51991] = ["CH3O2 MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51992] = ["HCl MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51993] = ["HO2 MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51994] = ["BrO MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51995] = ["OH MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51996] = ["NO2 MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51997] = ["O(1D) MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51998] = ["O(3P) MASS MIXING RATIO ON P LEVS", "", "", "", ""] +atm_stashvar[51999] = ["HEAVYSIDE FUNC FOR P LEVEL DIAGS", "", "", "", ""] +atm_stashvar[52001] = ["Ox PRD:HO2+NO ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52002] = ["Ox PRD:MeOO+NO ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52003] = ["Ox PRD:NO+RO2 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52004] = ["Ox PRD:OH+INORG ACID ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52005] = ["Ox PRD:OH+ORG NITR ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52006] = ["Ox PRD:ORG NITR PHOT ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52007] = ["Ox PRD:OH+PAN REACN ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52011] = ["Ox LOSS:O(1D)+H2O ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52012] = ["Ox LOSS:MINOR REACN ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52013] = ["Ox LOSS:HO2+O3 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52014] = ["Ox LOSS:OH+O3 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52015] = ["Ox LOSS:O3+ALK ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52016] = ["Ox LOSS:N2O5+H2O ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52017] = ["Ox LOSS:NO3 CHEM LOSS ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52021] = ["Ox BDGT:O3 DRY DEP(3D) ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52022] = ["Ox BDGT:NOy DRY DEP(3D) ON PRESS LEV", "", "", "", ""] +atm_stashvar[52031] = ["Ox BDGT:NOy WET DEP(3D) ON PRESS LEV", "", "", "", ""] +atm_stashvar[52041] = ["FLUX:OH+CH4 (CH4 LIFETIME) ON PR LEV", "", "", "", ""] +atm_stashvar[52042] = ["FLUX:NO3+C5H8->ISON ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52043] = ["FLUX:NO+ISO2->ISON ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52044] = ["FLUX:H2O2 PROD ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52045] = ["FLUX:ROOH PROD ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52046] = ["FLUX:HONO2 PROD (HNO3) ON PRES LEVS", "", "", "", ""] +atm_stashvar[52051] = ["STE: O3 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52052] = ["TEND:O3 (TROP ONLY) ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52053] = ["TROPOSPHERIC O3 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52054] = ["TEND:O3 (WHOLE ATMOS) ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52061] = ["AIR MASS DIAG(TROP) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52062] = ["TROPOSPHERIC MASK ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52063] = ["AIR MASS DIAG(WHOLE ATM) ON PRS LEV", "", "", "", ""] +atm_stashvar[52071] = ["CO BDG:LOSS OH+CO ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52072] = ["CO BDG:PROD HCHO+OH/NO3 ON PRS LEVS", "", "", "", ""] +atm_stashvar[52073] = ["CO BDG:PROD MGLY+OH/NO3 ON PRS LEVS", "", "", "", ""] +atm_stashvar[52074] = ["CO BDG: MISC PROD ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52075] = ["CO BDG:PROD HCHO PHOT RAD ON PR LEVS", "", "", "", ""] +atm_stashvar[52076] = ["CO BDG:PROD HCHO PHOT MOL ON PR LEVS", "", "", "", ""] +atm_stashvar[52077] = ["CO BDG:PROD MGLY PHOT ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52078] = ["CO BDG:PROD MISC PHOT ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52079] = ["CO BDG:CO DRY DEP(3D) ON PRESS LEVEL", "", "", "", ""] +atm_stashvar[52081] = ["LIT NOx EMISS 3D ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52091] = ["STRAT OH PROD ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52092] = ["STRAT OH LOSS ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52101] = ["STRO3 PRD:O2+PHOT O(3P) ON PRESS LEV", "", "", "", ""] +atm_stashvar[52102] = ["STRO3 PRD:O2+PHOT O(1D) ON PRESS LEV", "", "", "", ""] +atm_stashvar[52103] = ["STRO3 PRD: HO2+NO ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52104] = ["STRO3 PRD: MeOO+NO ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52111] = ["STRO3 LOSS:Cl2O2+PHOT ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52112] = ["STRO3 LOSS:BrO+ClO ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52113] = ["STRO3 LOSS:HO2+O3 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52114] = ["STRO3 LOSS:ClO+HO2 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52115] = ["STRO3 LOSS:BrO+HO2 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52116] = ["STRO3 LOSS:O3P+ClO ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52117] = ["STRO3 LOSS:O3P+NO2 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52118] = ["STRO3 LOSS:O3P+HO2 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52119] = ["STRO3 LOSS:O3+H ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52120] = ["STRO3 LOSS:O3P+O3 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52121] = ["STRO3 LOSS:NO3+PHOT ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52122] = ["STRO3 LOSS:O1D+H2O ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52123] = ["STRO3 LOSS: HO2+NO3 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52124] = ["STRO3 LOSS: OH+NO3 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52125] = ["STRO3 LOSS: NO3+HCHO ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52131] = ["STRAT MISC:O3 DRY DP(3D) ON PRS LEV", "", "", "", ""] +atm_stashvar[52132] = ["STRAT MISC:NOy DRY DP(3D) ON PRS LEV", "", "", "", ""] +atm_stashvar[52133] = ["STRAT MISC:NOy WET DP(3D) ON PRS LEV", "", "", "", ""] +atm_stashvar[52140] = ["DMS+OH=>SO2+MeOO+HCHO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52141] = ["DMS+OH=>SO2+DMSO+MeOO ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52142] = ["DMS+NO3=>SO2+HONO2+MeOO ON PRESS LEV", "", "", "", ""] +atm_stashvar[52143] = ["DMSO+OH=>SO2+MSA ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52144] = ["CS2+OH=>SO2+COS ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52145] = ["H2S + OH => SO2 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52146] = ["COS + OH => SO2 ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52147] = ["Monoterp+OH=>Sec_org ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52148] = ["Monoterp+O3=>Sec_org ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52149] = ["Monoterp+NO3=>Sec_org ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52150] = ["SO2+OH=>HO2+H2SO4 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52151] = ["SO2 + H2O2 => NULL0 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52152] = ["SO2 + O3 => NULL1 ON PRESS LEVELS", "", "", "", ""] +atm_stashvar[52153] = ["SO2 + O3 => NULL2 ON PRESSURE LEVEL", "", "", "", ""] +atm_stashvar[52154] = ["SO2 DRY DEP (3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52155] = ["SO2 WET DEP (3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52172] = ["NO aircrft ems(kg m-2 s-1) ON PR LEV", "", "", "", ""] +atm_stashvar[52173] = ["NO2 DRY DEP (3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52174] = ["HNO3 DRY DEP (3D) ON PRESSURE LEVEL", "", "", "", ""] +atm_stashvar[52175] = ["H2O2 DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52176] = ["CH4 DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52177] = ["MeOOH DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52178] = ["EtOOH DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52179] = ["PAN DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52180] = ["i-PrOOH DRY DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52181] = ["O3S DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52182] = ["ISOOH DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52183] = ["MVKOOH DRY DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52184] = ["ORGNIT DRY DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52185] = ["H2 DRY DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52186] = ["s-BuOOH DRY DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52187] = ["NO3 WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52188] = ["N2O5 WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52189] = ["HO2NO2 WET DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52190] = ["HONO2 WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52191] = ["H2O2 WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52192] = ["HCHO WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52193] = ["HO2 WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52194] = ["MeOO WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52195] = ["MeOOH WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52196] = ["EtOOH WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52197] = ["i-PrOOH WET DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52198] = ["ISOOH WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52199] = ["ISON WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52200] = ["MGLY WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52201] = ["MVKOOH WET DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52202] = ["ORGNIT WET DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52203] = ["CH3OH WET DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52204] = ["s-BuOOH WET DEP(3D) ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52205] = ["GLY WET DEP(3D) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52206] = ["O3 Offline oxid (MMR) ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52207] = ["OH Offline oxid (MMR) ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52208] = ["NO3 Offline oxid (MMR) ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52209] = ["HO2 Offline oxid (MMR) ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52210] = ["H2O2 Offl oxid (MMR) ON PRESS LEVS", "", "", "", ""] +atm_stashvar[52218] = ["NAT mass mixing ratio on press levs", "", "", "", ""] +atm_stashvar[52219] = ["O3 Column in Dobson Units on p levs", "", "", "", ""] +atm_stashvar[52227] = ["NOy (VMR) ON PRESSURE LEVELS", "", "", "", ""] +atm_stashvar[52228] = ["Photolysis rate JO1D on press levs", "", "", "", ""] +atm_stashvar[52229] = ["Photolysis rate JNO2 on press levs", "", "", "", ""] +atm_stashvar[52230] = ["Non-methane VOC (ug C m-3) on p levs", "", "", "", ""] +atm_stashvar[52245] = ["Photolysis rate JO2 on press levs", "", "", "", ""] +atm_stashvar[52246] = ["Photolysis rate JO3P on press levs", "", "", "", ""] +atm_stashvar[52247] = ["RXN FLUX: CH4 OXIDATION ON PLEVS", "", "", "", ""] +atm_stashvar[52248] = ["RXN: RC(O)O2+NO2 (PAN PROD) ON PLEV", "", "", "", ""] +atm_stashvar[52249] = ["RXN FLUX: RO2+HO2 ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52250] = ["RXN FLUX: RO2+NO3 ON PRESSURE LEVS", "", "", "", ""] +atm_stashvar[52251] = ["RXN FLUX: RO2+RO2 ON PRESSSURE LEVS", "", "", "", ""] +atm_stashvar[52254] = ["Gross Chem Prod : O(1D) On PLEVS", "", "", "", ""] +atm_stashvar[52256] = ["Aerosol surf area in PSC chem plevs", "", "", "", ""] +atm_stashvar[53181] = ["Temperature Inc: Idealised (K/step)", "", "", "", ""] +atm_stashvar[53182] = ["water vapour Inc: Ideal (kg/kg/step)", "", "", "", ""] +atm_stashvar[53185] = ["U wind Inc: Idealised (m/s/step)", "", "", "", ""] +atm_stashvar[53186] = ["V wind Inc: Idealised (m/s/step)", "", "", "", ""] +atm_stashvar[53190] = ["Pot. temp. Inc: Idealised (K/step)", "", "", "", ""] +atm_stashvar[53201] = ["Column vapour added: Ideal (kg/m2/s)", "", "", "", ""] +atm_stashvar[53202] = ["Potential temperature ref. prof (K)", "", "", "", ""] +atm_stashvar[53203] = ["Water vapour reference profile kg/kg", "", "", "", ""] +atm_stashvar[53204] = ["U wind reference profile (m/s)", "", "", "", ""] +atm_stashvar[53205] = ["V wind reference profile (m/s)", "", "", "", ""] +atm_stashvar[53206] = ["Col energy change due to dT (J/m2)", "", "", "", ""] +atm_stashvar[53207] = ["Col energy change due to dU (J/m2)", "", "", "", ""] +atm_stashvar[53208] = ["Col energy change due to dV (J/m2)", "", "", "", ""] +atm_stashvar[54101] = ["NUCLEATION MODE (SOL) NUMBER CLIM", "", "", "", ""] +atm_stashvar[54102] = ["NUCLEATION MODE (SOL) H2SO4 MMR CLIM", "", "", "", ""] +atm_stashvar[54103] = ["AITKEN MODE (SOL) NUMBER CLIM", "", "", "", ""] +atm_stashvar[54104] = ["AITKEN MODE (SOL) H2SO4 MMR CLIM", "", "", "", ""] +atm_stashvar[54105] = ["AITKEN MODE (SOL) BC MMR CLIM", "", "", "", ""] +atm_stashvar[54106] = ["AITKEN MODE (SOL) OM MMR CLIM", "", "", "", ""] +atm_stashvar[54107] = ["ACCUMULATION MODE (SOL) NUMBER CLIM", "", "", "", ""] +atm_stashvar[54108] = ["ACCUMULATION MODE(SOL)H2SO4 MMR CLIM", "", "", "", ""] +atm_stashvar[54109] = ["ACCUMULATION MODE (SOL) BC MMR CLIM", "", "", "", ""] +atm_stashvar[54110] = ["ACCUMULATION MODE (SOL) OM MMR CLIM", "", "", "", ""] +atm_stashvar[54111] = ["ACC MODE (SOL) SEA SALT MMR CLIM", "", "", "", ""] +atm_stashvar[54112] = ["ACCUMULATION MODE(SOL) DUST MMR CLIM", "", "", "", ""] +atm_stashvar[54113] = ["COARSE MODE (SOLUBLE) NUMBER CLIM", "", "", "", ""] +atm_stashvar[54114] = ["COARSE MODE (SOLUBLE) H2SO4 MMR CLIM", "", "", "", ""] +atm_stashvar[54115] = ["COARSE MODE (SOLUBLE) BC MMR CLIM", "", "", "", ""] +atm_stashvar[54116] = ["COARSE MODE (SOLUBLE) OM MMR CLIM", "", "", "", ""] +atm_stashvar[54117] = ["COARSE MODE (SOL) SEA SALT MMR CLIM", "", "", "", ""] +atm_stashvar[54118] = ["COARSE MODE (SOLUBLE) DUST MMR CLIM", "", "", "", ""] +atm_stashvar[54119] = ["AITKEN MODE (INSOLUBLE) NUMBER CLIM", "", "", "", ""] +atm_stashvar[54120] = ["AITKEN MODE (INSOLUBLE) BC MMR CLIM", "", "", "", ""] +atm_stashvar[54121] = ["AITKEN MODE (INSOLUBLE) OM MMR CLIM", "", "", "", ""] +atm_stashvar[54122] = ["ACCUMULATION MODE (INSOL)NUMBER CLIM", "", "", "", ""] +atm_stashvar[54123] = ["ACCUMULATION MODE (INSOL) DUST CLIM", "", "", "", ""] +atm_stashvar[54124] = ["COARSE MODE (INSOLUBLE) NUMBER CLIM", "", "", "", ""] +atm_stashvar[54125] = ["COARSE MODE (INSOL) DUST MMR CLIM", "", "", "", ""] +atm_stashvar[54126] = ["NUCLEATION MODE (SOL) OM MMR CLIM", "", "", "", ""] +atm_stashvar[54127] = ["AITKEN MODE (SOL) SEA SALT MMR CLIM", "", "", "", ""] +atm_stashvar[54128] = ["NUCLEATION MODE (SOL) OM2 MMR CLIM", "", "", "", ""] +atm_stashvar[54129] = ["AITKEN MODE (SOL) OM2 MMR CLIM", "", "", "", ""] +atm_stashvar[54130] = ["ACCUMULATION MODE (SOL) OM2 MMR CLIM", "", "", "", ""] +atm_stashvar[54131] = ["COARSE MODE (SOLUBLE) OM2 MMR CLIM", "", "", "", ""] +atm_stashvar[54132] = ["NUCLEATION MODE (SOL) NH4 MMR CLIM", "", "", "", ""] +atm_stashvar[54133] = ["AITKEN MODE (SOLUBLE) NH4 MMR CLIM", "", "", "", ""] +atm_stashvar[54134] = ["ACCUMULATION MODE (SOL) NH4 MMR CLIM", "", "", "", ""] +atm_stashvar[54135] = ["COARSE MODE (SOLUBLE) NH4 MMR CLIM", "", "", "", ""] +atm_stashvar[54136] = ["NUCLEATION MODE (SOL) NO3 MMR CLIM", "", "", "", ""] +atm_stashvar[54137] = ["AITKEN MODE (SOLUBLE) NO3 MMR CLIM", "", "", "", ""] +atm_stashvar[54138] = ["ACCUMULATION MODE (SOL) NO3 MMR CLIM", "", "", "", ""] +atm_stashvar[54139] = ["COARSE MODE (SOLUBLE) NO3 MMR CLIM", "", "", "", ""] +atm_stashvar[54476] = ["GC CLOUD LIQUID FRACTION", "", "", "", ""] +atm_stashvar[54477] = ["GC TOTAL CDNC * CLOUD LIQ FRACTION", "", "", "", ""] +atm_stashvar[54921] = ["DRY PARTICLE DIAMETER AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54922] = ["DRY PARTICLE DIAMETER ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54923] = ["DRY PARTICLE DIAMETER COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54924] = ["DRY PARTICLE DIAMETER AIT-INS CLIM", "", "", "", ""] +atm_stashvar[54925] = ["DRY PARTICLE DIAMETER ACC-INS CLIM", "", "", "", ""] +atm_stashvar[54926] = ["DRY PARTICLE DIAMETER COR-INS CLIM", "", "", "", ""] +atm_stashvar[54927] = ["WET PARTICLE DIAMETER AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54928] = ["WET PARTICLE DIAMETER ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54929] = ["WET PARTICLE DIAMETER COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54930] = ["PTCL MASS DENSITY AIT-SOL CLIM (WET)", "", "", "", ""] +atm_stashvar[54931] = ["PTCL MASS DENSITY ACC-SOL CLIM (WET)", "", "", "", ""] +atm_stashvar[54932] = ["PTCL MASS DENSITY COR-SOL CLIM (WET)", "", "", "", ""] +atm_stashvar[54933] = ["PTCL MASS DENSITY AIT-INS CLIM", "", "", "", ""] +atm_stashvar[54934] = ["PTCL MASS DENSITY ACC-INS CLIM", "", "", "", ""] +atm_stashvar[54935] = ["PTCL MASS DENSITY COR-INS CLIM", "", "", "", ""] +atm_stashvar[54936] = ["H2SO4 PARTIAL VOL CONC AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54937] = ["BC PARTIAL VOLUME CONC AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54938] = ["OM1 PARTIAL VOLUME CONC AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54939] = ["NO3 PARTIAL VOLUME CONC AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54940] = ["OM2 PARTIAL VOLUME CONC AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54941] = ["H2O PARTIAL VOLUME CONC AIT-SOL CLIM", "", "", "", ""] +atm_stashvar[54942] = ["H2SO4 PARTIAL VOL CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54943] = ["BC PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54944] = ["OM1 PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54945] = ["SS PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54946] = ["NO3 PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54947] = ["DU PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54948] = ["OM2 PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54949] = ["CL PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54950] = ["NA PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54951] = ["H2O PARTIAL VOLUME CONC ACC-SOL CLIM", "", "", "", ""] +atm_stashvar[54952] = ["H2SO4 PARTIAL VOL CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54953] = ["BC PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54954] = ["OM1 PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54955] = ["SS PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54956] = ["NO3 PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54957] = ["DU PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54958] = ["OM2 PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54959] = ["CL PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54960] = ["NA PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54961] = ["H2O PARTIAL VOLUME CONC COR-SOL CLIM", "", "", "", ""] +atm_stashvar[54962] = ["BC PARTIAL VOLUME CONC AIT-INS CLIM", "", "", "", ""] +atm_stashvar[54963] = ["OM1 PARTIAL VOLUME CONC AIT-INS CLIM", "", "", "", ""] +atm_stashvar[54964] = ["DU PARTIAL VOLUME CONC ACC-INS CLIM", "", "", "", ""] +atm_stashvar[54965] = ["DU PARTIAL VOLUME CONC COR-INS CLIM", "", "", "", ""] +atm_stashvar[54967] = ["CLOUD DROP. No. CONC. ^-1/3 m-1 CLIM", "", "", "", ""] +atm_stashvar[54968] = ["CLOUD DROP. No. CONC. (m-3) CLIM", "", "", "", ""] + +class StashVar: + + def __init__(self, code, model=1): + # Allow this to be 0 to support some ancillary files + if model in [0, 1]: + # Should this be trapped so that we can return None? + try: + var = atm_stashvar[code] + except KeyError: + var = ["UNKNOWN VARIABLE","", "", "", ""] + else: + raise Exception("Model type %d not supported at the moment" % model) + self.long_name = var[0] + # Should there be a dictionary somewhere so this returns a unique + # set of names? unique as an optional argument? + if var[1]: + self.name = var[1] + else: + self.name = "field%d" % code + self.units = var[2] + self.standard_name = var[3] + self.code = code + if var[4]: + self.uniquename = var[4] + else: + self.uniquename = self.name diff --git a/subroutines/um2netcdf4.py b/subroutines/um2netcdf4.py new file mode 100755 index 0000000..21067d7 --- /dev/null +++ b/subroutines/um2netcdf4.py @@ -0,0 +1,398 @@ +#!/usr/bin/env python + +import iris, numpy as np, datetime, sys +import stashvar_cmip6 as stashvar +from iris.coords import CellMethod +import cf_units, cftime, mule +from netCDF4 import default_fillvals +from iris.fileformats.pp import PPField + +# Override the PP file calendar function to use Proleptic Gregorian rather than Gregorian. +# This matters for control runs with model years < 1600. +@property +def pg_calendar(self): + """Return the calendar of the field.""" + # TODO #577 What calendar to return when ibtim.ic in [0, 3] + calendar = cf_units.CALENDAR_PROLEPTIC_GREGORIAN + if self.lbtim.ic == 2: + calendar = cf_units.CALENDAR_360_DAY + elif self.lbtim.ic == 4: + calendar = cf_units.CALENDAR_365_DAY + return calendar +PPField.calendar = pg_calendar + +def convert_proleptic(time): + # Convert units from hours to days and shift origin from 1970 to 0001 + newunits = cf_units.Unit("days since 0001-01-01 00:00", calendar='proleptic_gregorian') + # Need a copy because can't assign to time.points[i] + tvals = np.array(time.points) + if time.bounds is not None: + tbnds = np.array(time.bounds) + has_bnds = True + else: + has_bnds = False + for i in range(len(time.points)): + date = time.units.num2date(tvals[i]) + newdate = cftime.DatetimeProlepticGregorian(date.year, date.month, date.day, date.hour, date.minute, date.second) + tvals[i] = newunits.date2num(newdate) + if has_bnds: # Fields with instantaneous data don't have bounds + for j in range(2): + date = time.units.num2date(tbnds[i][j]) + newdate = cftime.DatetimeProlepticGregorian(date.year, date.month, date.day, date.hour, date.minute, date.second) + tbnds[i][j] = newunits.date2num(newdate) + time.points = tvals + if has_bnds: + time.bounds = tbnds + time.units = newunits + +def fix_latlon_coord(cube, grid_type, dlat, dlon): + def _add_coord_bounds(coord): + if len(coord.points) > 1: + if not coord.has_bounds(): + coord.guess_bounds() + else: + # For length 1, assume it's global. guess_bounds doesn't work in this case + if coord.name() == 'latitude': + if not coord.has_bounds(): + coord.bounds = np.array([[-90.,90.]]) + elif coord.name() == 'longitude': + if not coord.has_bounds(): + coord.bounds = np.array([[0.,360.]]) + + lat = cube.coord('latitude') + # Force to double for consistency with CMOR + lat.points = lat.points.astype(np.float64) + _add_coord_bounds(lat) + lon = cube.coord('longitude') + lon.points = lon.points.astype(np.float64) + _add_coord_bounds(lon) + + lat = cube.coord('latitude') + if len(lat.points) == 180: + lat.var_name = 'lat_river' + elif (lat.points[0] == -90 and grid_type == 'EG') or \ + (np.allclose(-90.+0.5*dlat, lat.points[0]) and grid_type == 'ND'): + lat.var_name = 'lat_v' + else: + lat.var_name = 'lat' + + lon = cube.coord('longitude') + if len(lon.points) == 360: + lon.var_name = 'lon_river' + elif (lon.points[0] == 0 and grid_type == 'EG') or \ + (np.allclose(0.5*dlon, lon.points[0]) and grid_type == 'ND'): + lon.var_name = 'lon_u' + else: + lon.var_name = 'lon' + +def fix_level_coord(cube, z_rho, z_theta): + # Rename model_level_number coordinates to better distinguish rho and theta levels + try: + c_lev = cube.coord('model_level_number') + c_height = cube.coord('level_height') + c_sigma = cube.coord('sigma') + except iris.exceptions.CoordinateNotFoundError: + c_lev = None + if c_lev: + d_rho = abs(c_height.points[0]-z_rho) + if d_rho.min() < 1e-6: + c_lev.var_name = 'model_rho_level_number' + c_height.var_name = 'rho_level_height' + c_sigma.var_name = 'sigma_rho' + else: + d_theta = abs(c_height.points[0]-z_theta) + if d_theta.min() < 1e-6: + c_lev.var_name = 'model_theta_level_number' + c_height.var_name = 'theta_level_height' + c_sigma.var_name = 'sigma_theta' + + +def cubewrite(cube, sman, compression, use64bit, verbose): + try: + plevs = cube.coord('pressure') + plevs.attributes['positive'] = 'down' + plevs.convert_units('Pa') + # Otherwise they're off by 1e-10 which looks odd in ncdump + plevs.points = np.round(plevs.points,5) + if plevs.points[0] < plevs.points[-1]: + # Flip to get pressure decreasing as in CMIP6 standard + cube = iris.util.reverse(cube, 'pressure') + except iris.exceptions.CoordinateNotFoundError: + pass + if not use64bit: + if cube.data.dtype == 'float64': + cube.data = cube.data.astype(np.float32) + elif cube.data.dtype == 'int64': + cube.data = cube.data.astype(np.int32) + + # Set the missing_value attribute. Use an array to force the type to match + # the data type + if cube.data.dtype.kind == 'f': + fill_value = 1.e20 + else: + # Use netCDF defaults + fill_value = default_fillvals['%s%1d' % (cube.data.dtype.kind, cube.data.dtype.itemsize)] + + cube.attributes['missing_value'] = np.array([fill_value], cube.data.dtype) + + # If reference date is before 1600 use proleptic gregorian + # calendar and change units from hours to days + try: + reftime = cube.coord('forecast_reference_time') + time = cube.coord('time') + refdate = reftime.units.num2date(reftime.points[0]) + assert time.units.origin == 'hours since 1970-01-01 00:00:00' + if time.units.calendar == 'proleptic_gregorian' and refdate.year < 1600: + convert_proleptic(time) + else: + if time.units.calendar == 'gregorian': + new_calendar = 'proleptic_gregorian' + else: + new_calendar = time.units.calendar + time.units = cf_units.Unit("days since 1970-01-01 00:00", calendar=new_calendar) + time.points = time.points/24. + if time.bounds is not None: + time.bounds = time.bounds/24. + cube.remove_coord('forecast_period') + cube.remove_coord('forecast_reference_time') + except iris.exceptions.CoordinateNotFoundError: + # Dump files don't have forecast_reference_time + pass + + # Check whether any of the coordinates is a pseudo-dimension + # with integer values and if so reset to int32 to prevent + # problems with possible later conversion to netCDF3 + for coord in cube.coords(): + if coord.points.dtype == np.int64: + coord.points = coord.points.astype(np.int32) + + try: + # If time is a dimension but not a coordinate dimension, coord_dims('time') returns an empty tuple + if tdim := cube.coord_dims('time'): + # For fields with a pseudo-level, time may not be the first dimension + if tdim != (0,): + tdim = tdim[0] + neworder = list(range(cube.ndim)) + neworder.remove(tdim) + neworder.insert(0,tdim) + if verbose > 1: + print("Incorrect dimension order", cube) + print("Transpose to", neworder) + cube.transpose(neworder) + sman.write(cube, zlib=True, complevel=compression, unlimited_dimensions=['time'], fill_value=fill_value) + else: + tmp = iris.util.new_axis(cube,cube.coord('time')) + sman.write(tmp, zlib=True, complevel=compression, unlimited_dimensions=['time'], fill_value=fill_value) + except iris.exceptions.CoordinateNotFoundError: + # No time dimension (probably ancillary file) + sman.write(cube, zlib=True, complevel=compression, fill_value=fill_value) + +def fix_cell_methods(mtuple): + # Input is tuple of cell methods + newm = [] + for m in mtuple: + newi = [] + for i in m.intervals: + # Skip the misleading hour intervals + if i.find('hour') == -1: + newi.append(i) + n = CellMethod(m.method, m.coord_names, tuple(newi), m.comments) + newm.append(n) + return tuple(newm) + +def apply_mask(c, heaviside, hcrit): + # Function must handle case where the cube is defined on only a subset of the levels of the heaviside function + # print("Apply mask", c.shape, heaviside.shape) + if c.shape == heaviside.shape: + # If the shapes match it's simple + # Temporarily turn off warnings from 0/0 + with np.errstate(divide='ignore',invalid='ignore'): + c.data = np.ma.masked_array(c.data/heaviside.data, heaviside.data <= hcrit).astype(np.float32) + else: + # Are the levels of c a subset of the levels of the heaviside variable? + c_p = c.coord('pressure') + h_p = heaviside.coord('pressure') + # print('Levels for masking', c_p.points, h_p.points) + if set(c_p.points).issubset(h_p.points): + # Match is possible + constraint = iris.Constraint(pressure=c_p.points) + h_tmp = heaviside.extract(constraint) + # Double check they're aactually the same after extraction + if not np.all(c_p.points == h_tmp.coord('pressure').points): + raise Exception('Unexpected mismatch in levels of extracted heaviside function') + with np.errstate(divide='ignore',invalid='ignore'): + c.data = np.ma.masked_array(c.data/h_tmp.data, h_tmp.data <= hcrit).astype(np.float32) + else: + raise Exception('Unable to match levels of heaviside function to variable %s' % c.name()) + +def process(infile, outfile, args): + + # Use mule to get the model levels to help with dimension naming + # mule 2020.01.1 doesn't handle pathlib Paths properly + ff = mule.load_umfile(str(infile)) + if ff.fixed_length_header.grid_staggering == 6: + grid_type = 'EG' + elif ff.fixed_length_header.grid_staggering == 3: + grid_type = 'ND' + else: + raise Exception("Unable to determine grid staggering from header %d" % + ff.fixed_length_header.grid_staggering) + dlat = ff.real_constants.row_spacing + dlon = ff.real_constants.col_spacing + z_rho = ff.level_dependent_constants.zsea_at_rho + z_theta = ff.level_dependent_constants.zsea_at_theta + + if args.include_list and args.exclude_list: + raise Exception("Error: include list and exclude list are mutually exclusive") + cubes = iris.load(infile) + + # Sort the list by stashcode + def keyfunc(c): + return c.attributes['STASH'] + cubes.sort(key=keyfunc) + + # Check whether there are any pressure level fields that should be + # masked. Can use temperature to mask instantaneous fields, so really + # should check whether these are time means + need_heaviside_uv = need_heaviside_t = False + have_heaviside_uv = have_heaviside_t = False + for c in cubes: + stashcode = c.attributes['STASH'] + if ( stashcode.section == 30 and + ( 201 <= stashcode.item <= 288 or 302 <= stashcode.item <= 303 )): + need_heaviside_uv = True + if stashcode.section == 30 and stashcode.item == 301: + have_heaviside_uv = True + heaviside_uv = c + if ( stashcode.section == 30 and 293 <= stashcode.item <= 298): + need_heaviside_t = True + if stashcode.section == 30 and stashcode.item == 304: + have_heaviside_t = True + heaviside_t = c + + if not args.nomask and need_heaviside_uv and not have_heaviside_uv: + print("""Warning - heaviside_uv field needed for masking pressure level data is not present. + These fields will be skipped""") + if not args.nomask and need_heaviside_t and not have_heaviside_t: + print("""Warning - heaviside_t field needed for masking pressure level data is not present. + These fields will be skipped""") + + nc_formats = {1: 'NETCDF3_CLASSIC', 2: 'NETCDF3_64BIT', + 3: 'NETCDF4', 4: 'NETCDF4_CLASSIC'} + with iris.fileformats.netcdf.Saver(outfile, nc_formats[args.nckind]) as sman: + + # Add global attributes + if not args.nohist: + history = "File %s converted with um2netcdf_iris.py v2.1 at %s" % \ + (infile, datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S")) + sman.update_global_attributes({'history':history}) + sman.update_global_attributes({'Conventions':'CF-1.6'}) + + for c in cubes: + stashcode = c.attributes['STASH'] + itemcode = 1000*stashcode.section + stashcode.item + if args.include_list and itemcode not in args.include_list: + continue + if args.exclude_list and itemcode in args.exclude_list: + continue + umvar = stashvar.StashVar(itemcode) + if args.simple: + c.var_name = 'fld_s%2.2di%3.3d' % (stashcode.section, stashcode.item) + elif umvar.uniquename: + c.var_name = umvar.uniquename + # Could there be cases with both max and min? + if c.var_name: + if any([m.method == 'maximum' for m in c.cell_methods]): + c.var_name += "_max" + if any([m.method == 'minimum' for m in c.cell_methods]): + c.var_name += "_min" + # The iris name mapping seems wrong for these - perhaps assuming rotated grids? + if c.standard_name == 'x_wind': + c.standard_name = 'eastward_wind' + if c.standard_name == 'y_wind': + c.standard_name = 'northward_wind' + if c.standard_name and umvar.standard_name: + if c.standard_name != umvar.standard_name: + if args.verbose: + sys.stderr.write("Standard name mismatch %d %d %s %s\n" % \ + (stashcode.section, stashcode.item, c.standard_name, umvar.standard_name) ) + c.standard_name = umvar.standard_name + if c.units and umvar.units: + # Simple testing c.units == umvar.units doesn't + # catch format differences because Unit type + # works around them. repr isn't reliable either + ustr = '%s' % c.units + if ustr != umvar.units: + if args.verbose: + sys.stderr.write("Units mismatch %d %d %s %s\n" % \ + (stashcode.section, stashcode.item, c.units, umvar.units) ) + c.units = umvar.units + # Temporary work around for xconv + if c.long_name and len(c.long_name) > 110: + c.long_name = c.long_name[:110] + # If there's no standard_name or long_name from iris + # use one from STASH + if not c.standard_name: + if umvar.standard_name: + c.standard_name = umvar.standard_name + if not c.long_name: + if umvar.long_name: + c.long_name = umvar.long_name + + # Interval in cell methods isn't reliable so better to remove it. + c.cell_methods = fix_cell_methods(c.cell_methods) + try: + fix_latlon_coord(c, grid_type, dlat, dlon) + except iris.exceptions.CoordinateNotFoundError: + print('\nMissing lat/lon coordinates for variable (possible timeseries?)\n') + print(c) + raise Exception("Variable can not be processed") + fix_level_coord(c, z_rho, z_theta) + + if not args.nomask and stashcode.section == 30 and \ + (201 <= stashcode.item <= 288 or 302 <= stashcode.item <= 303): + # Pressure level data should be masked + if have_heaviside_uv: + apply_mask(c, heaviside_uv, args.hcrit) + else: + continue + if not args.nomask and stashcode.section == 30 and \ + (293 <= stashcode.item <= 298): + # Pressure level data should be masked + if have_heaviside_t: + apply_mask(c, heaviside_t, args.hcrit) + else: + continue + if args.verbose: + print(c.name(), itemcode) + cubewrite(c, sman, args.compression, args.use64bit, args.verbose) + +if __name__ == '__main__': + import sys, argparse + parser = argparse.ArgumentParser(description="Convert UM fieldsfile to netcdf") + parser.add_argument('-k', dest='nckind', required=False, type=int, + default=3, help='specify kind of netCDF format for output file: 1 classic, 2 64-bit offset, 3 netCDF-4, 4 netCDF-4 classic model. Default 3', choices=[1,2,3,4]) + parser.add_argument('-c', dest='compression', required=False, type=int, + default=4, help='compression level (0=none, 9=max). Default 4') + parser.add_argument('--64', dest='use64bit', action='store_true', + default=False, help='Use 64 bit netcdf for 64 bit input') + parser.add_argument('-v', '--verbose', dest='verbose', + action='count', default=0, help='verbose output (-vv for extra verbose)') + parser.add_argument('--include', dest='include_list', type=int, + nargs = '+', help = 'List of stash codes to include') + parser.add_argument('--exclude', dest='exclude_list', type=int, + nargs = '+', help = 'List of stash codes to exclude') + parser.add_argument('--nomask', dest='nomask', action='store_true', + default=False, help="Don't apply heaviside function mask to pressure level fields") + parser.add_argument('--nohist', dest='nohist', action='store_true', + default=False, help="Don't update history attribute") + parser.add_argument('--simple', dest='simple', action='store_true', + default=False, help="Use a simple names of form fld_s01i123.") + parser.add_argument('--hcrit', dest='hcrit', type=float, + default=0.5, help="Critical value of heavyside fn for pressure level masking (default=0.5)") + parser.add_argument('infile', help='Input file') + parser.add_argument('outfile', help='Output file') + + args = parser.parse_args() + + process(args.infile, args.outfile, args)