NetCDF Header
Whole Atmosphere Climate Change: Dependence on Solar Activity
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netcdf file:///data/b1f65b20-a382-4e7b-bff5-2c3590be29d6/f.c5499.FXREFC1_SMIN.f19_f19.WXedynop_n14.001.cam.h0.1972-03.nc-f6461f0f-b261-4d73-9b95-e119064bc7a2 {
dimensions:
lat = 96;
lon = 144;
zlon = 1;
nbnd = 2;
time = UNLIMITED; // (1 currently)
chars = 8;
lev = 126;
ilev = 127;
variables:
double lat(lat=96);
:long_name = "latitude";
:units = "degrees_north";
double lon(lon=144);
:long_name = "longitude";
:units = "degrees_east";
double gw(lat=96);
:long_name = "latitude weights";
double zlon(zlon=1);
:long_name = "longitude";
:units = "degrees_east";
:bounds = "zlon_bnds";
double zlon_bnds(zlon=1, nbnd=2);
:long_name = "zlon bounds";
:units = "degrees_east";
double lev(lev=126);
:long_name = "hybrid level at midpoints (1000*(A+B))";
:units = "hPa";
:positive = "down";
:standard_name = "atmosphere_hybrid_sigma_pressure_coordinate";
:formula_terms = "a: hyam b: hybm p0: P0 ps: PS";
double hyam(lev=126);
:long_name = "hybrid A coefficient at layer midpoints";
double hybm(lev=126);
:long_name = "hybrid B coefficient at layer midpoints";
double P0;
:long_name = "reference pressure";
:units = "Pa";
double ilev(ilev=127);
:long_name = "hybrid level at interfaces (1000*(A+B))";
:units = "hPa";
:positive = "down";
:standard_name = "atmosphere_hybrid_sigma_pressure_coordinate";
:formula_terms = "a: hyai b: hybi p0: P0 ps: PS";
double hyai(ilev=127);
:long_name = "hybrid A coefficient at layer interfaces";
double hybi(ilev=127);
:long_name = "hybrid B coefficient at layer interfaces";
double time(time=1);
:long_name = "time";
:units = "days since 1970-01-01 00:00:00";
:calendar = "gregorian";
:bounds = "time_bnds";
int date(time=1);
:long_name = "current date (YYYYMMDD)";
int datesec(time=1);
:long_name = "current seconds of current date";
double time_bnds(time=1, nbnd=2);
:long_name = "time interval endpoints";
char date_written(time=1, chars=8);
char time_written(time=1, chars=8);
int ndbase;
:long_name = "base day";
int nsbase;
:long_name = "seconds of base day";
int nbdate;
:long_name = "base date (YYYYMMDD)";
int nbsec;
:long_name = "seconds of base date";
int mdt;
:long_name = "timestep";
:units = "s";
int ndcur(time=1);
:long_name = "current day (from base day)";
int nscur(time=1);
:long_name = "current seconds of current day";
double co2vmr(time=1);
:long_name = "co2 volume mixing ratio";
double ch4vmr(time=1);
:long_name = "ch4 volume mixing ratio";
double n2ovmr(time=1);
:long_name = "n2o volume mixing ratio";
double f11vmr(time=1);
:long_name = "f11 volume mixing ratio";
double f12vmr(time=1);
:long_name = "f12 volume mixing ratio";
double sol_tsi(time=1);
:long_name = "total solar irradiance";
:units = "W/m2";
double f107(time=1);
:long_name = "10.7 cm solar radio flux (F10.7)";
:units = "10^-22 W m^-2 Hz^-1";
double f107a(time=1);
:long_name = "81-day centered mean of 10.7 cm solar radio flux (F10.7)";
double kp(time=1);
:long_name = "Daily planetary K geomagnetic index";
double ap(time=1);
:long_name = "Daily planetary A geomagnetic index";
int nsteph(time=1);
:long_name = "current timestep";
float AEROD_v(time=1, lat=96, lon=144);
:_FillValue = 1.0E36f; // float
:missing_value = 1.0E36f; // float
:units = "1";
:long_name = "Total Aerosol Optical Depth in visible band";
:cell_methods = "time: mean";
float AOA1(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "Age-of_air tracer 1";
:cell_methods = "time: mean";
float AOA1SRC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "AOA1 source/sink";
:cell_methods = "time: mean";
float AOA2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "Age-of_air tracer 2";
:cell_methods = "time: mean";
float AOA2SRC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "AOA2 source/sink";
:cell_methods = "time: mean";
float AURIPRATESUM(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "Auroral ionization";
:cell_methods = "time: mean";
float BR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "BR concentration";
:cell_methods = "time: mean";
float BRCL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "BRCL concentration";
:cell_methods = "time: mean";
float BRCL_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "BRCL in bottom layer";
:cell_methods = "time: mean";
float BRO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "BRO concentration";
:cell_methods = "time: mean";
float BRONO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "BRONO2 concentration";
:cell_methods = "time: mean";
float BRONO2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "BRONO2 in bottom layer";
:cell_methods = "time: mean";
float BROX(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "brox (Br+BrO+BRCl+HOBr)";
:cell_methods = "time: mean";
float BROY(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "total inorganic bromine (Br+BrO+HOBr+BrONO2+HBr+BrCl)";
:cell_methods = "time: mean";
float BRO_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "BRO in bottom layer";
:cell_methods = "time: mean";
float BR_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "BR in bottom layer";
:cell_methods = "time: mean";
float BTAUE(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "Beres (deep) Eastward Reynolds stress";
:cell_methods = "time: mean";
float BTAUN(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "Beres (deep) Northward Reynolds stress";
:cell_methods = "time: mean";
float BTAUNET(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "Beres (deep) E+W Reynolds stress";
:cell_methods = "time: mean";
float BTAUS(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "Beres (deep) Southward Reynolds stress";
:cell_methods = "time: mean";
float BTAUW(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "Beres (deep) Westward Reynolds stress";
:cell_methods = "time: mean";
float BTTGWSPEC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Beres (deep) T tendency - gravity wave spectrum";
:cell_methods = "time: mean";
float BUTEND1(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "Beres (deep) U tendency c < -40";
:cell_methods = "time: mean";
float BUTEND2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "Beres (deep) U tendency -40 < c < -15";
:cell_methods = "time: mean";
float BUTEND3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "Beres (deep) U tendency -15 < c < 15";
:cell_methods = "time: mean";
float BUTEND4(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "Beres (deep) U tendency 15 < c < 40";
:cell_methods = "time: mean";
float BUTEND5(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "Beres (deep) U tendency 40 < c";
:cell_methods = "time: mean";
float BUTGWSPEC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "Beres (deep) U tendency - gravity wave spectrum";
:cell_methods = "time: mean";
float BVTGWSPEC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "Beres (deep) V tendency - gravity wave spectrum";
:cell_methods = "time: mean";
float CCL4(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CCL4 concentration";
:cell_methods = "time: mean";
float CCL4_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CCL4 in bottom layer";
:cell_methods = "time: mean";
float CF2CLBR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CF2CLBR concentration";
:cell_methods = "time: mean";
float CF2CLBR_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CF2CLBR in bottom layer";
:cell_methods = "time: mean";
float CF3BR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CF3BR concentration";
:cell_methods = "time: mean";
float CF3BR_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CF3BR in bottom layer";
:cell_methods = "time: mean";
float CFC11(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CFC11 concentration";
:cell_methods = "time: mean";
float CFC113(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CFC113 concentration";
:cell_methods = "time: mean";
float CFC113_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CFC113 in bottom layer";
:cell_methods = "time: mean";
float CFC114(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CFC114 concentration";
:cell_methods = "time: mean";
float CFC114_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CFC114 in bottom layer";
:cell_methods = "time: mean";
float CFC115(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CFC115 concentration";
:cell_methods = "time: mean";
float CFC115_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CFC115 in bottom layer";
:cell_methods = "time: mean";
float CFC11STAR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "cfc11star for radiation";
:cell_methods = "time: mean";
float CFC11_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CFC11 in bottom layer";
:cell_methods = "time: mean";
float CFC12(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CFC12 concentration";
:cell_methods = "time: mean";
float CFC12_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CFC12 in bottom layer";
:cell_methods = "time: mean";
float CH2BR2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH2BR2 concentration";
:cell_methods = "time: mean";
float CH2BR2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH2BR2 in bottom layer";
:cell_methods = "time: mean";
float CH2O(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH2O concentration";
:cell_methods = "time: mean";
float CH2O_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH2O in bottom layer";
:cell_methods = "time: mean";
float CH3BR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH3BR concentration";
:cell_methods = "time: mean";
float CH3BR_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH3BR in bottom layer";
:cell_methods = "time: mean";
float CH3CCL3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH3CCL3 concentration";
:cell_methods = "time: mean";
float CH3CCL3_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH3CCL3 in bottom layer";
:cell_methods = "time: mean";
float CH3CL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH3CL concentration";
:cell_methods = "time: mean";
float CH3CL_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH3CL in bottom layer";
:cell_methods = "time: mean";
float CH3O2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH3O2 concentration";
:cell_methods = "time: mean";
float CH3O2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH3O2 in bottom layer";
:cell_methods = "time: mean";
float CH3OOH(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH3OOH concentration";
:cell_methods = "time: mean";
float CH3OOH_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH3OOH in bottom layer";
:cell_methods = "time: mean";
float CH4(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CH4 concentration";
:cell_methods = "time: mean";
float CH4_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CH4 in bottom layer";
:cell_methods = "time: mean";
float CHBR3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CHBR3 concentration";
:cell_methods = "time: mean";
float CHBR3_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CHBR3 in bottom layer";
:cell_methods = "time: mean";
float CL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CL concentration";
:cell_methods = "time: mean";
float CL2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CL2 concentration";
:cell_methods = "time: mean";
float CL2O2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CL2O2 concentration";
:cell_methods = "time: mean";
float CL2O2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CL2O2 in bottom layer";
:cell_methods = "time: mean";
float CL2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CL2 in bottom layer";
:cell_methods = "time: mean";
float CLDHGH(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "fraction";
:long_name = "Vertically-integrated high cloud";
:cell_methods = "time: mean";
float CLDICE(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "Grid box averaged cloud ice amount";
:cell_methods = "time: mean";
float CLDLIQ(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "Grid box averaged cloud liquid amount";
:cell_methods = "time: mean";
float CLDLOW(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "fraction";
:long_name = "Vertically-integrated low cloud";
:cell_methods = "time: mean";
float CLDMED(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "fraction";
:long_name = "Vertically-integrated mid-level cloud";
:cell_methods = "time: mean";
float CLDTOT(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "fraction";
:long_name = "Vertically-integrated total cloud";
:cell_methods = "time: mean";
float CLO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CLO concentration";
:cell_methods = "time: mean";
float CLONO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CLONO2 concentration";
:cell_methods = "time: mean";
float CLONO2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CLONO2 in bottom layer";
:cell_methods = "time: mean";
float CLOUD(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:Sampling_Sequence = "rad_lwsw";
:units = "fraction";
:long_name = "Cloud fraction";
:cell_methods = "time: mean";
float CLOX(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "clox (Cl+CLO+HOCl+2Cl2+2Cl2O2+OClO";
:cell_methods = "time: mean";
float CLOY(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "total inorganic chlorine (Cl+ClO+2Cl2+2Cl2O2+OClO+HOCl+ClONO2+HCl+BrCl)";
:cell_methods = "time: mean";
float CLO_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CLO in bottom layer";
:cell_methods = "time: mean";
float CL_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CL in bottom layer";
:cell_methods = "time: mean";
float CO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CO concentration";
:cell_methods = "time: mean";
float CO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "CO2 concentration";
:cell_methods = "time: mean";
float CO2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CO2 in bottom layer";
:cell_methods = "time: mean";
float COF2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "COF2 concentration";
:cell_methods = "time: mean";
float COF2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "COF2 in bottom layer";
:cell_methods = "time: mean";
float COFCL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "COFCL concentration";
:cell_methods = "time: mean";
float COFCL_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "COFCL in bottom layer";
:cell_methods = "time: mean";
float CONCLD(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "fraction";
:long_name = "Convective cloud cover";
:cell_methods = "time: mean";
float CO_CLXF(time=1, lat=96, lon=144);
:units = "molec/cm2/s";
:long_name = "vertically intergrated external forcing for CO";
:cell_methods = "time: mean";
float CO_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "CO in bottom layer";
:cell_methods = "time: mean";
float DCQ(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Q tendency due to moist processes";
:cell_methods = "time: mean";
float DF_CH2O(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_CH3OOH(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_CO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_H2O2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_HNO3(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_HO2NO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_NO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_NO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DF_O3(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "dry deposition flux";
:cell_methods = "time: mean";
float DTCOND(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency - moist processes";
:cell_methods = "time: mean";
float DTCORE(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency due to dynamical core";
:cell_methods = "time: mean";
float DTV(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "T vertical diffusion";
:cell_methods = "time: mean";
float DTWR_BRONO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_CH2O(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_CH3OOH(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_CLONO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_COF2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_COFCL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_H2O2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_HBR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_HCL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_HF(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_HNO3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_HO2NO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_HOBR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DTWR_HOCL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "wet removal Neu scheme tendency";
:cell_methods = "time: mean";
float DUV(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "U vertical diffusion";
:cell_methods = "time: mean";
float DVV(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "V vertical diffusion";
:cell_methods = "time: mean";
float EKGW(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "M2/S";
:long_name = "Effective Kzz due to diffusion by gravity waves";
:cell_methods = "time: mean";
float EMIS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:Sampling_Sequence = "rad_lwsw";
:units = "1";
:long_name = "cloud emissivity";
:cell_methods = "time: mean";
float F(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "F concentration";
:cell_methods = "time: mean";
float FICE(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "fraction";
:long_name = "Fractional ice content within cloud";
:cell_methods = "time: mean";
float FLDS(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Downwelling longwave flux at surface";
:cell_methods = "time: mean";
float FLDSC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky downwelling longwave flux at surface";
:cell_methods = "time: mean";
float FLNS(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Net longwave flux at surface";
:cell_methods = "time: mean";
float FLNSC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky net longwave flux at surface";
:cell_methods = "time: mean";
float FLNT(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Net longwave flux at top of model";
:cell_methods = "time: mean";
float FLNTC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky net longwave flux at top of model";
:cell_methods = "time: mean";
float FLUT(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Upwelling longwave flux at top of model";
:cell_methods = "time: mean";
float FLUTC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky upwelling longwave flux at top of model";
:cell_methods = "time: mean";
float FRONTGF(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K^2/M^2/S";
:long_name = "Frontogenesis function at gws src level";
float FRONTGFA(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K^2/M^2/S";
:long_name = "Frontogenesis function at gws src level";
:cell_methods = "time: mean";
float FSDS(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Downwelling solar flux at surface";
:cell_methods = "time: mean";
float FSDSC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky downwelling solar flux at surface";
:cell_methods = "time: mean";
float FSDTOA(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Downwelling solar flux at top of atmosphere";
:cell_methods = "time: mean";
float FSNS(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Net solar flux at surface";
:cell_methods = "time: mean";
float FSNSC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky net solar flux at surface";
:cell_methods = "time: mean";
float FSNT(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Net solar flux at top of model";
:cell_methods = "time: mean";
float FSNTC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky net solar flux at top of model";
:cell_methods = "time: mean";
float FSNTOA(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Net solar flux at top of atmosphere";
:cell_methods = "time: mean";
float FSNTOAC(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Clearsky net solar flux at top of atmosphere";
:cell_methods = "time: mean";
float FSUTOA(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Upwelling solar flux at top of atmosphere";
:cell_methods = "time: mean";
float F_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "F in bottom layer";
:cell_methods = "time: mean";
float H(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "H concentration";
:cell_methods = "time: mean";
float H1202(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "H1202 concentration";
:cell_methods = "time: mean";
float H1202_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "H1202 in bottom layer";
:cell_methods = "time: mean";
float H2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "H2 concentration";
:cell_methods = "time: mean";
float H2402(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "H2402 concentration";
:cell_methods = "time: mean";
float H2402_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "H2402 in bottom layer";
:cell_methods = "time: mean";
float H2O(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "water vapor concentration";
:cell_methods = "time: mean";
float H2O2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "H2O2 concentration";
:cell_methods = "time: mean";
float H2O2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "H2O2 in bottom layer";
:cell_methods = "time: mean";
float H2O_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "water vapor in bottom layer";
:cell_methods = "time: mean";
float H2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "H2 in bottom layer";
:cell_methods = "time: mean";
float HBR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HBR concentration";
:cell_methods = "time: mean";
float HBR_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HBR in bottom layer";
:cell_methods = "time: mean";
float HCFC141B(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HCFC141B concentration";
:cell_methods = "time: mean";
float HCFC141B_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HCFC141B in bottom layer";
:cell_methods = "time: mean";
float HCFC142B(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HCFC142B concentration";
:cell_methods = "time: mean";
float HCFC142B_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HCFC142B in bottom layer";
:cell_methods = "time: mean";
float HCFC22(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HCFC22 concentration";
:cell_methods = "time: mean";
float HCFC22_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HCFC22 in bottom layer";
:cell_methods = "time: mean";
float HCL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HCL concentration";
:cell_methods = "time: mean";
float HCL_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HCL in bottom layer";
:cell_methods = "time: mean";
float HDEPTH(time=1, lat=96, lon=144);
:units = "km";
:long_name = "Heating Depth";
:cell_methods = "time: mean";
float HF(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HF concentration";
:cell_methods = "time: mean";
float HF_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HF in bottom layer";
:cell_methods = "time: mean";
float HNO3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HNO3 concentration";
:cell_methods = "time: mean";
float HNO3_GAS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "gas-phase hno3";
:cell_methods = "time: mean";
float HNO3_NAT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "NAT condensed HNO3";
:cell_methods = "time: mean";
float HNO3_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HNO3 in bottom layer";
:cell_methods = "time: mean";
float HNO3_STS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "STS condensed HNO3";
:cell_methods = "time: mean";
float HO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HO2 concentration";
:cell_methods = "time: mean";
float HO2NO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HO2NO2 concentration";
:cell_methods = "time: mean";
float HO2NO2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HO2NO2 in bottom layer";
:cell_methods = "time: mean";
float HO2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HO2 in bottom layer";
:cell_methods = "time: mean";
float HOBR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HOBR concentration";
:cell_methods = "time: mean";
float HOBR_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HOBR in bottom layer";
:cell_methods = "time: mean";
float HOCL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "HOCL concentration";
:cell_methods = "time: mean";
float HOCL_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "HOCL in bottom layer";
:cell_methods = "time: mean";
float HORZ(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "horizontal tracer";
:cell_methods = "time: mean";
float HORZSRC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "HORZ source/sink";
:cell_methods = "time: mean";
float H_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "H in bottom layer";
:cell_methods = "time: mean";
float ICEFRAC(time=1, lat=96, lon=144);
:units = "fraction";
:long_name = "Fraction of sfc area covered by sea-ice";
:cell_methods = "time: mean";
float ICIMR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "Prognostic in-cloud ice mixing ratio";
:cell_methods = "time: mean";
float ICWMR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "Prognostic in-cloud water mixing ratio";
:cell_methods = "time: mean";
float IONI_Eff(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "ionization efficiency";
:cell_methods = "time: mean";
float IONI_RATE(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "Total ionization";
:cell_methods = "time: mean";
float KVH(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "m2/s";
:long_name = "Vertical diffusion diffusivities (heat/moisture)";
:cell_methods = "time: mean";
float KVM(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "m2/s";
:long_name = "Vertical diffusion diffusivities (momentum)";
:cell_methods = "time: mean";
float KVT(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "m2/s";
:long_name = "Vertical diffusion kinematic molecular conductivity";
:cell_methods = "time: mean";
float LANDFRAC(time=1, lat=96, lon=144);
:units = "fraction";
:long_name = "Fraction of sfc area covered by land";
:cell_methods = "time: mean";
float LHFLX(time=1, lat=96, lon=144);
:units = "W/m2";
:long_name = "Surface latent heat flux";
:cell_methods = "time: mean";
float LOSS_EI(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "Loss Term EI";
:cell_methods = "time: mean";
float LOSS_IN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "Loss Term IN";
:cell_methods = "time: mean";
float LOSS_g3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "Loss Term g3";
:cell_methods = "time: mean";
float LWCF(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Longwave cloud forcing";
:cell_methods = "time: mean";
float MAXQ0(time=1, lat=96, lon=144);
:units = "K/day";
:long_name = "Max column heating rate";
:cell_methods = "time: mean";
float MBARV(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "g/mole";
:long_name = "Variable Mean Mass";
:cell_methods = "time: mean";
float MDO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Major diffusion of O";
:cell_methods = "time: mean";
float MDO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Major diffusion of O2";
:cell_methods = "time: mean";
float MEG_CH2O(time=1, lat=96, lon=144);
:units = "kg/m2/sec";
:long_name = "CH2O MEGAN emissions flux";
:cell_methods = "time: mean";
float MEG_CO(time=1, lat=96, lon=144);
:units = "kg/m2/sec";
:long_name = "CO MEGAN emissions flux";
:cell_methods = "time: mean";
float MSKtem(time=1, lat=96, lon=144);
:units = "1";
:long_name = "TEM mask";
:cell_methods = "time: mean";
float N(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "N concentration";
:cell_methods = "time: mean";
float N2D(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "N2D concentration";
:cell_methods = "time: mean";
float N2D_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "N2D in bottom layer";
:cell_methods = "time: mean";
float N2O(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "N2O concentration";
:cell_methods = "time: mean";
float N2O5(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "N2O5 concentration";
:cell_methods = "time: mean";
float N2O5_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "N2O5 in bottom layer";
:cell_methods = "time: mean";
float N2O_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "N2O in bottom layer";
:cell_methods = "time: mean";
float N2p(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "N2p concentration";
:cell_methods = "time: mean";
float N2p_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "N2p in bottom layer";
:cell_methods = "time: mean";
float NETDT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "Net heating rate";
:cell_methods = "time: mean";
float NO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "NO concentration";
:cell_methods = "time: mean";
float NO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "NO2 concentration";
:cell_methods = "time: mean";
float NO2_CLXF(time=1, lat=96, lon=144);
:units = "molec/cm2/s";
:long_name = "vertically intergrated external forcing for NO2";
:cell_methods = "time: mean";
float NO2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "NO2 in bottom layer";
:cell_methods = "time: mean";
float NO3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "NO3 concentration";
:cell_methods = "time: mean";
float NO3_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "NO3 in bottom layer";
:cell_methods = "time: mean";
float NOX(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "nox (N+NO+NO2)";
:cell_methods = "time: mean";
float NOY(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "noy = total inorganic nitrogen (N+NO+NO2+NO3+2N2O5+HNO3+HO2NO2+ORGNOY+NH4NO3";
:cell_methods = "time: mean";
float NO_Aircraft(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "molec/cm3/s";
:long_name = "aircraft NO source";
:cell_methods = "time: mean";
float NO_CLXF(time=1, lat=96, lon=144);
:units = "molec/cm2/s";
:long_name = "vertically intergrated external forcing for NO";
:cell_methods = "time: mean";
float NO_Lightning(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "molec/cm3/s";
:long_name = "lightning NO source";
:cell_methods = "time: mean";
float NO_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "NO in bottom layer";
:cell_methods = "time: mean";
float NOp(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "NOp concentration";
:cell_methods = "time: mean";
float NOp_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "NOp in bottom layer";
:cell_methods = "time: mean";
float N_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "N in bottom layer";
:cell_methods = "time: mean";
float Np(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "Np concentration";
:cell_methods = "time: mean";
float Np_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "Np in bottom layer";
:cell_methods = "time: mean";
float O(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "O concentration";
:cell_methods = "time: mean";
float O1D(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "O1D concentration";
:cell_methods = "time: mean";
float O1D_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "O1D in bottom layer";
:cell_methods = "time: mean";
float O2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "O2 concentration";
:cell_methods = "time: mean";
float O2_1D(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "O2_1D concentration";
:cell_methods = "time: mean";
float O2_1D_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "O2_1D in bottom layer";
:cell_methods = "time: mean";
float O2_1S(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "O2_1S concentration";
:cell_methods = "time: mean";
float O2_1S_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "O2_1S in bottom layer";
:cell_methods = "time: mean";
float O2_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "O2 in bottom layer";
:cell_methods = "time: mean";
float O2p(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "O2p concentration";
:cell_methods = "time: mean";
float O2p_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "O2p in bottom layer";
:cell_methods = "time: mean";
float O3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "O3 concentration";
:cell_methods = "time: mean";
float O3_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "O3 in bottom layer";
:cell_methods = "time: mean";
float OCLO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "OCLO concentration";
:cell_methods = "time: mean";
float OCLO_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "OCLO in bottom layer";
:cell_methods = "time: mean";
float OCNFRAC(time=1, lat=96, lon=144);
:units = "fraction";
:long_name = "Fraction of sfc area covered by ocean";
:cell_methods = "time: mean";
float OH(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "OH concentration";
:cell_methods = "time: mean";
float OH_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "OH in bottom layer";
:cell_methods = "time: mean";
float OMEGA(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "Pa/s";
:long_name = "Vertical velocity (pressure)";
:cell_methods = "time: mean";
float OMEGAT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K Pa/s";
:long_name = "Vertical heat flux";
:cell_methods = "time: mean";
float OMEGA_12_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "Pa/s";
:long_name = "vertical pressure velocity 12hr. cos coeff.";
:cell_methods = "time: mean";
float OMEGA_12_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "Pa/s";
:long_name = "vertical pressure velocity 12hr. sin coeff.";
:cell_methods = "time: mean";
float OMEGA_24_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "Pa/s";
:long_name = "vertical pressure velocity 24hr. cos coeff.";
:cell_methods = "time: mean";
float OMEGA_24_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "Pa/s";
:long_name = "vertical pressure velocity 24hr. sin coeff.";
:cell_methods = "time: mean";
float O_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "O in bottom layer";
:cell_methods = "time: mean";
float Op(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "Op concentration";
:cell_methods = "time: mean";
float Op2D(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "Op2D concentration";
:cell_methods = "time: mean";
float Op2D_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "Op2D in bottom layer";
:cell_methods = "time: mean";
float Op2P(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "Op2P concentration";
:cell_methods = "time: mean";
float Op2P_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "Op2P in bottom layer";
:cell_methods = "time: mean";
float Op_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "Op in bottom layer";
:cell_methods = "time: mean";
float PBLH(time=1, lat=96, lon=144);
:units = "m";
:long_name = "PBL height";
:cell_methods = "time: mean";
float PHIS(time=1, lat=96, lon=144);
:units = "m2/s2";
:long_name = "Surface geopotential";
:cell_methods = "time: mean";
float POTEN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "Volts";
:long_name = "POTEN: Electric Potential";
:cell_methods = "time: mean";
float PRECC(time=1, lat=96, lon=144);
:units = "m/s";
:long_name = "Convective precipitation rate (liq + ice)";
:cell_methods = "time: mean";
float PRECL(time=1, lat=96, lon=144);
:units = "m/s";
:long_name = "Large-scale (stable) precipitation rate (liq + ice)";
:cell_methods = "time: mean";
float PRECSC(time=1, lat=96, lon=144);
:units = "m/s";
:long_name = "Convective snow rate (water equivalent)";
:cell_methods = "time: mean";
float PRECSL(time=1, lat=96, lon=144);
:units = "m/s";
:long_name = "Large-scale (stable) snow rate (water equivalent)";
:cell_methods = "time: mean";
float PS(time=1, lat=96, lon=144);
:units = "Pa";
:long_name = "Surface pressure";
:cell_methods = "time: mean";
float PSL(time=1, lat=96, lon=144);
:units = "Pa";
:long_name = "Sea level pressure";
:cell_methods = "time: mean";
float PS_12_COS(time=1, lat=96, lon=144);
:units = "Pa";
:long_name = "surface pressure 12hr. cos coeff.";
:cell_methods = "time: mean";
float PS_12_SIN(time=1, lat=96, lon=144);
:units = "Pa";
:long_name = "surface pressure 12hr. sin coeff.";
:cell_methods = "time: mean";
float PS_24_COS(time=1, lat=96, lon=144);
:units = "Pa";
:long_name = "surface pressure 24hr. cos coeff.";
:cell_methods = "time: mean";
float PS_24_SIN(time=1, lat=96, lon=144);
:units = "Pa";
:long_name = "surface pressure 24hr. sin coeff.";
:cell_methods = "time: mean";
float Q(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "Specific humidity";
:cell_methods = "time: mean";
float QBOTEND(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "M/S/S";
:long_name = "Wind tendency from QBO relaxation";
:cell_methods = "time: mean";
float QBO_U0(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "M/S";
:long_name = "Specified wind used for QBO";
:cell_methods = "time: mean";
float QCO2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "CO2 cooling";
:cell_methods = "time: mean";
float QCP(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "chem pot heating rate";
:cell_methods = "time: mean";
float QEI(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "Electron-ion Heating";
:cell_methods = "time: mean";
float QEN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:long_name = "Electron-neutral Heating";
:cell_methods = "time: mean";
float QFLX(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "Surface water flux";
:cell_methods = "time: mean";
float QHC2S(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "Cooling to Space";
:cell_methods = "time: mean";
float QIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "J/kg/s";
:long_name = "JOULE+IN Heating";
:cell_methods = "time: mean";
float QJOULE(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "Joule Heat";
:cell_methods = "time: mean";
float QNO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "NO cooling";
:cell_methods = "time: mean";
float QO3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "O3 cooling";
:cell_methods = "time: mean";
float QO3P(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "O3P cooling";
:cell_methods = "time: mean";
float QPERT(time=1, lat=96, lon=144);
:units = "kg/kg";
:long_name = "Perturbation specific humidity (eddies in PBL)";
:cell_methods = "time: mean";
float QREFHT(time=1, lat=96, lon=144);
:units = "kg/kg";
:long_name = "Reference height humidity";
:cell_methods = "time: mean";
float QRL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:Sampling_Sequence = "rad_lwsw";
:units = "K/s";
:long_name = "Longwave heating rate";
:cell_methods = "time: mean";
float QRLNLTE(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "Non-LTE LW heating (includes QNO and QO3P)";
:cell_methods = "time: mean";
float QRL_TOT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "Merged LW heating: QRL+QRLNLTE";
:cell_methods = "time: mean";
float QRS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:Sampling_Sequence = "rad_lwsw";
:units = "K/s";
:long_name = "Solar heating rate";
:cell_methods = "time: mean";
float QRS_AUR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "total auroral heating rate";
:cell_methods = "time: mean";
float QRS_CO2NIR(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "co2 nir heating rate";
:cell_methods = "time: mean";
float QRS_EUV(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "total euv heating rate";
:cell_methods = "time: mean";
float QRS_TOT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "Merged SW heating: QRS+QCP+QRS_EUV+QRS_CO2NIR+QRS_AUR+QTHERMAL";
:cell_methods = "time: mean";
float QTHERMAL(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "non-euv photolysis heating rate";
:cell_methods = "time: mean";
float Qbkgndtot(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "cm-3 sec-1";
:long_name = "background ionization rate";
:cell_methods = "time: mean";
float RELHUM(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "percent";
:long_name = "Relative humidity";
:cell_methods = "time: mean";
float SAD_ICE(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "cm2/cm3";
:long_name = "water-ice aerosol SAD";
:cell_methods = "time: mean";
float SAD_LNAT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "cm2/cm3";
:long_name = "large-mode NAT aerosol SAD";
:cell_methods = "time: mean";
float SAD_SULFC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "cm2/cm3";
:long_name = "chemical sulfate aerosol SAD";
:cell_methods = "time: mean";
float SF6(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "SF6 concentration";
:cell_methods = "time: mean";
float SF6_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "SF6 in bottom layer";
:cell_methods = "time: mean";
float SFBRCL(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "BRCL surface flux";
:cell_methods = "time: mean";
float SFBRO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "BRO surface flux";
:cell_methods = "time: mean";
float SFBRONO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "BRONO2 surface flux";
:cell_methods = "time: mean";
float SFBRY(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "BRY surface flux";
:cell_methods = "time: mean";
float SFCCL4(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CCL4 surface flux";
:cell_methods = "time: mean";
float SFCF2CLBR(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CF2CLBR surface flux";
:cell_methods = "time: mean";
float SFCF3BR(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CF3BR surface flux";
:cell_methods = "time: mean";
float SFCFC11(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CFC11 surface flux";
:cell_methods = "time: mean";
float SFCFC113(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CFC113 surface flux";
:cell_methods = "time: mean";
float SFCFC114(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CFC114 surface flux";
:cell_methods = "time: mean";
float SFCFC115(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CFC115 surface flux";
:cell_methods = "time: mean";
float SFCFC12(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CFC12 surface flux";
:cell_methods = "time: mean";
float SFCH2BR2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH2BR2 surface flux";
:cell_methods = "time: mean";
float SFCH2O(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH2O surface flux";
:cell_methods = "time: mean";
float SFCH3BR(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH3BR surface flux";
:cell_methods = "time: mean";
float SFCH3CCL3(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH3CCL3 surface flux";
:cell_methods = "time: mean";
float SFCH3CL(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH3CL surface flux";
:cell_methods = "time: mean";
float SFCH3O2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH3O2 surface flux";
:cell_methods = "time: mean";
float SFCH3OOH(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH3OOH surface flux";
:cell_methods = "time: mean";
float SFCH4(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CH4 surface flux";
:cell_methods = "time: mean";
float SFCHBR3(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CHBR3 surface flux";
:cell_methods = "time: mean";
float SFCL2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CL2 surface flux";
:cell_methods = "time: mean";
float SFCL2O2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CL2O2 surface flux";
:cell_methods = "time: mean";
float SFCLDICE(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CLDICE surface flux";
:cell_methods = "time: mean";
float SFCLDLIQ(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CLDLIQ surface flux";
:cell_methods = "time: mean";
float SFCLO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CLO surface flux";
:cell_methods = "time: mean";
float SFCLONO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CLONO2 surface flux";
:cell_methods = "time: mean";
float SFCLY(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CLY surface flux";
:cell_methods = "time: mean";
float SFCO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CO surface flux";
:cell_methods = "time: mean";
float SFCO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "CO2 surface flux";
:cell_methods = "time: mean";
float SFCOF2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "COF2 surface flux";
:cell_methods = "time: mean";
float SFCOFCL(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "COFCL surface flux";
:cell_methods = "time: mean";
float SFF(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "F surface flux";
:cell_methods = "time: mean";
float SFH(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "H surface flux";
:cell_methods = "time: mean";
float SFH1202(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "H1202 surface flux";
:cell_methods = "time: mean";
float SFH2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "H2 surface flux";
:cell_methods = "time: mean";
float SFH2402(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "H2402 surface flux";
:cell_methods = "time: mean";
float SFH2O2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "H2O2 surface flux";
:cell_methods = "time: mean";
float SFHBR(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HBR surface flux";
:cell_methods = "time: mean";
float SFHCFC141B(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HCFC141B surface flux";
:cell_methods = "time: mean";
float SFHCFC142B(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HCFC142B surface flux";
:cell_methods = "time: mean";
float SFHCFC22(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HCFC22 surface flux";
:cell_methods = "time: mean";
float SFHCL(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HCL surface flux";
:cell_methods = "time: mean";
float SFHF(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HF surface flux";
:cell_methods = "time: mean";
float SFHNO3(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HNO3 surface flux";
:cell_methods = "time: mean";
float SFHO2NO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HO2NO2 surface flux";
:cell_methods = "time: mean";
float SFHOBR(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HOBR surface flux";
:cell_methods = "time: mean";
float SFHOCL(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "HOCL surface flux";
:cell_methods = "time: mean";
float SFN(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "N surface flux";
:cell_methods = "time: mean";
float SFN2O(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "N2O surface flux";
:cell_methods = "time: mean";
float SFN2O5(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "N2O5 surface flux";
:cell_methods = "time: mean";
float SFNO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "NO surface flux";
:cell_methods = "time: mean";
float SFNO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "NO2 surface flux";
:cell_methods = "time: mean";
float SFNO3(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "NO3 surface flux";
:cell_methods = "time: mean";
float SFO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "O surface flux";
:cell_methods = "time: mean";
float SFO2(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "O2 surface flux";
:cell_methods = "time: mean";
float SFO3(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "O3 surface flux";
:cell_methods = "time: mean";
float SFOCLO(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "OCLO surface flux";
:cell_methods = "time: mean";
float SFSF6(time=1, lat=96, lon=144);
:units = "kg/m2/s";
:long_name = "SF6 surface flux";
:cell_methods = "time: mean";
float SHFLX(time=1, lat=96, lon=144);
:units = "W/m2";
:long_name = "Surface sensible heat flux";
:cell_methods = "time: mean";
float SNOWHICE(time=1, lat=96, lon=144);
:units = "m";
:long_name = "Snow depth over ice";
:cell_methods = "time: mean";
float SNOWHLND(time=1, lat=96, lon=144);
:units = "m";
:long_name = "Water equivalent snow depth";
:cell_methods = "time: mean";
float SOLIN(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Solar insolation";
:cell_methods = "time: mean";
float SWCF(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "W/m2";
:long_name = "Shortwave cloud forcing";
:cell_methods = "time: mean";
float T(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Temperature";
:cell_methods = "time: mean";
float TAUE(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "C&M Eastward Reynolds stress";
:cell_methods = "time: mean";
float TAUGWX(time=1, lat=96, lon=144);
:units = "N/m2";
:long_name = "Zonal gravity wave surface stress";
:cell_methods = "time: mean";
float TAUGWY(time=1, lat=96, lon=144);
:units = "N/m2";
:long_name = "Meridional gravity wave surface stress";
:cell_methods = "time: mean";
float TAUN(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "C&M Northward Reynolds stress";
:cell_methods = "time: mean";
float TAUNET(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "C&M E+W Reynolds stress";
:cell_methods = "time: mean";
float TAUS(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "C&M Southward Reynolds stress";
:cell_methods = "time: mean";
float TAUTMSX(time=1, lat=96, lon=144);
:units = "N/m2";
:long_name = "Zonal turbulent mountain surface stress";
:cell_methods = "time: mean";
float TAUTMSY(time=1, lat=96, lon=144);
:units = "N/m2";
:long_name = "Meridional turbulent mountain surface stress";
:cell_methods = "time: mean";
float TAUW(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "Pa";
:long_name = "C&M Westward Reynolds stress";
:cell_methods = "time: mean";
float TAUX(time=1, lat=96, lon=144);
:units = "N/m2";
:long_name = "Zonal surface stress";
:cell_methods = "time: mean";
float TAUY(time=1, lat=96, lon=144);
:units = "N/m2";
:long_name = "Meridional surface stress";
:cell_methods = "time: mean";
float TCLY(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "total Cl (ORG+INORG) volume mixing ratio";
:cell_methods = "time: mean";
float TElec(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Electron Temperature";
:cell_methods = "time: mean";
float TGCLDCWP(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "gram/m2";
:long_name = "Total grid-box cloud water path (liquid and ice)";
:cell_methods = "time: mean";
float TGCLDIWP(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "gram/m2";
:long_name = "Total grid-box cloud ice water path";
:cell_methods = "time: mean";
float TGCLDLWP(time=1, lat=96, lon=144);
:Sampling_Sequence = "rad_lwsw";
:units = "gram/m2";
:long_name = "Total grid-box cloud liquid water path";
:cell_methods = "time: mean";
float TH(time=1, ilev=127, lat=96, lon=144);
:mdims = 2; // int
:units = "K";
:long_name = "Potential Temperature";
:cell_methods = "time: mean";
float TIon(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Ion Temperature";
:cell_methods = "time: mean";
float TMQ(time=1, lat=96, lon=144);
:units = "kg/m2";
:long_name = "Total (vertically integrated) precipitable water";
:cell_methods = "time: mean";
float TOTH(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "total H2 volume mixing ratio";
:cell_methods = "time: mean";
float TREFHT(time=1, lat=96, lon=144);
:units = "K";
:long_name = "Reference height temperature";
:cell_methods = "time: mean";
float TROPP_FD(time=1, lat=96, lon=144);
:units = "probability";
:long_name = "Tropopause Found (primary)";
:cell_methods = "time: mean";
float TS(time=1, lat=96, lon=144);
:units = "K";
:long_name = "Surface temperature (radiative)";
:cell_methods = "time: mean";
float TSMN(time=1, lat=96, lon=144);
:units = "K";
:long_name = "Minimum surface temperature over output period";
:cell_methods = "time: mean";
float TSMX(time=1, lat=96, lon=144);
:units = "K";
:long_name = "Maximum surface temperature over output period";
:cell_methods = "time: mean";
float TTGW(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency - gravity wave drag";
:cell_methods = "time: mean";
float TTGWSPEC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "C&M T tendency - gravity wave spectrum";
:cell_methods = "time: mean";
float TTPXMLC(time=1, lat=96, lon=144);
:units = "K/S";
:long_name = "Top interf. temp. flux: molec. viscosity";
:cell_methods = "time: mean";
float T_12_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Temperature 12hr. cos coeff.";
:cell_methods = "time: mean";
float T_12_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Temperature 12hr. sin coeff.";
:cell_methods = "time: mean";
float T_24_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Temperature 24hr. cos coeff.";
:cell_methods = "time: mean";
float T_24_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K";
:long_name = "Temperature 24hr. sin coeff.";
:cell_methods = "time: mean";
float U(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Zonal wind";
:cell_methods = "time: mean";
float U10(time=1, lat=96, lon=144);
:units = "m/s";
:long_name = "10m wind speed";
:cell_methods = "time: mean";
float UI(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "UI Zonal ion drift from edynamo";
:cell_methods = "time: mean";
float UIONTEND(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "M/S2";
:long_name = "u-tendency due to ion drag";
:cell_methods = "time: mean";
float UTEND1(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "C&M U tendency c < -40";
:cell_methods = "time: mean";
float UTEND2(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "C&M U tendency -40 < c < -15";
:cell_methods = "time: mean";
float UTEND3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "C&M U tendency -15 < c < 15";
:cell_methods = "time: mean";
float UTEND4(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "C&M U tendency 15 < c < 40";
:cell_methods = "time: mean";
float UTEND5(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "C&M U tendency 40 < c";
:cell_methods = "time: mean";
float UTGWORO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "U tendency - orographic gravity wave drag";
:cell_methods = "time: mean";
float UTGWSPEC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "C&M U tendency - gravity wave spectrum";
:cell_methods = "time: mean";
float UU(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m2/s2";
:long_name = "Zonal velocity squared";
:cell_methods = "time: mean";
float UVzm(time=1, ilev=127, lat=96, zlon=1);
:mdims = 2; // int
:units = "M2/S2";
:long_name = "Meridional Flux of Zonal Momentum: 3D zon. mean";
:cell_methods = "zlon: mean time: mean";
float UWzm(time=1, ilev=127, lat=96, zlon=1);
:mdims = 2; // int
:units = "M2/S2";
:long_name = "Vertical Flux of Zonal Momentum: 3D zon. mean";
:cell_methods = "zlon: mean time: mean";
float U_12_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Zonal wind 12hr. cos coeff.";
:cell_methods = "time: mean";
float U_12_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Zonal wind 12hr. sin coeff.";
:cell_methods = "time: mean";
float U_24_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Zonal wind 24hr. cos coeff.";
:cell_methods = "time: mean";
float U_24_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Zonal wind 24hr. sin coeff.";
:cell_methods = "time: mean";
float V(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Meridional wind";
:cell_methods = "time: mean";
float VD01(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Vertical diffusion of Q";
:cell_methods = "time: mean";
float VERT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg";
:long_name = "vertical tracer";
:cell_methods = "time: mean";
float VERTSRC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "VERT source/sink";
:cell_methods = "time: mean";
float VI(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "VI Meridional ion drift from edynamo";
:cell_methods = "time: mean";
float VIONTEND(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "M/S2";
:long_name = "v-tendency due to ion drag";
:cell_methods = "time: mean";
float VQ(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/skg/kg";
:long_name = "Meridional water transport";
:cell_methods = "time: mean";
float VT(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "K m/s";
:long_name = "Meridional heat transport";
:cell_methods = "time: mean";
float VTGWORO(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "V tendency - orographic gravity wave drag";
:cell_methods = "time: mean";
float VTGWSPEC(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s2";
:long_name = "C&M V tendency - gravity wave spectrum";
:cell_methods = "time: mean";
float VTHzm(time=1, ilev=127, lat=96, zlon=1);
:mdims = 2; // int
:units = "MK/S";
:long_name = "Meridional Heat Flux: 3D zon. mean";
:cell_methods = "zlon: mean time: mean";
float VU(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m2/s2";
:long_name = "Meridional flux of zonal momentum";
:cell_methods = "time: mean";
float VV(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m2/s2";
:long_name = "Meridional velocity squared";
:cell_methods = "time: mean";
float V_12_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Meridional wind 12hr. cos coeff.";
:cell_methods = "time: mean";
float V_12_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Meridional wind 12hr. sin coeff.";
:cell_methods = "time: mean";
float V_24_COS(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Meridional wind 24hr. cos coeff.";
:cell_methods = "time: mean";
float V_24_SIN(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "Meridional wind 24hr. sin coeff.";
:cell_methods = "time: mean";
float WD_BRONO2(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_CH2O(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_CH3OOH(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_CLONO2(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_COF2(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_COFCL(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_H2O2(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_HBR(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_HCL(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_HF(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_HNO3(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_HO2NO2(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_HOBR(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WD_HOCL(time=1, lat=96, lon=144);
:units = "kg/s";
:long_name = "vertical integrated wet deposition flux";
:cell_methods = "time: mean";
float WI(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m/s";
:long_name = "WI Meridional ion drift from edynamo";
:cell_methods = "time: mean";
float WTHzm(time=1, ilev=127, lat=96, zlon=1);
:mdims = 2; // int
:units = "MK/S";
:long_name = "Vertical Heat Flux: 3D zon. mean";
:cell_methods = "zlon: mean time: mean";
float Z3(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "m";
:long_name = "Geopotential Height (above sea level)";
:cell_methods = "time: mean";
float e(time=1, lev=126, lat=96, lon=144);
:mdims = 1; // int
:units = "mol/mol";
:long_name = "e concentration";
:cell_methods = "time: mean";
float e_SRF(time=1, lat=96, lon=144);
:units = "mol/mol";
:long_name = "e in bottom layer";
:cell_methods = "time: mean";
// global attributes:
:Conventions = "CF-1.0";
:source = "CAM";
:case = "f.c5499.FXREFC1_SMIN.f19_f19.WXedynop_n14.001";
:title = "UNSET";
:logname = "joemci";
:host = "yslogin1";
:Version = "$Name$";
:revision_Id = "$Id$";
:initial_file = "/glade/p/cesmdata/cseg/inputdata/atm/waccm/ic/f.c5406.F_SMIN_WACCMXIE.f19_f19.WXedynop.002.cam.i.1972-01-01-00000_c170208.nc";
:topography_file = "/glade/p/cesmdata/cseg/inputdata/atm/cam/topo/USGS-gtopo30_1.9x2.5_remap_c050602.nc";
:time_period_freq = "month_1";
}
