netcdf \1 { dimensions: time = UNLIMITED ; // (1 currently) lat = 1 ; lon = 1 ; lev = 1 ; ilev = 1 ; slat = 191 ; slon = 288 ; chars = 8 ; nbnd = 2 ; variables: float AEROD_v(time, lat, lon) ; AEROD_v:_FillValue = 1.e+36f ; AEROD_v:missing_value = 1.e+36f ; AEROD_v:units = "1" ; AEROD_v:long_name = "Total Aerosol Optical Depth in visible band" ; AEROD_v:cell_methods = "time: mean" ; float ALKO2(time, lev, lat, lon) ; ALKO2:mdims = 1 ; ALKO2:units = "mol/mol" ; ALKO2:long_name = "ALKO2 concentration" ; ALKO2:cell_methods = "time: mean" ; float ALKOOH(time, lev, lat, lon) ; ALKOOH:mdims = 1 ; ALKOOH:units = "mol/mol" ; ALKOOH:long_name = "ALKOOH concentration" ; ALKOOH:cell_methods = "time: mean" ; float AOA1(time, lev, lat, lon) ; AOA1:mdims = 1 ; AOA1:units = "kg/kg" ; AOA1:long_name = "Age-of_air tracer 1" ; AOA1:cell_methods = "time: mean" ; float AOA1SRC(time, lev, lat, lon) ; AOA1SRC:mdims = 1 ; AOA1SRC:units = "kg/kg/s" ; AOA1SRC:long_name = "AOA1 source/sink" ; AOA1SRC:cell_methods = "time: mean" ; float AOA2(time, lev, lat, lon) ; AOA2:mdims = 1 ; AOA2:units = "kg/kg" ; AOA2:long_name = "Age-of_air tracer 2" ; AOA2:cell_methods = "time: mean" ; float AOA2SRC(time, lev, lat, lon) ; AOA2SRC:mdims = 1 ; AOA2SRC:units = "kg/kg/s" ; AOA2SRC:long_name = "AOA2 source/sink" ; AOA2SRC:cell_methods = "time: mean" ; float ATMEINT(time, lat, lon) ; ATMEINT:units = "J/m2" ; ATMEINT:long_name = "Vertically integrated total atmospheric energy" ; ATMEINT:cell_methods = "time: mean" ; float BENO2(time, lev, lat, lon) ; BENO2:mdims = 1 ; BENO2:units = "mol/mol" ; BENO2:long_name = "BENO2 concentration" ; BENO2:cell_methods = "time: mean" ; float BENOOH(time, lev, lat, lon) ; BENOOH:mdims = 1 ; BENOOH:units = "mol/mol" ; BENOOH:long_name = "BENOOH concentration" ; BENOOH:cell_methods = "time: mean" ; float BENZENE(time, lev, lat, lon) ; BENZENE:mdims = 1 ; BENZENE:units = "mol/mol" ; BENZENE:long_name = "BENZENE concentration" ; BENZENE:cell_methods = "time: mean" ; float BIGALD(time, lev, lat, lon) ; BIGALD:mdims = 1 ; BIGALD:units = "mol/mol" ; BIGALD:long_name = "BIGALD concentration" ; BIGALD:cell_methods = "time: mean" ; float BIGALK(time, lev, lat, lon) ; BIGALK:mdims = 1 ; BIGALK:units = "mol/mol" ; BIGALK:long_name = "BIGALK concentration" ; BIGALK:cell_methods = "time: mean" ; float BIGENE(time, lev, lat, lon) ; BIGENE:mdims = 1 ; BIGENE:units = "mol/mol" ; BIGENE:long_name = "BIGENE concentration" ; BIGENE:cell_methods = "time: mean" ; float BR(time, lev, lat, lon) ; BR:mdims = 1 ; BR:units = "mol/mol" ; BR:long_name = "BR concentration" ; BR:cell_methods = "time: mean" ; float BR2(time, lev, lat, lon) ; BR2:mdims = 1 ; BR2:units = "mol/mol" ; BR2:long_name = "BR2 concentration" ; BR2:cell_methods = "time: mean" ; float BRCL(time, lev, lat, lon) ; BRCL:mdims = 1 ; BRCL:units = "mol/mol" ; BRCL:long_name = "BRCL concentration" ; BRCL:cell_methods = "time: mean" ; float BRNO2(time, lev, lat, lon) ; BRNO2:mdims = 1 ; BRNO2:units = "mol/mol" ; BRNO2:long_name = "BRNO2 concentration" ; BRNO2:cell_methods = "time: mean" ; float BRO(time, lev, lat, lon) ; BRO:mdims = 1 ; BRO:units = "mol/mol" ; BRO:long_name = "BRO concentration" ; BRO:cell_methods = "time: mean" ; float BRONO2(time, lev, lat, lon) ; BRONO2:mdims = 1 ; BRONO2:units = "mol/mol" ; BRONO2:long_name = "BRONO2 concentration" ; BRONO2:cell_methods = "time: mean" ; float BROX(time, lev, lat, lon) ; BROX:mdims = 1 ; BROX:units = "mol/mol" ; BROX:long_name = "brox (Br+BrO+BRCl+HOBr)" ; BROX:cell_methods = "time: mean" ; float BROY(time, lev, lat, lon) ; BROY:mdims = 1 ; BROY:units = "mol/mol" ; BROY:long_name = "total inorganic bromine (Br+BrO+HOBr+BrONO2+HBr+BrCl+2Br2+BrNO2+IBr)" ; BROY:cell_methods = "time: mean" ; float BTAUE(time, ilev, lat, lon) ; BTAUE:mdims = 2 ; BTAUE:units = "Pa" ; BTAUE:long_name = "Beres Eastward Reynolds stress" ; BTAUE:cell_methods = "time: mean" ; float BTAUN(time, ilev, lat, lon) ; BTAUN:mdims = 2 ; BTAUN:units = "Pa" ; BTAUN:long_name = "Beres Northward Reynolds stress" ; BTAUN:cell_methods = "time: mean" ; float BTAUS(time, ilev, lat, lon) ; BTAUS:mdims = 2 ; BTAUS:units = "Pa" ; BTAUS:long_name = "Beres Southward Reynolds stress" ; BTAUS:cell_methods = "time: mean" ; float BTAUW(time, ilev, lat, lon) ; BTAUW:mdims = 2 ; BTAUW:units = "Pa" ; BTAUW:long_name = "Beres Westward Reynolds stress" ; BTAUW:cell_methods = "time: mean" ; float BUTGWSPEC(time, lev, lat, lon) ; BUTGWSPEC:mdims = 1 ; BUTGWSPEC:units = "m/s2" ; BUTGWSPEC:long_name = "Beres U tendency" ; BUTGWSPEC:cell_methods = "time: mean" ; float BVTGWSPEC(time, lev, lat, lon) ; BVTGWSPEC:mdims = 1 ; BVTGWSPEC:units = "m/s2" ; BVTGWSPEC:long_name = "Beres V tendency" ; BVTGWSPEC:cell_methods = "time: mean" ; float C10H16(time, lev, lat, lon) ; C10H16:mdims = 1 ; C10H16:units = "mol/mol" ; C10H16:long_name = "C10H16 concentration" ; C10H16:cell_methods = "time: mean" ; float C2H2(time, lev, lat, lon) ; C2H2:mdims = 1 ; C2H2:units = "mol/mol" ; C2H2:long_name = "C2H2 concentration" ; C2H2:cell_methods = "time: mean" ; float C2H4(time, lev, lat, lon) ; C2H4:mdims = 1 ; C2H4:units = "mol/mol" ; C2H4:long_name = "C2H4 concentration" ; C2H4:cell_methods = "time: mean" ; float C2H5O2(time, lev, lat, lon) ; C2H5O2:mdims = 1 ; C2H5O2:units = "mol/mol" ; C2H5O2:long_name = "C2H5O2 concentration" ; C2H5O2:cell_methods = "time: mean" ; float C2H5OH(time, lev, lat, lon) ; C2H5OH:mdims = 1 ; C2H5OH:units = "mol/mol" ; C2H5OH:long_name = "C2H5OH concentration" ; C2H5OH:cell_methods = "time: mean" ; float C2H5OOH(time, lev, lat, lon) ; C2H5OOH:mdims = 1 ; C2H5OOH:units = "mol/mol" ; C2H5OOH:long_name = "C2H5OOH concentration" ; C2H5OOH:cell_methods = "time: mean" ; float C2H6(time, lev, lat, lon) ; C2H6:mdims = 1 ; C2H6:units = "mol/mol" ; C2H6:long_name = "C2H6 concentration" ; C2H6:cell_methods = "time: mean" ; float C3H6(time, lev, lat, lon) ; C3H6:mdims = 1 ; C3H6:units = "mol/mol" ; C3H6:long_name = "C3H6 concentration" ; C3H6:cell_methods = "time: mean" ; float C3H7O2(time, lev, lat, lon) ; C3H7O2:mdims = 1 ; C3H7O2:units = "mol/mol" ; C3H7O2:long_name = "C3H7O2 concentration" ; C3H7O2:cell_methods = "time: mean" ; float C3H7OOH(time, lev, lat, lon) ; C3H7OOH:mdims = 1 ; C3H7OOH:units = "mol/mol" ; C3H7OOH:long_name = "C3H7OOH concentration" ; C3H7OOH:cell_methods = "time: mean" ; float C3H8(time, lev, lat, lon) ; C3H8:mdims = 1 ; C3H8:units = "mol/mol" ; C3H8:long_name = "C3H8 concentration" ; C3H8:cell_methods = "time: mean" ; float CB1(time, lev, lat, lon) ; CB1:mdims = 1 ; CB1:units = "kg/kg" ; CB1:long_name = "CB1 concentration" ; CB1:cell_methods = "time: mean" ; float CB1_CLXF(time, lat, lon) ; CB1_CLXF:units = "molec/cm2/s" ; CB1_CLXF:long_name = "vertically intergrated external forcing for CB1" ; CB1_CLXF:cell_methods = "time: mean" ; float CB1_XFRC(time, lev, lat, lon) ; CB1_XFRC:mdims = 1 ; CB1_XFRC:units = "molec/cm3/s" ; CB1_XFRC:long_name = "external forcing for CB1" ; CB1_XFRC:cell_methods = "time: mean" ; float CB2(time, lev, lat, lon) ; CB2:mdims = 1 ; CB2:units = "kg/kg" ; CB2:long_name = "CB2 concentration" ; CB2:cell_methods = "time: mean" ; float CB2SFWET(time, lat, lon) ; CB2SFWET:units = "kg/m2/s" ; CB2SFWET:long_name = "Wet deposition flux at surface" ; CB2SFWET:cell_methods = "time: mean" ; float CCL4(time, lev, lat, lon) ; CCL4:mdims = 1 ; CCL4:units = "mol/mol" ; CCL4:long_name = "CCL4 concentration" ; CCL4:cell_methods = "time: mean" ; float CF2CLBR(time, lev, lat, lon) ; CF2CLBR:mdims = 1 ; CF2CLBR:units = "mol/mol" ; CF2CLBR:long_name = "CF2CLBR concentration" ; CF2CLBR:cell_methods = "time: mean" ; float CF3BR(time, lev, lat, lon) ; CF3BR:mdims = 1 ; CF3BR:units = "mol/mol" ; CF3BR:long_name = "CF3BR concentration" ; CF3BR:cell_methods = "time: mean" ; float CFC11(time, lev, lat, lon) ; CFC11:mdims = 1 ; CFC11:units = "mol/mol" ; CFC11:long_name = "CFC11 concentration" ; CFC11:cell_methods = "time: mean" ; float CFC113(time, lev, lat, lon) ; CFC113:mdims = 1 ; CFC113:units = "mol/mol" ; CFC113:long_name = "CFC113 concentration" ; CFC113:cell_methods = "time: mean" ; float CFC114(time, lev, lat, lon) ; CFC114:mdims = 1 ; CFC114:units = "mol/mol" ; CFC114:long_name = "CFC114 concentration" ; CFC114:cell_methods = "time: mean" ; float CFC115(time, lev, lat, lon) ; CFC115:mdims = 1 ; CFC115:units = "mol/mol" ; CFC115:long_name = "CFC115 concentration" ; CFC115:cell_methods = "time: mean" ; float CFC11STAR(time, lev, lat, lon) ; CFC11STAR:mdims = 1 ; CFC11STAR:units = "kg/kg" ; CFC11STAR:long_name = "cfc11star for radiation" ; CFC11STAR:cell_methods = "time: mean" ; float CFC12(time, lev, lat, lon) ; CFC12:mdims = 1 ; CFC12:units = "mol/mol" ; CFC12:long_name = "CFC12 concentration" ; CFC12:cell_methods = "time: mean" ; float CH2BR2(time, lev, lat, lon) ; CH2BR2:mdims = 1 ; CH2BR2:units = "mol/mol" ; CH2BR2:long_name = "CH2BR2 concentration" ; CH2BR2:cell_methods = "time: mean" ; float CH2BRCL(time, lev, lat, lon) ; CH2BRCL:mdims = 1 ; CH2BRCL:units = "mol/mol" ; CH2BRCL:long_name = "CH2BRCL concentration" ; CH2BRCL:cell_methods = "time: mean" ; float CH2I2(time, lev, lat, lon) ; CH2I2:mdims = 1 ; CH2I2:units = "mol/mol" ; CH2I2:long_name = "CH2I2 concentration" ; CH2I2:cell_methods = "time: mean" ; float CH2IBR(time, lev, lat, lon) ; CH2IBR:mdims = 1 ; CH2IBR:units = "mol/mol" ; CH2IBR:long_name = "CH2IBR concentration" ; CH2IBR:cell_methods = "time: mean" ; float CH2ICL(time, lev, lat, lon) ; CH2ICL:mdims = 1 ; CH2ICL:units = "mol/mol" ; CH2ICL:long_name = "CH2ICL concentration" ; CH2ICL:cell_methods = "time: mean" ; float CH2O(time, lev, lat, lon) ; CH2O:mdims = 1 ; CH2O:units = "mol/mol" ; CH2O:long_name = "CH2O concentration" ; CH2O:cell_methods = "time: mean" ; float CH3BR(time, lev, lat, lon) ; CH3BR:mdims = 1 ; CH3BR:units = "mol/mol" ; CH3BR:long_name = "CH3BR concentration" ; CH3BR:cell_methods = "time: mean" ; float CH3CCL3(time, lev, lat, lon) ; CH3CCL3:mdims = 1 ; CH3CCL3:units = "mol/mol" ; CH3CCL3:long_name = "CH3CCL3 concentration" ; CH3CCL3:cell_methods = "time: mean" ; float CH3CHO(time, lev, lat, lon) ; CH3CHO:mdims = 1 ; CH3CHO:units = "mol/mol" ; CH3CHO:long_name = "CH3CHO concentration" ; CH3CHO:cell_methods = "time: mean" ; float CH3CL(time, lev, lat, lon) ; CH3CL:mdims = 1 ; CH3CL:units = "mol/mol" ; CH3CL:long_name = "CH3CL concentration" ; CH3CL:cell_methods = "time: mean" ; float CH3CN(time, lev, lat, lon) ; CH3CN:mdims = 1 ; CH3CN:units = "mol/mol" ; CH3CN:long_name = "CH3CN concentration" ; CH3CN:cell_methods = "time: mean" ; float CH3CO3(time, lev, lat, lon) ; CH3CO3:mdims = 1 ; CH3CO3:units = "mol/mol" ; CH3CO3:long_name = "CH3CO3 concentration" ; CH3CO3:cell_methods = "time: mean" ; float CH3COCH3(time, lev, lat, lon) ; CH3COCH3:mdims = 1 ; CH3COCH3:units = "mol/mol" ; CH3COCH3:long_name = "CH3COCH3 concentration" ; CH3COCH3:cell_methods = "time: mean" ; float CH3COCHO(time, lev, lat, lon) ; CH3COCHO:mdims = 1 ; CH3COCHO:units = "mol/mol" ; CH3COCHO:long_name = "CH3COCHO concentration" ; CH3COCHO:cell_methods = "time: mean" ; float CH3COOH(time, lev, lat, lon) ; CH3COOH:mdims = 1 ; CH3COOH:units = "mol/mol" ; CH3COOH:long_name = "CH3COOH concentration" ; CH3COOH:cell_methods = "time: mean" ; float CH3COOOH(time, lev, lat, lon) ; CH3COOOH:mdims = 1 ; CH3COOOH:units = "mol/mol" ; CH3COOOH:long_name = "CH3COOOH concentration" ; CH3COOOH:cell_methods = "time: mean" ; float CH3I(time, lev, lat, lon) ; CH3I:mdims = 1 ; CH3I:units = "mol/mol" ; CH3I:long_name = "CH3I concentration" ; CH3I:cell_methods = "time: mean" ; float CH3O2(time, lev, lat, lon) ; CH3O2:mdims = 1 ; CH3O2:units = "mol/mol" ; CH3O2:long_name = "CH3O2 concentration" ; CH3O2:cell_methods = "time: mean" ; float CH3OH(time, lev, lat, lon) ; CH3OH:mdims = 1 ; CH3OH:units = "mol/mol" ; CH3OH:long_name = "CH3OH concentration" ; CH3OH:cell_methods = "time: mean" ; float CH3OOH(time, lev, lat, lon) ; CH3OOH:mdims = 1 ; CH3OOH:units = "mol/mol" ; CH3OOH:long_name = "CH3OOH concentration" ; CH3OOH:cell_methods = "time: mean" ; float CH4(time, lev, lat, lon) ; CH4:mdims = 1 ; CH4:units = "mol/mol" ; CH4:long_name = "CH4 concentration" ; CH4:cell_methods = "time: mean" ; float CHBR2CL(time, lev, lat, lon) ; CHBR2CL:mdims = 1 ; CHBR2CL:units = "mol/mol" ; CHBR2CL:long_name = "CHBR2CL concentration" ; CHBR2CL:cell_methods = "time: mean" ; float CHBR3(time, lev, lat, lon) ; CHBR3:mdims = 1 ; CHBR3:units = "mol/mol" ; CHBR3:long_name = "CHBR3 concentration" ; CHBR3:cell_methods = "time: mean" ; float CHBRCL2(time, lev, lat, lon) ; CHBRCL2:mdims = 1 ; CHBRCL2:units = "mol/mol" ; CHBRCL2:long_name = "CHBRCL2 concentration" ; CHBRCL2:cell_methods = "time: mean" ; float CL(time, lev, lat, lon) ; CL:mdims = 1 ; CL:units = "mol/mol" ; CL:long_name = "CL concentration" ; CL:cell_methods = "time: mean" ; float CL2(time, lev, lat, lon) ; CL2:mdims = 1 ; CL2:units = "mol/mol" ; CL2:long_name = "CL2 concentration" ; CL2:cell_methods = "time: mean" ; float CL2O2(time, lev, lat, lon) ; CL2O2:mdims = 1 ; CL2O2:units = "mol/mol" ; CL2O2:long_name = "CL2O2 concentration" ; CL2O2:cell_methods = "time: mean" ; float CLDHGH(time, lat, lon) ; CLDHGH:Sampling_Sequence = "rad_lwsw" ; CLDHGH:units = "fraction" ; CLDHGH:long_name = "Vertically-integrated high cloud" ; CLDHGH:cell_methods = "time: mean" ; float CLDICE(time, lev, lat, lon) ; CLDICE:mdims = 1 ; CLDICE:units = "kg/kg" ; CLDICE:long_name = "Grid box averaged cloud ice amount" ; CLDICE:cell_methods = "time: mean" ; float CLDLIQ(time, lev, lat, lon) ; CLDLIQ:mdims = 1 ; CLDLIQ:units = "kg/kg" ; CLDLIQ:long_name = "Grid box averaged cloud liquid amount" ; CLDLIQ:cell_methods = "time: mean" ; float CLDLOW(time, lat, lon) ; CLDLOW:Sampling_Sequence = "rad_lwsw" ; CLDLOW:units = "fraction" ; CLDLOW:long_name = "Vertically-integrated low cloud" ; CLDLOW:cell_methods = "time: mean" ; float CLDMED(time, lat, lon) ; CLDMED:Sampling_Sequence = "rad_lwsw" ; CLDMED:units = "fraction" ; CLDMED:long_name = "Vertically-integrated mid-level cloud" ; CLDMED:cell_methods = "time: mean" ; float CLDTOT(time, lat, lon) ; CLDTOT:Sampling_Sequence = "rad_lwsw" ; CLDTOT:units = "fraction" ; CLDTOT:long_name = "Vertically-integrated total cloud" ; CLDTOT:cell_methods = "time: mean" ; float CLNO2(time, lev, lat, lon) ; CLNO2:mdims = 1 ; CLNO2:units = "mol/mol" ; CLNO2:long_name = "CLNO2 concentration" ; CLNO2:cell_methods = "time: mean" ; float CLO(time, lev, lat, lon) ; CLO:mdims = 1 ; CLO:units = "mol/mol" ; CLO:long_name = "CLO concentration" ; CLO:cell_methods = "time: mean" ; float CLONO2(time, lev, lat, lon) ; CLONO2:mdims = 1 ; CLONO2:units = "mol/mol" ; CLONO2:long_name = "CLONO2 concentration" ; CLONO2:cell_methods = "time: mean" ; float CLOUD(time, lev, lat, lon) ; CLOUD:mdims = 1 ; CLOUD:Sampling_Sequence = "rad_lwsw" ; CLOUD:units = "fraction" ; CLOUD:long_name = "Cloud fraction" ; CLOUD:cell_methods = "time: mean" ; float CLOX(time, lev, lat, lon) ; CLOX:mdims = 1 ; CLOX:units = "mol/mol" ; CLOX:long_name = "clox (Cl+CLO+HOCl+2Cl2+2Cl2O2+OClO" ; CLOX:cell_methods = "time: mean" ; float CLOY(time, lev, lat, lon) ; CLOY:mdims = 1 ; CLOY:units = "mol/mol" ; CLOY:long_name = "total inorganic chlorine (Cl+ClO+2Cl2+2Cl2O2+OClO+HOCl+ClONO2+HCl+BrCl+ClNO2+ICl)" ; CLOY:cell_methods = "time: mean" ; float CMFDQ(time, lev, lat, lon) ; CMFDQ:mdims = 1 ; CMFDQ:units = "kg/kg/s" ; CMFDQ:long_name = "QV tendency - shallow convection" ; CMFDQ:cell_methods = "time: mean" ; float CMFDQR(time, lev, lat, lon) ; CMFDQR:mdims = 1 ; CMFDQR:units = "kg/kg/s" ; CMFDQR:long_name = "Q tendency - shallow convection rainout" ; CMFDQR:cell_methods = "time: mean" ; float CMFDT(time, lev, lat, lon) ; CMFDT:mdims = 1 ; CMFDT:units = "K/s" ; CMFDT:long_name = "T tendency - shallow convection" ; CMFDT:cell_methods = "time: mean" ; float CMFMC(time, ilev, lat, lon) ; CMFMC:mdims = 2 ; CMFMC:units = "kg/m2/s" ; CMFMC:long_name = "Moist shallow convection mass flux" ; CMFMC:cell_methods = "time: mean" ; float CMFMCDZM(time, ilev, lat, lon) ; CMFMCDZM:mdims = 2 ; CMFMCDZM:units = "kg/m2/s" ; CMFMCDZM:long_name = "Convection mass flux from ZM deep" ; CMFMCDZM:cell_methods = "time: mean" ; float CO(time, lev, lat, lon) ; CO:mdims = 1 ; CO:units = "mol/mol" ; CO:long_name = "CO concentration" ; CO:cell_methods = "time: mean" ; float CO2(time, lev, lat, lon) ; CO2:mdims = 1 ; CO2:units = "mol/mol" ; CO2:long_name = "CO2 concentration" ; CO2:cell_methods = "time: mean" ; float CONCLD(time, lev, lat, lon) ; CONCLD:mdims = 1 ; CONCLD:units = "fraction" ; CONCLD:long_name = "Convective cloud cover" ; CONCLD:cell_methods = "time: mean" ; float CRESOL(time, lev, lat, lon) ; CRESOL:mdims = 1 ; CRESOL:units = "mol/mol" ; CRESOL:long_name = "CRESOL concentration" ; CRESOL:cell_methods = "time: mean" ; float DCQ(time, lev, lat, lon) ; DCQ:mdims = 1 ; DCQ:units = "kg/kg/s" ; DCQ:long_name = "Q tendency due to moist processes" ; DCQ:cell_methods = "time: mean" ; float DF_ALKOOH(time, lat, lon) ; DF_ALKOOH:units = "kg/m2/s" ; DF_ALKOOH:long_name = "dry deposition flux" ; DF_ALKOOH:cell_methods = "time: mean" ; float DF_BENZENE(time, lat, lon) ; DF_BENZENE:units = "kg/m2/s" ; DF_BENZENE:long_name = "dry deposition flux" ; DF_BENZENE:cell_methods = "time: mean" ; float DF_BR2(time, lat, lon) ; DF_BR2:units = "kg/m2/s" ; DF_BR2:long_name = "dry deposition flux" ; DF_BR2:cell_methods = "time: mean" ; float DF_C2H5OH(time, lat, lon) ; DF_C2H5OH:units = "kg/m2/s" ; DF_C2H5OH:long_name = "dry deposition flux" ; DF_C2H5OH:cell_methods = "time: mean" ; float DF_C2H5OOH(time, lat, lon) ; DF_C2H5OOH:units = "kg/m2/s" ; DF_C2H5OOH:long_name = "dry deposition flux" ; DF_C2H5OOH:cell_methods = "time: mean" ; float DF_C3H7OOH(time, lat, lon) ; DF_C3H7OOH:units = "kg/m2/s" ; DF_C3H7OOH:long_name = "dry deposition flux" ; DF_C3H7OOH:cell_methods = "time: mean" ; float DF_CH2O(time, lat, lon) ; DF_CH2O:units = "kg/m2/s" ; DF_CH2O:long_name = "dry deposition flux" ; DF_CH2O:cell_methods = "time: mean" ; float DF_CH3CHO(time, lat, lon) ; DF_CH3CHO:units = "kg/m2/s" ; DF_CH3CHO:long_name = "dry deposition flux" ; DF_CH3CHO:cell_methods = "time: mean" ; float DF_CH3CN(time, lat, lon) ; DF_CH3CN:units = "kg/m2/s" ; DF_CH3CN:long_name = "dry deposition flux" ; DF_CH3CN:cell_methods = "time: mean" ; float DF_CH3COCH3(time, lat, lon) ; DF_CH3COCH3:units = "kg/m2/s" ; DF_CH3COCH3:long_name = "dry deposition flux" ; DF_CH3COCH3:cell_methods = "time: mean" ; float DF_CH3COCHO(time, lat, lon) ; DF_CH3COCHO:units = "kg/m2/s" ; DF_CH3COCHO:long_name = "dry deposition flux" ; DF_CH3COCHO:cell_methods = "time: mean" ; float DF_CH3COOH(time, lat, lon) ; DF_CH3COOH:units = "kg/m2/s" ; DF_CH3COOH:long_name = "dry deposition flux" ; DF_CH3COOH:cell_methods = "time: mean" ; float DF_CH3COOOH(time, lat, lon) ; DF_CH3COOOH:units = "kg/m2/s" ; DF_CH3COOOH:long_name = "dry deposition flux" ; DF_CH3COOOH:cell_methods = "time: mean" ; float DF_CH3OH(time, lat, lon) ; DF_CH3OH:units = "kg/m2/s" ; DF_CH3OH:long_name = "dry deposition flux" ; DF_CH3OH:cell_methods = "time: mean" ; float DF_CH3OOH(time, lat, lon) ; DF_CH3OOH:units = "kg/m2/s" ; DF_CH3OOH:long_name = "dry deposition flux" ; DF_CH3OOH:cell_methods = "time: mean" ; float DF_CO(time, lat, lon) ; DF_CO:units = "kg/m2/s" ; DF_CO:long_name = "dry deposition flux" ; DF_CO:cell_methods = "time: mean" ; float DF_DST01(time, lat, lon) ; DF_DST01:units = "kg/m2/s" ; DF_DST01:long_name = "dry deposition flux" ; DF_DST01:cell_methods = "time: mean" ; float DF_DST02(time, lat, lon) ; DF_DST02:units = "kg/m2/s" ; DF_DST02:long_name = "dry deposition flux" ; DF_DST02:cell_methods = "time: mean" ; float DF_DST03(time, lat, lon) ; DF_DST03:units = "kg/m2/s" ; DF_DST03:long_name = "dry deposition flux" ; DF_DST03:cell_methods = "time: mean" ; float DF_DST04(time, lat, lon) ; DF_DST04:units = "kg/m2/s" ; DF_DST04:long_name = "dry deposition flux" ; DF_DST04:cell_methods = "time: mean" ; float DF_EOOH(time, lat, lon) ; DF_EOOH:units = "kg/m2/s" ; DF_EOOH:long_name = "dry deposition flux" ; DF_EOOH:cell_methods = "time: mean" ; float DF_GLYALD(time, lat, lon) ; DF_GLYALD:units = "kg/m2/s" ; DF_GLYALD:long_name = "dry deposition flux" ; DF_GLYALD:cell_methods = "time: mean" ; float DF_H2O2(time, lat, lon) ; DF_H2O2:units = "kg/m2/s" ; DF_H2O2:long_name = "dry deposition flux" ; DF_H2O2:cell_methods = "time: mean" ; float DF_HCN(time, lat, lon) ; DF_HCN:units = "kg/m2/s" ; DF_HCN:long_name = "dry deposition flux" ; DF_HCN:cell_methods = "time: mean" ; float DF_HCOOH(time, lat, lon) ; DF_HCOOH:units = "kg/m2/s" ; DF_HCOOH:long_name = "dry deposition flux" ; DF_HCOOH:cell_methods = "time: mean" ; float DF_HI(time, lat, lon) ; DF_HI:units = "kg/m2/s" ; DF_HI:long_name = "dry deposition flux" ; DF_HI:cell_methods = "time: mean" ; float DF_HNO3(time, lat, lon) ; DF_HNO3:units = "kg/m2/s" ; DF_HNO3:long_name = "dry deposition flux" ; DF_HNO3:cell_methods = "time: mean" ; float DF_HO2NO2(time, lat, lon) ; DF_HO2NO2:units = "kg/m2/s" ; DF_HO2NO2:long_name = "dry deposition flux" ; DF_HO2NO2:cell_methods = "time: mean" ; float DF_HOI(time, lat, lon) ; DF_HOI:units = "kg/m2/s" ; DF_HOI:long_name = "dry deposition flux" ; DF_HOI:cell_methods = "time: mean" ; float DF_HYAC(time, lat, lon) ; DF_HYAC:units = "kg/m2/s" ; DF_HYAC:long_name = "dry deposition flux" ; DF_HYAC:cell_methods = "time: mean" ; float DF_HYDRALD(time, lat, lon) ; DF_HYDRALD:units = "kg/m2/s" ; DF_HYDRALD:long_name = "dry deposition flux" ; DF_HYDRALD:cell_methods = "time: mean" ; float DF_I2O2(time, lat, lon) ; DF_I2O2:units = "kg/m2/s" ; DF_I2O2:long_name = "dry deposition flux" ; DF_I2O2:cell_methods = "time: mean" ; float DF_I2O3(time, lat, lon) ; DF_I2O3:units = "kg/m2/s" ; DF_I2O3:long_name = "dry deposition flux" ; DF_I2O3:cell_methods = "time: mean" ; float DF_I2O4(time, lat, lon) ; DF_I2O4:units = "kg/m2/s" ; DF_I2O4:long_name = "dry deposition flux" ; DF_I2O4:cell_methods = "time: mean" ; float DF_INO2(time, lat, lon) ; DF_INO2:units = "kg/m2/s" ; DF_INO2:long_name = "dry deposition flux" ; DF_INO2:cell_methods = "time: mean" ; float DF_IONO2(time, lat, lon) ; DF_IONO2:units = "kg/m2/s" ; DF_IONO2:long_name = "dry deposition flux" ; DF_IONO2:cell_methods = "time: mean" ; float DF_ISOPOOH(time, lat, lon) ; DF_ISOPOOH:units = "kg/m2/s" ; DF_ISOPOOH:long_name = "dry deposition flux" ; DF_ISOPOOH:cell_methods = "time: mean" ; float DF_MACROOH(time, lat, lon) ; DF_MACROOH:units = "kg/m2/s" ; DF_MACROOH:long_name = "dry deposition flux" ; DF_MACROOH:cell_methods = "time: mean" ; float DF_MEKOOH(time, lat, lon) ; DF_MEKOOH:units = "kg/m2/s" ; DF_MEKOOH:long_name = "dry deposition flux" ; DF_MEKOOH:cell_methods = "time: mean" ; float DF_MPAN(time, lat, lon) ; DF_MPAN:units = "kg/m2/s" ; DF_MPAN:long_name = "dry deposition flux" ; DF_MPAN:cell_methods = "time: mean" ; float DF_NH4(time, lat, lon) ; DF_NH4:units = "kg/m2/s" ; DF_NH4:long_name = "dry deposition flux" ; DF_NH4:cell_methods = "time: mean" ; float DF_NH4NO3(time, lat, lon) ; DF_NH4NO3:units = "kg/m2/s" ; DF_NH4NO3:long_name = "dry deposition flux" ; DF_NH4NO3:cell_methods = "time: mean" ; float DF_NHX(time, lat, lon) ; DF_NHX:units = "kg/m2/s" ; DF_NHX:long_name = "NHx dry deposition flux" ; DF_NHX:cell_methods = "time: mean" ; float DF_NO(time, lat, lon) ; DF_NO:units = "kg/m2/s" ; DF_NO:long_name = "dry deposition flux" ; DF_NO:cell_methods = "time: mean" ; float DF_NO2(time, lat, lon) ; DF_NO2:units = "kg/m2/s" ; DF_NO2:long_name = "dry deposition flux" ; DF_NO2:cell_methods = "time: mean" ; float DF_NOY(time, lat, lon) ; DF_NOY:units = "kg/m2/s" ; DF_NOY:long_name = "NOy dry deposition flux" ; DF_NOY:cell_methods = "time: mean" ; float DF_O3(time, lat, lon) ; DF_O3:units = "kg/m2/s" ; DF_O3:long_name = "dry deposition flux" ; DF_O3:cell_methods = "time: mean" ; float DF_ONIT(time, lat, lon) ; DF_ONIT:units = "kg/m2/s" ; DF_ONIT:long_name = "dry deposition flux" ; DF_ONIT:cell_methods = "time: mean" ; float DF_ONITR(time, lat, lon) ; DF_ONITR:units = "kg/m2/s" ; DF_ONITR:long_name = "dry deposition flux" ; DF_ONITR:cell_methods = "time: mean" ; float DF_PAN(time, lat, lon) ; DF_PAN:units = "kg/m2/s" ; DF_PAN:long_name = "dry deposition flux" ; DF_PAN:cell_methods = "time: mean" ; float DF_POOH(time, lat, lon) ; DF_POOH:units = "kg/m2/s" ; DF_POOH:long_name = "dry deposition flux" ; DF_POOH:cell_methods = "time: mean" ; float DF_ROOH(time, lat, lon) ; DF_ROOH:units = "kg/m2/s" ; DF_ROOH:long_name = "dry deposition flux" ; DF_ROOH:cell_methods = "time: mean" ; float DF_SO2(time, lat, lon) ; DF_SO2:units = "kg/m2/s" ; DF_SO2:long_name = "dry deposition flux" ; DF_SO2:cell_methods = "time: mean" ; float DF_SO4(time, lat, lon) ; DF_SO4:units = "kg/m2/s" ; DF_SO4:long_name = "dry deposition flux" ; DF_SO4:cell_methods = "time: mean" ; float DF_SOX(time, lat, lon) ; DF_SOX:units = "kg/m2/s" ; DF_SOX:long_name = "SOx dry deposition flux" ; DF_SOX:cell_methods = "time: mean" ; float DF_SSLT01(time, lat, lon) ; DF_SSLT01:units = "kg/m2/s" ; DF_SSLT01:long_name = "dry deposition flux" ; DF_SSLT01:cell_methods = "time: mean" ; float DF_SSLT02(time, lat, lon) ; DF_SSLT02:units = "kg/m2/s" ; DF_SSLT02:long_name = "dry deposition flux" ; DF_SSLT02:cell_methods = "time: mean" ; float DF_SSLT03(time, lat, lon) ; DF_SSLT03:units = "kg/m2/s" ; DF_SSLT03:long_name = "dry deposition flux" ; DF_SSLT03:cell_methods = "time: mean" ; float DF_SSLT04(time, lat, lon) ; DF_SSLT04:units = "kg/m2/s" ; DF_SSLT04:long_name = "dry deposition flux" ; DF_SSLT04:cell_methods = "time: mean" ; float DF_TERPOOH(time, lat, lon) ; DF_TERPOOH:units = "kg/m2/s" ; DF_TERPOOH:long_name = "dry deposition flux" ; DF_TERPOOH:cell_methods = "time: mean" ; float DF_TOLOOH(time, lat, lon) ; DF_TOLOOH:units = "kg/m2/s" ; DF_TOLOOH:long_name = "dry deposition flux" ; DF_TOLOOH:cell_methods = "time: mean" ; float DF_XOOH(time, lat, lon) ; DF_XOOH:units = "kg/m2/s" ; DF_XOOH:long_name = "dry deposition flux" ; DF_XOOH:cell_methods = "time: mean" ; float DF_XYLENE(time, lat, lon) ; DF_XYLENE:units = "kg/m2/s" ; DF_XYLENE:long_name = "dry deposition flux" ; DF_XYLENE:cell_methods = "time: mean" ; float DIOCHM(time, lev, lat, lon) ; DIOCHM:mdims = 1 ; DIOCHM:units = "kg/s" ; DIOCHM:long_name = "net tendency from chem" ; DIOCHM:cell_methods = "time: mean" ; float DMS(time, lev, lat, lon) ; DMS:mdims = 1 ; DMS:units = "mol/mol" ; DMS:long_name = "DMS concentration" ; DMS:cell_methods = "time: mean" ; float DST01(time, lev, lat, lon) ; DST01:mdims = 1 ; DST01:units = "kg/kg" ; DST01:long_name = "DST01 dust mixing ratio" ; DST01:cell_methods = "time: mean" ; float DST01DD(time, lat, lon) ; DST01DD:units = "kg/m2/s" ; DST01DD:long_name = "DST01 dry deposition flux at bottom (grav + turb)" ; DST01DD:cell_methods = "time: mean" ; float DST01DT(time, lev, lat, lon) ; DST01DT:mdims = 1 ; DST01DT:units = "kg/kg/s" ; DST01DT:long_name = "DST01 dry deposition" ; DST01DT:cell_methods = "time: mean" ; float DST01DV(time, lev, lat, lon) ; DST01DV:mdims = 1 ; DST01DV:units = "m/s" ; DST01DV:long_name = "DST01 deposition velocity" ; DST01DV:cell_methods = "time: mean" ; float DST01GV(time, lat, lon) ; DST01GV:units = "kg/m2/s" ; DST01GV:long_name = "DST01 gravitational dry deposition flux" ; DST01GV:cell_methods = "time: mean" ; float DST01PP(time, lev, lat, lon) ; DST01PP:mdims = 1 ; DST01PP:units = "kg/kg/s" ; DST01PP:long_name = "DST01 wet deposition" ; DST01PP:cell_methods = "time: mean" ; float DST01SF(time, lat, lon) ; DST01SF:units = "kg/m2/s" ; DST01SF:long_name = "DST01 dust surface emission" ; DST01SF:cell_methods = "time: mean" ; float DST01TB(time, lat, lon) ; DST01TB:units = "kg/m2/s" ; DST01TB:long_name = "DST01 turbulent dry deposition flux" ; DST01TB:cell_methods = "time: mean" ; float DST02(time, lev, lat, lon) ; DST02:mdims = 1 ; DST02:units = "kg/kg" ; DST02:long_name = "DST02 dust mixing ratio" ; DST02:cell_methods = "time: mean" ; float DST02DD(time, lat, lon) ; DST02DD:units = "kg/m2/s" ; DST02DD:long_name = "DST02 dry deposition flux at bottom (grav + turb)" ; DST02DD:cell_methods = "time: mean" ; float DST02DT(time, lev, lat, lon) ; DST02DT:mdims = 1 ; DST02DT:units = "kg/kg/s" ; DST02DT:long_name = "DST02 dry deposition" ; DST02DT:cell_methods = "time: mean" ; float DST02DV(time, lev, lat, lon) ; DST02DV:mdims = 1 ; DST02DV:units = "m/s" ; DST02DV:long_name = "DST02 deposition velocity" ; DST02DV:cell_methods = "time: mean" ; float DST02GV(time, lat, lon) ; DST02GV:units = "kg/m2/s" ; DST02GV:long_name = "DST02 gravitational dry deposition flux" ; DST02GV:cell_methods = "time: mean" ; float DST02PP(time, lev, lat, lon) ; DST02PP:mdims = 1 ; DST02PP:units = "kg/kg/s" ; DST02PP:long_name = "DST02 wet deposition" ; DST02PP:cell_methods = "time: mean" ; float DST02SF(time, lat, lon) ; DST02SF:units = "kg/m2/s" ; DST02SF:long_name = "DST02 dust surface emission" ; DST02SF:cell_methods = "time: mean" ; float DST02TB(time, lat, lon) ; DST02TB:units = "kg/m2/s" ; DST02TB:long_name = "DST02 turbulent dry deposition flux" ; DST02TB:cell_methods = "time: mean" ; float DST03(time, lev, lat, lon) ; DST03:mdims = 1 ; DST03:units = "kg/kg" ; DST03:long_name = "DST03 dust mixing ratio" ; DST03:cell_methods = "time: mean" ; float DST03DD(time, lat, lon) ; DST03DD:units = "kg/m2/s" ; DST03DD:long_name = "DST03 dry deposition flux at bottom (grav + turb)" ; DST03DD:cell_methods = "time: mean" ; float DST03DT(time, lev, lat, lon) ; DST03DT:mdims = 1 ; DST03DT:units = "kg/kg/s" ; DST03DT:long_name = "DST03 dry deposition" ; DST03DT:cell_methods = "time: mean" ; float DST03DV(time, lev, lat, lon) ; DST03DV:mdims = 1 ; DST03DV:units = "m/s" ; DST03DV:long_name = "DST03 deposition velocity" ; DST03DV:cell_methods = "time: mean" ; float DST03GV(time, lat, lon) ; DST03GV:units = "kg/m2/s" ; DST03GV:long_name = "DST03 gravitational dry deposition flux" ; DST03GV:cell_methods = "time: mean" ; float DST03PP(time, lev, lat, lon) ; DST03PP:mdims = 1 ; DST03PP:units = "kg/kg/s" ; DST03PP:long_name = "DST03 wet deposition" ; DST03PP:cell_methods = "time: mean" ; float DST03SF(time, lat, lon) ; DST03SF:units = "kg/m2/s" ; DST03SF:long_name = "DST03 dust surface emission" ; DST03SF:cell_methods = "time: mean" ; float DST03TB(time, lat, lon) ; DST03TB:units = "kg/m2/s" ; DST03TB:long_name = "DST03 turbulent dry deposition flux" ; DST03TB:cell_methods = "time: mean" ; float DST04(time, lev, lat, lon) ; DST04:mdims = 1 ; DST04:units = "kg/kg" ; DST04:long_name = "DST04 dust mixing ratio" ; DST04:cell_methods = "time: mean" ; float DST04DD(time, lat, lon) ; DST04DD:units = "kg/m2/s" ; DST04DD:long_name = "DST04 dry deposition flux at bottom (grav + turb)" ; DST04DD:cell_methods = "time: mean" ; float DST04DT(time, lev, lat, lon) ; DST04DT:mdims = 1 ; DST04DT:units = "kg/kg/s" ; DST04DT:long_name = "DST04 dry deposition" ; DST04DT:cell_methods = "time: mean" ; float DST04DV(time, lev, lat, lon) ; DST04DV:mdims = 1 ; DST04DV:units = "m/s" ; DST04DV:long_name = "DST04 deposition velocity" ; DST04DV:cell_methods = "time: mean" ; float DST04GV(time, lat, lon) ; DST04GV:units = "kg/m2/s" ; DST04GV:long_name = "DST04 gravitational dry deposition flux" ; DST04GV:cell_methods = "time: mean" ; float DST04PP(time, lev, lat, lon) ; DST04PP:mdims = 1 ; DST04PP:units = "kg/kg/s" ; DST04PP:long_name = "DST04 wet deposition" ; DST04PP:cell_methods = "time: mean" ; float DST04SF(time, lat, lon) ; DST04SF:units = "kg/m2/s" ; DST04SF:long_name = "DST04 dust surface emission" ; DST04SF:cell_methods = "time: mean" ; float DST04TB(time, lat, lon) ; DST04TB:units = "kg/m2/s" ; DST04TB:long_name = "DST04 turbulent dry deposition flux" ; DST04TB:cell_methods = "time: mean" ; float DSTODXC(time, lat, lon) ; DSTODXC:units = "Tau" ; DSTODXC:long_name = "Optical depth for diagnostics" ; DSTODXC:cell_methods = "time: mean" ; float DSTSFDRY(time, lat, lon) ; DSTSFDRY:units = "kg/m2/s" ; DSTSFDRY:long_name = "Dry deposition flux at surface" ; DSTSFDRY:cell_methods = "time: mean" ; float DSTSFMBL(time, lat, lon) ; DSTSFMBL:units = "kg/m2/s" ; DSTSFMBL:long_name = "Mobilization flux at surface" ; DSTSFMBL:cell_methods = "time: mean" ; float DSTSFWET(time, lat, lon) ; DSTSFWET:units = "kg/m2/s" ; DSTSFWET:long_name = "Wet deposition flux at surface" ; DSTSFWET:cell_methods = "time: mean" ; float DTCOND(time, lev, lat, lon) ; DTCOND:mdims = 1 ; DTCOND:units = "K/s" ; DTCOND:long_name = "T tendency - moist processes" ; DTCOND:cell_methods = "time: mean" ; float DTCOND_12_COS(time, lev, lat, lon) ; DTCOND_12_COS:mdims = 1 ; DTCOND_12_COS:units = "K/s" ; DTCOND_12_COS:long_name = "T tendency - moist processes 12hr. cos coeff." ; DTCOND_12_COS:cell_methods = "time: mean" ; float DTCOND_12_SIN(time, lev, lat, lon) ; DTCOND_12_SIN:mdims = 1 ; DTCOND_12_SIN:units = "K/s" ; DTCOND_12_SIN:long_name = "T tendency - moist processes 12hr. sin coeff." ; DTCOND_12_SIN:cell_methods = "time: mean" ; float DTCOND_24_COS(time, lev, lat, lon) ; DTCOND_24_COS:mdims = 1 ; DTCOND_24_COS:units = "K/s" ; DTCOND_24_COS:long_name = "T tendency - moist processes 24hr. cos coeff." ; DTCOND_24_COS:cell_methods = "time: mean" ; float DTCOND_24_SIN(time, lev, lat, lon) ; DTCOND_24_SIN:mdims = 1 ; DTCOND_24_SIN:units = "K/s" ; DTCOND_24_SIN:long_name = "T tendency - moist processes 24hr. sin coeff." ; DTCOND_24_SIN:cell_methods = "time: mean" ; float DTCORE(time, lev, lat, lon) ; DTCORE:mdims = 1 ; DTCORE:units = "K/s" ; DTCORE:long_name = "T tendency due to dynamical core" ; DTCORE:cell_methods = "time: mean" ; float DTV(time, lev, lat, lon) ; DTV:mdims = 1 ; DTV:units = "K/s" ; DTV:long_name = "T vertical diffusion" ; DTV:cell_methods = "time: mean" ; float DTWR_ALKOOH(time, lev, lat, lon) ; DTWR_ALKOOH:mdims = 1 ; DTWR_ALKOOH:units = "kg/kg/s" ; DTWR_ALKOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_ALKOOH:cell_methods = "time: mean" ; float DTWR_BR2(time, lev, lat, lon) ; DTWR_BR2:mdims = 1 ; DTWR_BR2:units = "kg/kg/s" ; DTWR_BR2:long_name = "wet removal Neu scheme tendency" ; DTWR_BR2:cell_methods = "time: mean" ; float DTWR_BRCL(time, lev, lat, lon) ; DTWR_BRCL:mdims = 1 ; DTWR_BRCL:units = "kg/kg/s" ; DTWR_BRCL:long_name = "wet removal Neu scheme tendency" ; DTWR_BRCL:cell_methods = "time: mean" ; float DTWR_BRNO2(time, lev, lat, lon) ; DTWR_BRNO2:mdims = 1 ; DTWR_BRNO2:units = "kg/kg/s" ; DTWR_BRNO2:long_name = "wet removal Neu scheme tendency" ; DTWR_BRNO2:cell_methods = "time: mean" ; float DTWR_BRONO2(time, lev, lat, lon) ; DTWR_BRONO2:mdims = 1 ; DTWR_BRONO2:units = "kg/kg/s" ; DTWR_BRONO2:long_name = "wet removal Neu scheme tendency" ; DTWR_BRONO2:cell_methods = "time: mean" ; float DTWR_C2H5OH(time, lev, lat, lon) ; DTWR_C2H5OH:mdims = 1 ; DTWR_C2H5OH:units = "kg/kg/s" ; DTWR_C2H5OH:long_name = "wet removal Neu scheme tendency" ; DTWR_C2H5OH:cell_methods = "time: mean" ; float DTWR_C2H5OOH(time, lev, lat, lon) ; DTWR_C2H5OOH:mdims = 1 ; DTWR_C2H5OOH:units = "kg/kg/s" ; DTWR_C2H5OOH:long_name = "wet removal Neu scheme tendency" ; DTWR_C2H5OOH:cell_methods = "time: mean" ; float DTWR_C3H7OOH(time, lev, lat, lon) ; DTWR_C3H7OOH:mdims = 1 ; DTWR_C3H7OOH:units = "kg/kg/s" ; DTWR_C3H7OOH:long_name = "wet removal Neu scheme tendency" ; DTWR_C3H7OOH:cell_methods = "time: mean" ; float DTWR_CH2O(time, lev, lat, lon) ; DTWR_CH2O:mdims = 1 ; DTWR_CH2O:units = "kg/kg/s" ; DTWR_CH2O:long_name = "wet removal Neu scheme tendency" ; DTWR_CH2O:cell_methods = "time: mean" ; float DTWR_CH3CHO(time, lev, lat, lon) ; DTWR_CH3CHO:mdims = 1 ; DTWR_CH3CHO:units = "kg/kg/s" ; DTWR_CH3CHO:long_name = "wet removal Neu scheme tendency" ; DTWR_CH3CHO:cell_methods = "time: mean" ; float DTWR_CH3CN(time, lev, lat, lon) ; DTWR_CH3CN:mdims = 1 ; DTWR_CH3CN:units = "kg/kg/s" ; DTWR_CH3CN:long_name = "wet removal Neu scheme tendency" ; DTWR_CH3CN:cell_methods = "time: mean" ; float DTWR_CH3COCHO(time, lev, lat, lon) ; DTWR_CH3COCHO:mdims = 1 ; DTWR_CH3COCHO:units = "kg/kg/s" ; DTWR_CH3COCHO:long_name = "wet removal Neu scheme tendency" ; DTWR_CH3COCHO:cell_methods = "time: mean" ; float DTWR_CH3COOH(time, lev, lat, lon) ; DTWR_CH3COOH:mdims = 1 ; DTWR_CH3COOH:units = "kg/kg/s" ; DTWR_CH3COOH:long_name = "wet removal Neu scheme tendency" ; DTWR_CH3COOH:cell_methods = "time: mean" ; float DTWR_CH3COOOH(time, lev, lat, lon) ; DTWR_CH3COOOH:mdims = 1 ; DTWR_CH3COOOH:units = "kg/kg/s" ; DTWR_CH3COOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_CH3COOOH:cell_methods = "time: mean" ; float DTWR_CH3OH(time, lev, lat, lon) ; DTWR_CH3OH:mdims = 1 ; DTWR_CH3OH:units = "kg/kg/s" ; DTWR_CH3OH:long_name = "wet removal Neu scheme tendency" ; DTWR_CH3OH:cell_methods = "time: mean" ; float DTWR_CH3OOH(time, lev, lat, lon) ; DTWR_CH3OOH:mdims = 1 ; DTWR_CH3OOH:units = "kg/kg/s" ; DTWR_CH3OOH:long_name = "wet removal Neu scheme tendency" ; DTWR_CH3OOH:cell_methods = "time: mean" ; float DTWR_CLNO2(time, lev, lat, lon) ; DTWR_CLNO2:mdims = 1 ; DTWR_CLNO2:units = "kg/kg/s" ; DTWR_CLNO2:long_name = "wet removal Neu scheme tendency" ; DTWR_CLNO2:cell_methods = "time: mean" ; float DTWR_CLONO2(time, lev, lat, lon) ; DTWR_CLONO2:mdims = 1 ; DTWR_CLONO2:units = "kg/kg/s" ; DTWR_CLONO2:long_name = "wet removal Neu scheme tendency" ; DTWR_CLONO2:cell_methods = "time: mean" ; float DTWR_EOOH(time, lev, lat, lon) ; DTWR_EOOH:mdims = 1 ; DTWR_EOOH:units = "kg/kg/s" ; DTWR_EOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_EOOH:cell_methods = "time: mean" ; float DTWR_GLYALD(time, lev, lat, lon) ; DTWR_GLYALD:mdims = 1 ; DTWR_GLYALD:units = "kg/kg/s" ; DTWR_GLYALD:long_name = "wet removal Neu scheme tendency" ; DTWR_GLYALD:cell_methods = "time: mean" ; float DTWR_H2O2(time, lev, lat, lon) ; DTWR_H2O2:mdims = 1 ; DTWR_H2O2:units = "kg/kg/s" ; DTWR_H2O2:long_name = "wet removal Neu scheme tendency" ; DTWR_H2O2:cell_methods = "time: mean" ; float DTWR_HBR(time, lev, lat, lon) ; DTWR_HBR:mdims = 1 ; DTWR_HBR:units = "kg/kg/s" ; DTWR_HBR:long_name = "wet removal Neu scheme tendency" ; DTWR_HBR:cell_methods = "time: mean" ; float DTWR_HCL(time, lev, lat, lon) ; DTWR_HCL:mdims = 1 ; DTWR_HCL:units = "kg/kg/s" ; DTWR_HCL:long_name = "wet removal Neu scheme tendency" ; DTWR_HCL:cell_methods = "time: mean" ; float DTWR_HCN(time, lev, lat, lon) ; DTWR_HCN:mdims = 1 ; DTWR_HCN:units = "kg/kg/s" ; DTWR_HCN:long_name = "wet removal Neu scheme tendency" ; DTWR_HCN:cell_methods = "time: mean" ; float DTWR_HCOOH(time, lev, lat, lon) ; DTWR_HCOOH:mdims = 1 ; DTWR_HCOOH:units = "kg/kg/s" ; DTWR_HCOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_HCOOH:cell_methods = "time: mean" ; float DTWR_HI(time, lev, lat, lon) ; DTWR_HI:mdims = 1 ; DTWR_HI:units = "kg/kg/s" ; DTWR_HI:long_name = "wet removal Neu scheme tendency" ; DTWR_HI:cell_methods = "time: mean" ; float DTWR_HNO3(time, lev, lat, lon) ; DTWR_HNO3:mdims = 1 ; DTWR_HNO3:units = "kg/kg/s" ; DTWR_HNO3:long_name = "wet removal Neu scheme tendency" ; DTWR_HNO3:cell_methods = "time: mean" ; float DTWR_HO2NO2(time, lev, lat, lon) ; DTWR_HO2NO2:mdims = 1 ; DTWR_HO2NO2:units = "kg/kg/s" ; DTWR_HO2NO2:long_name = "wet removal Neu scheme tendency" ; DTWR_HO2NO2:cell_methods = "time: mean" ; float DTWR_HOBR(time, lev, lat, lon) ; DTWR_HOBR:mdims = 1 ; DTWR_HOBR:units = "kg/kg/s" ; DTWR_HOBR:long_name = "wet removal Neu scheme tendency" ; DTWR_HOBR:cell_methods = "time: mean" ; float DTWR_HOCL(time, lev, lat, lon) ; DTWR_HOCL:mdims = 1 ; DTWR_HOCL:units = "kg/kg/s" ; DTWR_HOCL:long_name = "wet removal Neu scheme tendency" ; DTWR_HOCL:cell_methods = "time: mean" ; float DTWR_HYAC(time, lev, lat, lon) ; DTWR_HYAC:mdims = 1 ; DTWR_HYAC:units = "kg/kg/s" ; DTWR_HYAC:long_name = "wet removal Neu scheme tendency" ; DTWR_HYAC:cell_methods = "time: mean" ; float DTWR_HYDRALD(time, lev, lat, lon) ; DTWR_HYDRALD:mdims = 1 ; DTWR_HYDRALD:units = "kg/kg/s" ; DTWR_HYDRALD:long_name = "wet removal Neu scheme tendency" ; DTWR_HYDRALD:cell_methods = "time: mean" ; float DTWR_I2O2(time, lev, lat, lon) ; DTWR_I2O2:mdims = 1 ; DTWR_I2O2:units = "kg/kg/s" ; DTWR_I2O2:long_name = "wet removal Neu scheme tendency" ; DTWR_I2O2:cell_methods = "time: mean" ; float DTWR_I2O3(time, lev, lat, lon) ; DTWR_I2O3:mdims = 1 ; DTWR_I2O3:units = "kg/kg/s" ; DTWR_I2O3:long_name = "wet removal Neu scheme tendency" ; DTWR_I2O3:cell_methods = "time: mean" ; float DTWR_I2O4(time, lev, lat, lon) ; DTWR_I2O4:mdims = 1 ; DTWR_I2O4:units = "kg/kg/s" ; DTWR_I2O4:long_name = "wet removal Neu scheme tendency" ; DTWR_I2O4:cell_methods = "time: mean" ; float DTWR_IBR(time, lev, lat, lon) ; DTWR_IBR:mdims = 1 ; DTWR_IBR:units = "kg/kg/s" ; DTWR_IBR:long_name = "wet removal Neu scheme tendency" ; DTWR_IBR:cell_methods = "time: mean" ; float DTWR_ICL(time, lev, lat, lon) ; DTWR_ICL:mdims = 1 ; DTWR_ICL:units = "kg/kg/s" ; DTWR_ICL:long_name = "wet removal Neu scheme tendency" ; DTWR_ICL:cell_methods = "time: mean" ; float DTWR_INO2(time, lev, lat, lon) ; DTWR_INO2:mdims = 1 ; DTWR_INO2:units = "kg/kg/s" ; DTWR_INO2:long_name = "wet removal Neu scheme tendency" ; DTWR_INO2:cell_methods = "time: mean" ; float DTWR_IO(time, lev, lat, lon) ; DTWR_IO:mdims = 1 ; DTWR_IO:units = "kg/kg/s" ; DTWR_IO:long_name = "wet removal Neu scheme tendency" ; DTWR_IO:cell_methods = "time: mean" ; float DTWR_IONO2(time, lev, lat, lon) ; DTWR_IONO2:mdims = 1 ; DTWR_IONO2:units = "kg/kg/s" ; DTWR_IONO2:long_name = "wet removal Neu scheme tendency" ; DTWR_IONO2:cell_methods = "time: mean" ; float DTWR_ISOPNO3(time, lev, lat, lon) ; DTWR_ISOPNO3:mdims = 1 ; DTWR_ISOPNO3:units = "kg/kg/s" ; DTWR_ISOPNO3:long_name = "wet removal Neu scheme tendency" ; DTWR_ISOPNO3:cell_methods = "time: mean" ; float DTWR_ISOPOOH(time, lev, lat, lon) ; DTWR_ISOPOOH:mdims = 1 ; DTWR_ISOPOOH:units = "kg/kg/s" ; DTWR_ISOPOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_ISOPOOH:cell_methods = "time: mean" ; float DTWR_MACR(time, lev, lat, lon) ; DTWR_MACR:mdims = 1 ; DTWR_MACR:units = "kg/kg/s" ; DTWR_MACR:long_name = "wet removal Neu scheme tendency" ; DTWR_MACR:cell_methods = "time: mean" ; float DTWR_MACROOH(time, lev, lat, lon) ; DTWR_MACROOH:mdims = 1 ; DTWR_MACROOH:units = "kg/kg/s" ; DTWR_MACROOH:long_name = "wet removal Neu scheme tendency" ; DTWR_MACROOH:cell_methods = "time: mean" ; float DTWR_MEKOOH(time, lev, lat, lon) ; DTWR_MEKOOH:mdims = 1 ; DTWR_MEKOOH:units = "kg/kg/s" ; DTWR_MEKOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_MEKOOH:cell_methods = "time: mean" ; float DTWR_MVK(time, lev, lat, lon) ; DTWR_MVK:mdims = 1 ; DTWR_MVK:units = "kg/kg/s" ; DTWR_MVK:long_name = "wet removal Neu scheme tendency" ; DTWR_MVK:cell_methods = "time: mean" ; float DTWR_NH3(time, lev, lat, lon) ; DTWR_NH3:mdims = 1 ; DTWR_NH3:units = "kg/kg/s" ; DTWR_NH3:long_name = "wet removal Neu scheme tendency" ; DTWR_NH3:cell_methods = "time: mean" ; float DTWR_OIO(time, lev, lat, lon) ; DTWR_OIO:mdims = 1 ; DTWR_OIO:units = "kg/kg/s" ; DTWR_OIO:long_name = "wet removal Neu scheme tendency" ; DTWR_OIO:cell_methods = "time: mean" ; float DTWR_ONIT(time, lev, lat, lon) ; DTWR_ONIT:mdims = 1 ; DTWR_ONIT:units = "kg/kg/s" ; DTWR_ONIT:long_name = "wet removal Neu scheme tendency" ; DTWR_ONIT:cell_methods = "time: mean" ; float DTWR_ONITR(time, lev, lat, lon) ; DTWR_ONITR:mdims = 1 ; DTWR_ONITR:units = "kg/kg/s" ; DTWR_ONITR:long_name = "wet removal Neu scheme tendency" ; DTWR_ONITR:cell_methods = "time: mean" ; float DTWR_POOH(time, lev, lat, lon) ; DTWR_POOH:mdims = 1 ; DTWR_POOH:units = "kg/kg/s" ; DTWR_POOH:long_name = "wet removal Neu scheme tendency" ; DTWR_POOH:cell_methods = "time: mean" ; float DTWR_Pb(time, lev, lat, lon) ; DTWR_Pb:mdims = 1 ; DTWR_Pb:units = "kg/kg/s" ; DTWR_Pb:long_name = "wet removal Neu scheme tendency" ; DTWR_Pb:cell_methods = "time: mean" ; float DTWR_ROOH(time, lev, lat, lon) ; DTWR_ROOH:mdims = 1 ; DTWR_ROOH:units = "kg/kg/s" ; DTWR_ROOH:long_name = "wet removal Neu scheme tendency" ; DTWR_ROOH:cell_methods = "time: mean" ; float DTWR_SO2(time, lev, lat, lon) ; DTWR_SO2:mdims = 1 ; DTWR_SO2:units = "kg/kg/s" ; DTWR_SO2:long_name = "wet removal Neu scheme tendency" ; DTWR_SO2:cell_methods = "time: mean" ; float DTWR_SOGB(time, lev, lat, lon) ; DTWR_SOGB:mdims = 1 ; DTWR_SOGB:units = "kg/kg/s" ; DTWR_SOGB:long_name = "wet removal Neu scheme tendency" ; DTWR_SOGB:cell_methods = "time: mean" ; float DTWR_SOGI(time, lev, lat, lon) ; DTWR_SOGI:mdims = 1 ; DTWR_SOGI:units = "kg/kg/s" ; DTWR_SOGI:long_name = "wet removal Neu scheme tendency" ; DTWR_SOGI:cell_methods = "time: mean" ; float DTWR_SOGM(time, lev, lat, lon) ; DTWR_SOGM:mdims = 1 ; DTWR_SOGM:units = "kg/kg/s" ; DTWR_SOGM:long_name = "wet removal Neu scheme tendency" ; DTWR_SOGM:cell_methods = "time: mean" ; float DTWR_SOGT(time, lev, lat, lon) ; DTWR_SOGT:mdims = 1 ; DTWR_SOGT:units = "kg/kg/s" ; DTWR_SOGT:long_name = "wet removal Neu scheme tendency" ; DTWR_SOGT:cell_methods = "time: mean" ; float DTWR_SOGX(time, lev, lat, lon) ; DTWR_SOGX:mdims = 1 ; DTWR_SOGX:units = "kg/kg/s" ; DTWR_SOGX:long_name = "wet removal Neu scheme tendency" ; DTWR_SOGX:cell_methods = "time: mean" ; float DTWR_TERPOOH(time, lev, lat, lon) ; DTWR_TERPOOH:mdims = 1 ; DTWR_TERPOOH:units = "kg/kg/s" ; DTWR_TERPOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_TERPOOH:cell_methods = "time: mean" ; float DTWR_TOLOOH(time, lev, lat, lon) ; DTWR_TOLOOH:mdims = 1 ; DTWR_TOLOOH:units = "kg/kg/s" ; DTWR_TOLOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_TOLOOH:cell_methods = "time: mean" ; float DTWR_XOOH(time, lev, lat, lon) ; DTWR_XOOH:mdims = 1 ; DTWR_XOOH:units = "kg/kg/s" ; DTWR_XOOH:long_name = "wet removal Neu scheme tendency" ; DTWR_XOOH:cell_methods = "time: mean" ; float DUV(time, lev, lat, lon) ; DUV:mdims = 1 ; DUV:units = "m/s2" ; DUV:long_name = "U vertical diffusion" ; DUV:cell_methods = "time: mean" ; float DVV(time, lev, lat, lon) ; DVV:mdims = 1 ; DVV:units = "m/s2" ; DVV:long_name = "V vertical diffusion" ; DVV:cell_methods = "time: mean" ; float DV_BR2(time, lat, lon) ; DV_BR2:units = "cm/s" ; DV_BR2:long_name = "deposition velocity" ; DV_BR2:cell_methods = "time: mean" ; float DV_BRONO2(time, lat, lon) ; DV_BRONO2:units = "cm/s" ; DV_BRONO2:long_name = "deposition velocity" ; DV_BRONO2:cell_methods = "time: mean" ; float DV_CH2O(time, lat, lon) ; DV_CH2O:units = "cm/s" ; DV_CH2O:long_name = "deposition velocity" ; DV_CH2O:cell_methods = "time: mean" ; float DV_CH3CN(time, lat, lon) ; DV_CH3CN:units = "cm/s" ; DV_CH3CN:long_name = "deposition velocity" ; DV_CH3CN:cell_methods = "time: mean" ; float DV_CH3OOH(time, lat, lon) ; DV_CH3OOH:units = "cm/s" ; DV_CH3OOH:long_name = "deposition velocity" ; DV_CH3OOH:cell_methods = "time: mean" ; float DV_CLONO2(time, lat, lon) ; DV_CLONO2:units = "cm/s" ; DV_CLONO2:long_name = "deposition velocity" ; DV_CLONO2:cell_methods = "time: mean" ; float DV_CO(time, lat, lon) ; DV_CO:units = "cm/s" ; DV_CO:long_name = "deposition velocity" ; DV_CO:cell_methods = "time: mean" ; float DV_EOOH(time, lat, lon) ; DV_EOOH:units = "cm/s" ; DV_EOOH:long_name = "deposition velocity" ; DV_EOOH:cell_methods = "time: mean" ; float DV_H2O2(time, lat, lon) ; DV_H2O2:units = "cm/s" ; DV_H2O2:long_name = "deposition velocity" ; DV_H2O2:cell_methods = "time: mean" ; float DV_HBR(time, lat, lon) ; DV_HBR:units = "cm/s" ; DV_HBR:long_name = "deposition velocity" ; DV_HBR:cell_methods = "time: mean" ; float DV_HCL(time, lat, lon) ; DV_HCL:units = "cm/s" ; DV_HCL:long_name = "deposition velocity" ; DV_HCL:cell_methods = "time: mean" ; float DV_HCN(time, lat, lon) ; DV_HCN:units = "cm/s" ; DV_HCN:long_name = "deposition velocity" ; DV_HCN:cell_methods = "time: mean" ; float DV_HCOOH(time, lat, lon) ; DV_HCOOH:units = "cm/s" ; DV_HCOOH:long_name = "deposition velocity" ; DV_HCOOH:cell_methods = "time: mean" ; float DV_HI(time, lat, lon) ; DV_HI:units = "cm/s" ; DV_HI:long_name = "deposition velocity" ; DV_HI:cell_methods = "time: mean" ; float DV_HNO3(time, lat, lon) ; DV_HNO3:units = "cm/s" ; DV_HNO3:long_name = "deposition velocity" ; DV_HNO3:cell_methods = "time: mean" ; float DV_HO2NO2(time, lat, lon) ; DV_HO2NO2:units = "cm/s" ; DV_HO2NO2:long_name = "deposition velocity" ; DV_HO2NO2:cell_methods = "time: mean" ; float DV_HOBR(time, lat, lon) ; DV_HOBR:units = "cm/s" ; DV_HOBR:long_name = "deposition velocity" ; DV_HOBR:cell_methods = "time: mean" ; float DV_HOCL(time, lat, lon) ; DV_HOCL:units = "cm/s" ; DV_HOCL:long_name = "deposition velocity" ; DV_HOCL:cell_methods = "time: mean" ; float DV_HOI(time, lat, lon) ; DV_HOI:units = "cm/s" ; DV_HOI:long_name = "deposition velocity" ; DV_HOI:cell_methods = "time: mean" ; float DV_I2O2(time, lat, lon) ; DV_I2O2:units = "cm/s" ; DV_I2O2:long_name = "deposition velocity" ; DV_I2O2:cell_methods = "time: mean" ; float DV_I2O3(time, lat, lon) ; DV_I2O3:units = "cm/s" ; DV_I2O3:long_name = "deposition velocity" ; DV_I2O3:cell_methods = "time: mean" ; float DV_I2O4(time, lat, lon) ; DV_I2O4:units = "cm/s" ; DV_I2O4:long_name = "deposition velocity" ; DV_I2O4:cell_methods = "time: mean" ; float DV_INO2(time, lat, lon) ; DV_INO2:units = "cm/s" ; DV_INO2:long_name = "deposition velocity" ; DV_INO2:cell_methods = "time: mean" ; float DV_IONO2(time, lat, lon) ; DV_IONO2:units = "cm/s" ; DV_IONO2:long_name = "deposition velocity" ; DV_IONO2:cell_methods = "time: mean" ; float DV_NO(time, lat, lon) ; DV_NO:units = "cm/s" ; DV_NO:long_name = "deposition velocity" ; DV_NO:cell_methods = "time: mean" ; float DV_NO2(time, lat, lon) ; DV_NO2:units = "cm/s" ; DV_NO2:long_name = "deposition velocity" ; DV_NO2:cell_methods = "time: mean" ; float DV_O3(time, lat, lon) ; DV_O3:units = "cm/s" ; DV_O3:long_name = "deposition velocity" ; DV_O3:cell_methods = "time: mean" ; float DV_PAN(time, lat, lon) ; DV_PAN:units = "cm/s" ; DV_PAN:long_name = "deposition velocity" ; DV_PAN:cell_methods = "time: mean" ; float DV_SO2(time, lat, lon) ; DV_SO2:units = "cm/s" ; DV_SO2:long_name = "deposition velocity" ; DV_SO2:cell_methods = "time: mean" ; float EKGWSPEC(time, ilev, lat, lon) ; EKGWSPEC:mdims = 2 ; EKGWSPEC:units = "M2/S" ; EKGWSPEC:long_name = "effective Kzz due to gw spectrum" ; EKGWSPEC:cell_methods = "time: mean" ; float ENEO2(time, lev, lat, lon) ; ENEO2:mdims = 1 ; ENEO2:units = "mol/mol" ; ENEO2:long_name = "ENEO2 concentration" ; ENEO2:cell_methods = "time: mean" ; float EO(time, lev, lat, lon) ; EO:mdims = 1 ; EO:units = "mol/mol" ; EO:long_name = "EO concentration" ; EO:cell_methods = "time: mean" ; float EO2(time, lev, lat, lon) ; EO2:mdims = 1 ; EO2:units = "mol/mol" ; EO2:long_name = "EO2 concentration" ; EO2:cell_methods = "time: mean" ; float EOOH(time, lev, lat, lon) ; EOOH:mdims = 1 ; EOOH:units = "mol/mol" ; EOOH:long_name = "EOOH concentration" ; EOOH:cell_methods = "time: mean" ; float FICE(time, lev, lat, lon) ; FICE:mdims = 1 ; FICE:units = "fraction" ; FICE:long_name = "Fractional ice content within cloud" ; FICE:cell_methods = "time: mean" ; float FLDS(time, lat, lon) ; FLDS:Sampling_Sequence = "rad_lwsw" ; FLDS:units = "W/m2" ; FLDS:long_name = "Downwelling longwave flux at surface" ; FLDS:cell_methods = "time: mean" ; float FLDSC(time, lat, lon) ; FLDSC:Sampling_Sequence = "rad_lwsw" ; FLDSC:units = "W/m2" ; FLDSC:long_name = "Clearsky downwelling longwave flux at surface" ; FLDSC:cell_methods = "time: mean" ; float FLNS(time, lat, lon) ; FLNS:Sampling_Sequence = "rad_lwsw" ; FLNS:units = "W/m2" ; FLNS:long_name = "Net longwave flux at surface" ; FLNS:cell_methods = "time: mean" ; float FLNSC(time, lat, lon) ; FLNSC:Sampling_Sequence = "rad_lwsw" ; FLNSC:units = "W/m2" ; FLNSC:long_name = "Clearsky net longwave flux at surface" ; FLNSC:cell_methods = "time: mean" ; float FLNT(time, lat, lon) ; FLNT:Sampling_Sequence = "rad_lwsw" ; FLNT:units = "W/m2" ; FLNT:long_name = "Net longwave flux at top of model" ; FLNT:cell_methods = "time: mean" ; float FLNTC(time, lat, lon) ; FLNTC:Sampling_Sequence = "rad_lwsw" ; FLNTC:units = "W/m2" ; FLNTC:long_name = "Clearsky net longwave flux at top of model" ; FLNTC:cell_methods = "time: mean" ; float FLUT(time, lat, lon) ; FLUT:Sampling_Sequence = "rad_lwsw" ; FLUT:units = "W/m2" ; FLUT:long_name = "Upwelling longwave flux at top of model" ; FLUT:cell_methods = "time: mean" ; float FLUTC(time, lat, lon) ; FLUTC:Sampling_Sequence = "rad_lwsw" ; FLUTC:units = "W/m2" ; FLUTC:long_name = "Clearsky upwelling longwave flux at top of model" ; FLUTC:cell_methods = "time: mean" ; float FREQSH(time, lat, lon) ; FREQSH:units = "fraction" ; FREQSH:long_name = "Fractional occurance of shallow convection" ; FREQSH:cell_methods = "time: mean" ; float FREQZM(time, lat, lon) ; FREQZM:units = "fraction" ; FREQZM:long_name = "Fractional occurance of ZM convection" ; FREQZM:cell_methods = "time: mean" ; float FRONTGF(time, lev, lat, lon) ; FRONTGF:mdims = 1 ; FRONTGF:units = "K^2/M^2/S" ; FRONTGF:long_name = "Frontogenesis function at gws src level" ; float FRONTGFA(time, lev, lat, lon) ; FRONTGFA:mdims = 1 ; FRONTGFA:units = "K^2/M^2/S" ; FRONTGFA:long_name = "Frontogenesis function at gws src level" ; FRONTGFA:cell_methods = "time: mean" ; float FSDS(time, lat, lon) ; FSDS:Sampling_Sequence = "rad_lwsw" ; FSDS:units = "W/m2" ; FSDS:long_name = "Downwelling solar flux at surface" ; FSDS:cell_methods = "time: mean" ; float FSDSC(time, lat, lon) ; FSDSC:Sampling_Sequence = "rad_lwsw" ; FSDSC:units = "W/m2" ; FSDSC:long_name = "Clearsky downwelling solar flux at surface" ; FSDSC:cell_methods = "time: mean" ; float FSDTOA(time, lat, lon) ; FSDTOA:Sampling_Sequence = "rad_lwsw" ; FSDTOA:units = "W/m2" ; FSDTOA:long_name = "Downwelling solar flux at top of atmosphere" ; FSDTOA:cell_methods = "time: mean" ; float FSNS(time, lat, lon) ; FSNS:Sampling_Sequence = "rad_lwsw" ; FSNS:units = "W/m2" ; FSNS:long_name = "Net solar flux at surface" ; FSNS:cell_methods = "time: mean" ; float FSNSC(time, lat, lon) ; FSNSC:Sampling_Sequence = "rad_lwsw" ; FSNSC:units = "W/m2" ; FSNSC:long_name = "Clearsky net solar flux at surface" ; FSNSC:cell_methods = "time: mean" ; float FSNT(time, lat, lon) ; FSNT:Sampling_Sequence = "rad_lwsw" ; FSNT:units = "W/m2" ; FSNT:long_name = "Net solar flux at top of model" ; FSNT:cell_methods = "time: mean" ; float FSNTC(time, lat, lon) ; FSNTC:Sampling_Sequence = "rad_lwsw" ; FSNTC:units = "W/m2" ; FSNTC:long_name = "Clearsky net solar flux at top of model" ; FSNTC:cell_methods = "time: mean" ; float FSNTOA(time, lat, lon) ; FSNTOA:Sampling_Sequence = "rad_lwsw" ; FSNTOA:units = "W/m2" ; FSNTOA:long_name = "Net solar flux at top of atmosphere" ; FSNTOA:cell_methods = "time: mean" ; float FSNTOAC(time, lat, lon) ; FSNTOAC:Sampling_Sequence = "rad_lwsw" ; FSNTOAC:units = "W/m2" ; FSNTOAC:long_name = "Clearsky net solar flux at top of atmosphere" ; FSNTOAC:cell_methods = "time: mean" ; float FSUTOA(time, lat, lon) ; FSUTOA:Sampling_Sequence = "rad_lwsw" ; FSUTOA:units = "W/m2" ; FSUTOA:long_name = "Upwelling solar flux at top of atmosphere" ; FSUTOA:cell_methods = "time: mean" ; float GLYALD(time, lev, lat, lon) ; GLYALD:mdims = 1 ; GLYALD:units = "mol/mol" ; GLYALD:long_name = "GLYALD concentration" ; GLYALD:cell_methods = "time: mean" ; float GLYOXAL(time, lev, lat, lon) ; GLYOXAL:mdims = 1 ; GLYOXAL:units = "mol/mol" ; GLYOXAL:long_name = "GLYOXAL concentration" ; GLYOXAL:cell_methods = "time: mean" ; float H(time, lev, lat, lon) ; H:mdims = 1 ; H:units = "mol/mol" ; H:long_name = "H concentration" ; H:cell_methods = "time: mean" ; float H1202(time, lev, lat, lon) ; H1202:mdims = 1 ; H1202:units = "mol/mol" ; H1202:long_name = "H1202 concentration" ; H1202:cell_methods = "time: mean" ; float H2(time, lev, lat, lon) ; H2:mdims = 1 ; H2:units = "mol/mol" ; H2:long_name = "H2 concentration" ; H2:cell_methods = "time: mean" ; float H2402(time, lev, lat, lon) ; H2402:mdims = 1 ; H2402:units = "mol/mol" ; H2402:long_name = "H2402 concentration" ; H2402:cell_methods = "time: mean" ; float H2O(time, lev, lat, lon) ; H2O:mdims = 1 ; H2O:units = "mol/mol" ; H2O:long_name = "water vapor concentration" ; H2O:cell_methods = "time: mean" ; float H2O2(time, lev, lat, lon) ; H2O2:mdims = 1 ; H2O2:units = "mol/mol" ; H2O2:long_name = "H2O2 concentration" ; H2O2:cell_methods = "time: mean" ; float H2O_GAS(time, lev, lat, lon) ; H2O_GAS:mdims = 1 ; H2O_GAS:units = "mol/mol" ; H2O_GAS:long_name = "gas-phase h2o" ; H2O_GAS:cell_methods = "time: mean" ; float H2SO4M_C(time, lev, lat, lon) ; H2SO4M_C:mdims = 1 ; H2SO4M_C:units = "ug/m3" ; H2SO4M_C:long_name = "chemical sulfate aerosol mass" ; H2SO4M_C:cell_methods = "time: mean" ; float HBR(time, lev, lat, lon) ; HBR:mdims = 1 ; HBR:units = "mol/mol" ; HBR:long_name = "HBR concentration" ; HBR:cell_methods = "time: mean" ; float HCFC141B(time, lev, lat, lon) ; HCFC141B:mdims = 1 ; HCFC141B:units = "mol/mol" ; HCFC141B:long_name = "HCFC141B concentration" ; HCFC141B:cell_methods = "time: mean" ; float HCFC142B(time, lev, lat, lon) ; HCFC142B:mdims = 1 ; HCFC142B:units = "mol/mol" ; HCFC142B:long_name = "HCFC142B concentration" ; HCFC142B:cell_methods = "time: mean" ; float HCFC22(time, lev, lat, lon) ; HCFC22:mdims = 1 ; HCFC22:units = "mol/mol" ; HCFC22:long_name = "HCFC22 concentration" ; HCFC22:cell_methods = "time: mean" ; float HCL(time, lev, lat, lon) ; HCL:mdims = 1 ; HCL:units = "mol/mol" ; HCL:long_name = "HCL concentration" ; HCL:cell_methods = "time: mean" ; float HCL_GAS(time, lev, lat, lon) ; HCL_GAS:mdims = 1 ; HCL_GAS:units = "mol/mol" ; HCL_GAS:long_name = "gas-phase hcl" ; HCL_GAS:cell_methods = "time: mean" ; float HCL_STS(time, lev, lat, lon) ; HCL_STS:mdims = 1 ; HCL_STS:units = "mol/mol" ; HCL_STS:long_name = "STS condensed HCL" ; HCL_STS:cell_methods = "time: mean" ; float HCL_TOTAL(time, lev, lat, lon) ; HCL_TOTAL:mdims = 1 ; HCL_TOTAL:units = "mol/mol" ; HCL_TOTAL:long_name = "total hcl" ; HCL_TOTAL:cell_methods = "time: mean" ; float HCN(time, lev, lat, lon) ; HCN:mdims = 1 ; HCN:units = "mol/mol" ; HCN:long_name = "HCN concentration" ; HCN:cell_methods = "time: mean" ; float HCOOH(time, lev, lat, lon) ; HCOOH:mdims = 1 ; HCOOH:units = "mol/mol" ; HCOOH:long_name = "HCOOH concentration" ; HCOOH:cell_methods = "time: mean" ; float HI(time, lev, lat, lon) ; HI:mdims = 1 ; HI:units = "mol/mol" ; HI:long_name = "HI concentration" ; HI:cell_methods = "time: mean" ; float HNO3(time, lev, lat, lon) ; HNO3:mdims = 1 ; HNO3:units = "mol/mol" ; HNO3:long_name = "HNO3 concentration" ; HNO3:cell_methods = "time: mean" ; float HNO3_GAS(time, lev, lat, lon) ; HNO3_GAS:mdims = 1 ; HNO3_GAS:units = "mol/mol" ; HNO3_GAS:long_name = "gas-phase hno3" ; HNO3_GAS:cell_methods = "time: mean" ; float HNO3_NAT(time, lev, lat, lon) ; HNO3_NAT:mdims = 1 ; HNO3_NAT:units = "mol/mol" ; HNO3_NAT:long_name = "NAT condensed HNO3" ; HNO3_NAT:cell_methods = "time: mean" ; float HNO3_STS(time, lev, lat, lon) ; HNO3_STS:mdims = 1 ; HNO3_STS:units = "mol/mol" ; HNO3_STS:long_name = "STS condensed HNO3" ; HNO3_STS:cell_methods = "time: mean" ; float HNO3_TOTAL(time, lev, lat, lon) ; HNO3_TOTAL:mdims = 1 ; HNO3_TOTAL:units = "mol/mol" ; HNO3_TOTAL:long_name = "total HNO3" ; HNO3_TOTAL:cell_methods = "time: mean" ; float HO2(time, lev, lat, lon) ; HO2:mdims = 1 ; HO2:units = "mol/mol" ; HO2:long_name = "HO2 concentration" ; HO2:cell_methods = "time: mean" ; float HO2NO2(time, lev, lat, lon) ; HO2NO2:mdims = 1 ; HO2NO2:units = "mol/mol" ; HO2NO2:long_name = "HO2NO2 concentration" ; HO2NO2:cell_methods = "time: mean" ; float HOBR(time, lev, lat, lon) ; HOBR:mdims = 1 ; HOBR:units = "mol/mol" ; HOBR:long_name = "HOBR concentration" ; HOBR:cell_methods = "time: mean" ; float HOCH2OO(time, lev, lat, lon) ; HOCH2OO:mdims = 1 ; HOCH2OO:units = "mol/mol" ; HOCH2OO:long_name = "HOCH2OO concentration" ; HOCH2OO:cell_methods = "time: mean" ; float HOCL(time, lev, lat, lon) ; HOCL:mdims = 1 ; HOCL:units = "mol/mol" ; HOCL:long_name = "HOCL concentration" ; HOCL:cell_methods = "time: mean" ; float HOI(time, lev, lat, lon) ; HOI:mdims = 1 ; HOI:units = "mol/mol" ; HOI:long_name = "HOI concentration" ; HOI:cell_methods = "time: mean" ; float HORZ(time, lev, lat, lon) ; HORZ:mdims = 1 ; HORZ:units = "kg/kg" ; HORZ:long_name = "horizontal tracer" ; HORZ:cell_methods = "time: mean" ; float HORZSRC(time, lev, lat, lon) ; HORZSRC:mdims = 1 ; HORZSRC:units = "kg/kg/s" ; HORZSRC:long_name = "HORZ source/sink" ; HORZSRC:cell_methods = "time: mean" ; float HYAC(time, lev, lat, lon) ; HYAC:mdims = 1 ; HYAC:units = "mol/mol" ; HYAC:long_name = "HYAC concentration" ; HYAC:cell_methods = "time: mean" ; float HYDRALD(time, lev, lat, lon) ; HYDRALD:mdims = 1 ; HYDRALD:units = "mol/mol" ; HYDRALD:long_name = "HYDRALD concentration" ; HYDRALD:cell_methods = "time: mean" ; float I(time, lev, lat, lon) ; I:mdims = 1 ; I:units = "mol/mol" ; I:long_name = "I concentration" ; I:cell_methods = "time: mean" ; float I2(time, lev, lat, lon) ; I2:mdims = 1 ; I2:units = "mol/mol" ; I2:long_name = "I2 concentration" ; I2:cell_methods = "time: mean" ; float I2O2(time, lev, lat, lon) ; I2O2:mdims = 1 ; I2O2:units = "mol/mol" ; I2O2:long_name = "I2O2 concentration" ; I2O2:cell_methods = "time: mean" ; float I2O3(time, lev, lat, lon) ; I2O3:mdims = 1 ; I2O3:units = "mol/mol" ; I2O3:long_name = "I2O3 concentration" ; I2O3:cell_methods = "time: mean" ; float I2O4(time, lev, lat, lon) ; I2O4:mdims = 1 ; I2O4:units = "mol/mol" ; I2O4:long_name = "I2O4 concentration" ; I2O4:cell_methods = "time: mean" ; float IBR(time, lev, lat, lon) ; IBR:mdims = 1 ; IBR:units = "mol/mol" ; IBR:long_name = "IBR concentration" ; IBR:cell_methods = "time: mean" ; float ICEFRAC(time, lat, lon) ; ICEFRAC:units = "fraction" ; ICEFRAC:long_name = "Fraction of sfc area covered by sea-ice" ; ICEFRAC:cell_methods = "time: mean" ; float ICIMR(time, lev, lat, lon) ; ICIMR:mdims = 1 ; ICIMR:units = "kg/kg" ; ICIMR:long_name = "Prognostic in-cloud ice mixing ratio" ; ICIMR:cell_methods = "time: mean" ; float ICL(time, lev, lat, lon) ; ICL:mdims = 1 ; ICL:units = "mol/mol" ; ICL:long_name = "ICL concentration" ; ICL:cell_methods = "time: mean" ; float ICLDIWP(time, lev, lat, lon) ; ICLDIWP:mdims = 1 ; ICLDIWP:Sampling_Sequence = "rad_lwsw" ; ICLDIWP:units = "gram/m2" ; ICLDIWP:long_name = "In-cloud ice water path" ; ICLDIWP:cell_methods = "time: mean" ; float ICLDTWP(time, lev, lat, lon) ; ICLDTWP:mdims = 1 ; ICLDTWP:Sampling_Sequence = "rad_lwsw" ; ICLDTWP:units = "gram/m2" ; ICLDTWP:long_name = "In-cloud cloud total water path (liquid and ice)" ; ICLDTWP:cell_methods = "time: mean" ; float ICWMR(time, lev, lat, lon) ; ICWMR:mdims = 1 ; ICWMR:units = "kg/kg" ; ICWMR:long_name = "Prognostic in-cloud water mixing ratio" ; ICWMR:cell_methods = "time: mean" ; float INO(time, lev, lat, lon) ; INO:mdims = 1 ; INO:units = "mol/mol" ; INO:long_name = "INO concentration" ; INO:cell_methods = "time: mean" ; float INO2(time, lev, lat, lon) ; INO2:mdims = 1 ; INO2:units = "mol/mol" ; INO2:long_name = "INO2 concentration" ; INO2:cell_methods = "time: mean" ; float IO(time, lev, lat, lon) ; IO:mdims = 1 ; IO:units = "mol/mol" ; IO:long_name = "IO concentration" ; IO:cell_methods = "time: mean" ; float IONO2(time, lev, lat, lon) ; IONO2:mdims = 1 ; IONO2:units = "mol/mol" ; IONO2:long_name = "IONO2 concentration" ; IONO2:cell_methods = "time: mean" ; float IOY(time, lev, lat, lon) ; IOY:mdims = 1 ; IOY:units = "mol/mol" ; IOY:long_name = "total inorganic iodine (I+2I2+IO+OIO+HI+HOI+INO+INO2+IONO2+IBr+ICl+2I2O2+2I2O3+2I2O4)" ; IOY:cell_methods = "time: mean" ; float ISOP(time, lev, lat, lon) ; ISOP:mdims = 1 ; ISOP:units = "mol/mol" ; ISOP:long_name = "ISOP concentration" ; ISOP:cell_methods = "time: mean" ; float ISOPNO3(time, lev, lat, lon) ; ISOPNO3:mdims = 1 ; ISOPNO3:units = "mol/mol" ; ISOPNO3:long_name = "ISOPNO3 concentration" ; ISOPNO3:cell_methods = "time: mean" ; float ISOPO2(time, lev, lat, lon) ; ISOPO2:mdims = 1 ; ISOPO2:units = "mol/mol" ; ISOPO2:long_name = "ISOPO2 concentration" ; ISOPO2:cell_methods = "time: mean" ; float ISOPOOH(time, lev, lat, lon) ; ISOPOOH:mdims = 1 ; ISOPOOH:units = "mol/mol" ; ISOPOOH:long_name = "ISOPOOH concentration" ; ISOPOOH:cell_methods = "time: mean" ; float IY(time, lev, lat, lon) ; IY:mdims = 1 ; IY:units = "mol/mol" ; IY:long_name = "IY concentration" ; IY:cell_methods = "time: mean" ; float LANDFRAC(time, lat, lon) ; LANDFRAC:units = "fraction" ; LANDFRAC:long_name = "Fraction of sfc area covered by land" ; LANDFRAC:cell_methods = "time: mean" ; float LHFLX(time, lat, lon) ; LHFLX:units = "W/m2" ; LHFLX:long_name = "Surface latent heat flux" ; LHFLX:cell_methods = "time: mean" ; float LND_MBL(time, lat, lon) ; LND_MBL:units = "frac" ; LND_MBL:long_name = "Soil erodibility factor" ; LND_MBL:cell_methods = "time: mean" ; float LNO_COL_PROD(time, lat, lon) ; LNO_COL_PROD:units = "TG N/YR" ; LNO_COL_PROD:long_name = "lighting column NO source" ; LNO_COL_PROD:cell_methods = "time: mean" ; float LNO_PROD(time, lev, lat, lon) ; LNO_PROD:mdims = 1 ; LNO_PROD:units = "/cm3/s" ; LNO_PROD:long_name = "lighting insitu NO source" ; LNO_PROD:cell_methods = "time: mean" ; float LWCF(time, lat, lon) ; LWCF:Sampling_Sequence = "rad_lwsw" ; LWCF:units = "W/m2" ; LWCF:long_name = "Longwave cloud forcing" ; LWCF:cell_methods = "time: mean" ; float MACR(time, lev, lat, lon) ; MACR:mdims = 1 ; MACR:units = "mol/mol" ; MACR:long_name = "MACR concentration" ; MACR:cell_methods = "time: mean" ; float MACRO2(time, lev, lat, lon) ; MACRO2:mdims = 1 ; MACRO2:units = "mol/mol" ; MACRO2:long_name = "MACRO2 concentration" ; MACRO2:cell_methods = "time: mean" ; float MACROOH(time, lev, lat, lon) ; MACROOH:mdims = 1 ; MACROOH:units = "mol/mol" ; MACROOH:long_name = "MACROOH concentration" ; MACROOH:cell_methods = "time: mean" ; float MCO3(time, lev, lat, lon) ; MCO3:mdims = 1 ; MCO3:units = "mol/mol" ; MCO3:long_name = "MCO3 concentration" ; MCO3:cell_methods = "time: mean" ; float MEK(time, lev, lat, lon) ; MEK:mdims = 1 ; MEK:units = "mol/mol" ; MEK:long_name = "MEK concentration" ; MEK:cell_methods = "time: mean" ; float MEKO2(time, lev, lat, lon) ; MEKO2:mdims = 1 ; MEKO2:units = "mol/mol" ; MEKO2:long_name = "MEKO2 concentration" ; MEKO2:cell_methods = "time: mean" ; float MEKOOH(time, lev, lat, lon) ; MEKOOH:mdims = 1 ; MEKOOH:units = "mol/mol" ; MEKOOH:long_name = "MEKOOH concentration" ; MEKOOH:cell_methods = "time: mean" ; float MPAN(time, lev, lat, lon) ; MPAN:mdims = 1 ; MPAN:units = "mol/mol" ; MPAN:long_name = "MPAN concentration" ; MPAN:cell_methods = "time: mean" ; float MSKtem(time, lat, lon) ; MSKtem:units = "unitless" ; MSKtem:long_name = "TEM mask" ; MSKtem:cell_methods = "time: mean" ; float MVK(time, lev, lat, lon) ; MVK:mdims = 1 ; MVK:units = "mol/mol" ; MVK:long_name = "MVK concentration" ; MVK:cell_methods = "time: mean" ; float N(time, lev, lat, lon) ; N:mdims = 1 ; N:units = "mol/mol" ; N:long_name = "N concentration" ; N:cell_methods = "time: mean" ; float N2O(time, lev, lat, lon) ; N2O:mdims = 1 ; N2O:units = "mol/mol" ; N2O:long_name = "N2O concentration" ; N2O:cell_methods = "time: mean" ; float N2O5(time, lev, lat, lon) ; N2O5:mdims = 1 ; N2O5:units = "mol/mol" ; N2O5:long_name = "N2O5 concentration" ; N2O5:cell_methods = "time: mean" ; float NH3(time, lev, lat, lon) ; NH3:mdims = 1 ; NH3:units = "mol/mol" ; NH3:long_name = "NH3 concentration" ; NH3:cell_methods = "time: mean" ; float NH4(time, lev, lat, lon) ; NH4:mdims = 1 ; NH4:units = "mol/mol" ; NH4:long_name = "NH4 concentration" ; NH4:cell_methods = "time: mean" ; float NH4NO3(time, lev, lat, lon) ; NH4NO3:mdims = 1 ; NH4NO3:units = "kg/kg" ; NH4NO3:long_name = "NH4NO3 concentration" ; NH4NO3:cell_methods = "time: mean" ; float NH4NO3SFWET(time, lat, lon) ; NH4NO3SFWET:units = "kg/m2/s" ; NH4NO3SFWET:long_name = "Wet deposition flux at surface" ; NH4NO3SFWET:cell_methods = "time: mean" ; float NH4SFWET(time, lat, lon) ; NH4SFWET:units = "kg/m2/s" ; NH4SFWET:long_name = "Wet deposition flux at surface" ; NH4SFWET:cell_methods = "time: mean" ; float NO(time, lev, lat, lon) ; NO:mdims = 1 ; NO:units = "mol/mol" ; NO:long_name = "NO concentration" ; NO:cell_methods = "time: mean" ; float NO2(time, lev, lat, lon) ; NO2:mdims = 1 ; NO2:units = "mol/mol" ; NO2:long_name = "NO2 concentration" ; NO2:cell_methods = "time: mean" ; float NO2_CLXF(time, lat, lon) ; NO2_CLXF:units = "molec/cm2/s" ; NO2_CLXF:long_name = "vertically intergrated external forcing for NO2" ; NO2_CLXF:cell_methods = "time: mean" ; float NO2_XFRC(time, lev, lat, lon) ; NO2_XFRC:mdims = 1 ; NO2_XFRC:units = "molec/cm3/s" ; NO2_XFRC:long_name = "external forcing for NO2" ; NO2_XFRC:cell_methods = "time: mean" ; float NO3(time, lev, lat, lon) ; NO3:mdims = 1 ; NO3:units = "mol/mol" ; NO3:long_name = "NO3 concentration" ; NO3:cell_methods = "time: mean" ; float NOX(time, lev, lat, lon) ; NOX:mdims = 1 ; NOX:units = "mol/mol" ; NOX:long_name = "nox (N+NO+NO2)" ; NOX:cell_methods = "time: mean" ; float NOY(time, lev, lat, lon) ; NOY:mdims = 1 ; NOY:units = "mol/mol" ; NOY:long_name = "noy = total inorganic nitrogen (N+NO+NO2+NO3+2N2O5+HNO3+HO2NO2+ORGNOY+NH4NO3)" ; NOY:cell_methods = "time: mean" ; float O(time, lev, lat, lon) ; O:mdims = 1 ; O:units = "mol/mol" ; O:long_name = "O concentration" ; O:cell_methods = "time: mean" ; float O1D(time, lev, lat, lon) ; O1D:mdims = 1 ; O1D:units = "mol/mol" ; O1D:long_name = "O1D concentration" ; O1D:cell_methods = "time: mean" ; float O3(time, lev, lat, lon) ; O3:mdims = 1 ; O3:units = "mol/mol" ; O3:long_name = "O3 concentration" ; O3:cell_methods = "time: mean" ; float O3S(time, lev, lat, lon) ; O3S:mdims = 1 ; O3S:units = "mol/mol" ; O3S:long_name = "O3S concentration" ; O3S:cell_methods = "time: mean" ; float OC1(time, lev, lat, lon) ; OC1:mdims = 1 ; OC1:units = "kg/kg" ; OC1:long_name = "OC1 concentration" ; OC1:cell_methods = "time: mean" ; float OC2(time, lev, lat, lon) ; OC2:mdims = 1 ; OC2:units = "kg/kg" ; OC2:long_name = "OC2 concentration" ; OC2:cell_methods = "time: mean" ; float OC2SFWET(time, lat, lon) ; OC2SFWET:units = "kg/m2/s" ; OC2SFWET:long_name = "Wet deposition flux at surface" ; OC2SFWET:cell_methods = "time: mean" ; float OCLO(time, lev, lat, lon) ; OCLO:mdims = 1 ; OCLO:units = "mol/mol" ; OCLO:long_name = "OCLO concentration" ; OCLO:cell_methods = "time: mean" ; float OCNFRAC(time, lat, lon) ; OCNFRAC:units = "fraction" ; OCNFRAC:long_name = "Fraction of sfc area covered by ocean" ; OCNFRAC:cell_methods = "time: mean" ; float ODV_CB1(time, lat, lon) ; ODV_CB1:_FillValue = 1.e+36f ; ODV_CB1:missing_value = 1.e+36f ; ODV_CB1:units = "1" ; ODV_CB1:long_name = "CB1 optical depth in visible band" ; ODV_CB1:cell_methods = "time: mean" ; float ODV_CB2(time, lat, lon) ; ODV_CB2:_FillValue = 1.e+36f ; ODV_CB2:missing_value = 1.e+36f ; ODV_CB2:units = "1" ; ODV_CB2:long_name = "CB2 optical depth in visible band" ; ODV_CB2:cell_methods = "time: mean" ; float ODV_DST01(time, lat, lon) ; ODV_DST01:_FillValue = 1.e+36f ; ODV_DST01:missing_value = 1.e+36f ; ODV_DST01:units = "1" ; ODV_DST01:long_name = "DST01 optical depth in visible band" ; ODV_DST01:cell_methods = "time: mean" ; float ODV_DST02(time, lat, lon) ; ODV_DST02:_FillValue = 1.e+36f ; ODV_DST02:missing_value = 1.e+36f ; ODV_DST02:units = "1" ; ODV_DST02:long_name = "DST02 optical depth in visible band" ; ODV_DST02:cell_methods = "time: mean" ; float ODV_DST03(time, lat, lon) ; ODV_DST03:_FillValue = 1.e+36f ; ODV_DST03:missing_value = 1.e+36f ; ODV_DST03:units = "1" ; ODV_DST03:long_name = "DST03 optical depth in visible band" ; ODV_DST03:cell_methods = "time: mean" ; float ODV_DST04(time, lat, lon) ; ODV_DST04:_FillValue = 1.e+36f ; ODV_DST04:missing_value = 1.e+36f ; ODV_DST04:units = "1" ; ODV_DST04:long_name = "DST04 optical depth in visible band" ; ODV_DST04:cell_methods = "time: mean" ; float ODV_OC1(time, lat, lon) ; ODV_OC1:_FillValue = 1.e+36f ; ODV_OC1:missing_value = 1.e+36f ; ODV_OC1:units = "1" ; ODV_OC1:long_name = "OC1 optical depth in visible band" ; ODV_OC1:cell_methods = "time: mean" ; float ODV_OC2(time, lat, lon) ; ODV_OC2:_FillValue = 1.e+36f ; ODV_OC2:missing_value = 1.e+36f ; ODV_OC2:units = "1" ; ODV_OC2:long_name = "OC2 optical depth in visible band" ; ODV_OC2:cell_methods = "time: mean" ; float ODV_VOLC_MMR(time, lat, lon) ; ODV_VOLC_MMR:_FillValue = 1.e+36f ; ODV_VOLC_MMR:missing_value = 1.e+36f ; ODV_VOLC_MMR:units = "1" ; ODV_VOLC_MMR:long_name = "VOLC_MMR optical depth in visible band" ; ODV_VOLC_MMR:cell_methods = "time: mean" ; float OH(time, lev, lat, lon) ; OH:mdims = 1 ; OH:units = "mol/mol" ; OH:long_name = "OH concentration" ; OH:cell_methods = "time: mean" ; float OIO(time, lev, lat, lon) ; OIO:mdims = 1 ; OIO:units = "mol/mol" ; OIO:long_name = "OIO concentration" ; OIO:cell_methods = "time: mean" ; float OMEGA(time, lev, lat, lon) ; OMEGA:mdims = 1 ; OMEGA:units = "Pa/s" ; OMEGA:long_name = "Vertical velocity (pressure)" ; OMEGA:cell_methods = "time: mean" ; float OMEGAT(time, lev, lat, lon) ; OMEGAT:mdims = 1 ; OMEGAT:units = "K Pa/s" ; OMEGAT:long_name = "Vertical heat flux" ; OMEGAT:cell_methods = "time: mean" ; float ONIT(time, lev, lat, lon) ; ONIT:mdims = 1 ; ONIT:units = "mol/mol" ; ONIT:long_name = "ONIT concentration" ; ONIT:cell_methods = "time: mean" ; float ONITR(time, lev, lat, lon) ; ONITR:mdims = 1 ; ONITR:units = "mol/mol" ; ONITR:long_name = "ONITR concentration" ; ONITR:cell_methods = "time: mean" ; float ORO(time, lat, lon) ; ORO:units = "frac" ; ORO:long_name = "ORO" ; ORO:cell_methods = "time: mean" ; float OddOx_BROx_Loss(time, lev, lat, lon) ; OddOx_BROx_Loss:mdims = 1 ; OddOx_BROx_Loss:units = "molecules/cm3/sec" ; OddOx_BROx_Loss:long_name = "reaction rate group" ; OddOx_BROx_Loss:cell_methods = "time: mean" ; float OddOx_CLOxBROx_Loss(time, lev, lat, lon) ; OddOx_CLOxBROx_Loss:mdims = 1 ; OddOx_CLOxBROx_Loss:units = "molecules/cm3/sec" ; OddOx_CLOxBROx_Loss:long_name = "reaction rate group" ; OddOx_CLOxBROx_Loss:cell_methods = "time: mean" ; float OddOx_CLOx_Loss(time, lev, lat, lon) ; OddOx_CLOx_Loss:mdims = 1 ; OddOx_CLOx_Loss:units = "molecules/cm3/sec" ; OddOx_CLOx_Loss:long_name = "reaction rate group" ; OddOx_CLOx_Loss:cell_methods = "time: mean" ; float OddOx_HOx_Loss(time, lev, lat, lon) ; OddOx_HOx_Loss:mdims = 1 ; OddOx_HOx_Loss:units = "molecules/cm3/sec" ; OddOx_HOx_Loss:long_name = "reaction rate group" ; OddOx_HOx_Loss:cell_methods = "time: mean" ; float OddOx_Loss_Tot(time, lev, lat, lon) ; OddOx_Loss_Tot:mdims = 1 ; OddOx_Loss_Tot:units = "molecules/cm3/sec" ; OddOx_Loss_Tot:long_name = "reaction rate group" ; OddOx_Loss_Tot:cell_methods = "time: mean" ; float OddOx_NOx_Loss(time, lev, lat, lon) ; OddOx_NOx_Loss:mdims = 1 ; OddOx_NOx_Loss:units = "molecules/cm3/sec" ; OddOx_NOx_Loss:long_name = "reaction rate group" ; OddOx_NOx_Loss:cell_methods = "time: mean" ; float OddOx_Ox_Loss(time, lev, lat, lon) ; OddOx_Ox_Loss:mdims = 1 ; OddOx_Ox_Loss:units = "molecules/cm3/sec" ; OddOx_Ox_Loss:long_name = "reaction rate group" ; OddOx_Ox_Loss:cell_methods = "time: mean" ; double P0 ; P0:long_name = "reference pressure" ; P0:units = "Pa" ; float PAN(time, lev, lat, lon) ; PAN:mdims = 1 ; PAN:units = "mol/mol" ; PAN:long_name = "PAN concentration" ; PAN:cell_methods = "time: mean" ; float PBLH(time, lat, lon) ; PBLH:units = "m" ; PBLH:long_name = "PBL height" ; PBLH:cell_methods = "time: mean" ; float PCONVB(time, lat, lon) ; PCONVB:units = "Pa" ; PCONVB:long_name = "convection base pressure" ; PCONVB:cell_methods = "time: mean" ; float PCONVT(time, lat, lon) ; PCONVT:units = "Pa" ; PCONVT:long_name = "convection top pressure" ; PCONVT:cell_methods = "time: mean" ; float PHIS(time, lat, lon) ; PHIS:units = "m2/s2" ; PHIS:long_name = "Surface geopotential" ; PHIS:cell_methods = "time: mean" ; float PM25_SRF(time, lat, lon) ; PM25_SRF:units = "kg/kg" ; PM25_SRF:long_name = "bottom layer PM2.5 mixing ratio" ; PM25_SRF:cell_methods = "time: mean" ; float PO2(time, lev, lat, lon) ; PO2:mdims = 1 ; PO2:units = "mol/mol" ; PO2:long_name = "PO2 concentration" ; PO2:cell_methods = "time: mean" ; float POOH(time, lev, lat, lon) ; POOH:mdims = 1 ; POOH:units = "mol/mol" ; POOH:long_name = "POOH concentration" ; POOH:cell_methods = "time: mean" ; float PRECC(time, lat, lon) ; PRECC:units = "m/s" ; PRECC:long_name = "Convective precipitation rate (liq + ice)" ; PRECC:cell_methods = "time: mean" ; float PRECCDZM(time, lat, lon) ; PRECCDZM:units = "m/s" ; PRECCDZM:long_name = "Convective precipitation rate from ZM deep" ; PRECCDZM:cell_methods = "time: mean" ; float PRECL(time, lat, lon) ; PRECL:units = "m/s" ; PRECL:long_name = "Large-scale (stable) precipitation rate (liq + ice)" ; PRECL:cell_methods = "time: mean" ; float PRECSC(time, lat, lon) ; PRECSC:units = "m/s" ; PRECSC:long_name = "Convective snow rate (water equivalent)" ; PRECSC:cell_methods = "time: mean" ; float PRECSH(time, lat, lon) ; PRECSH:units = "m/s" ; PRECSH:long_name = "Shallow Convection precipitation rate" ; PRECSH:cell_methods = "time: mean" ; float PRECSL(time, lat, lon) ; PRECSL:units = "m/s" ; PRECSL:long_name = "Large-scale (stable) snow rate (water equivalent)" ; PRECSL:cell_methods = "time: mean" ; float PRECT(time, lat, lon) ; PRECT:units = "m/s" ; PRECT:long_name = "Total (convective and large-scale) precipitation rate (liq + ice)" ; PRECT:cell_methods = "time: mean" ; float PS(time, lat, lon) ; PS:units = "Pa" ; PS:long_name = "Surface pressure" ; PS:cell_methods = "time: mean" ; float PSL(time, lat, lon) ; PSL:units = "Pa" ; PSL:long_name = "Sea level pressure" ; PSL:cell_methods = "time: mean" ; float Pb(time, lev, lat, lon) ; Pb:mdims = 1 ; Pb:units = "mol/mol" ; Pb:long_name = "Pb concentration" ; Pb:cell_methods = "time: mean" ; float Q(time, lev, lat, lon) ; Q:mdims = 1 ; Q:units = "kg/kg" ; Q:long_name = "Specific humidity" ; Q:cell_methods = "time: mean" ; float QC(time, lev, lat, lon) ; QC:mdims = 1 ; QC:units = "kg/kg/s" ; QC:long_name = "Q tendency - shallow convection LW export" ; QC:cell_methods = "time: mean" ; float QEKGWSPEC(time, lev, lat, lon) ; QEKGWSPEC:mdims = 1 ; QEKGWSPEC:units = "m2/s" ; QEKGWSPEC:long_name = "Eddy Diff. - QBO gravity wave spectrum" ; QEKGWSPEC:cell_methods = "time: mean" ; float QFLX(time, lat, lon) ; QFLX:units = "kg/m2/s" ; QFLX:long_name = "Surface water flux" ; QFLX:cell_methods = "time: mean" ; float QPERT(time, lat, lon) ; QPERT:units = "kg/kg" ; QPERT:long_name = "Perturbation specific humidity (eddies in PBL)" ; QPERT:cell_methods = "time: mean" ; float QREFHT(time, lat, lon) ; QREFHT:units = "kg/kg" ; QREFHT:long_name = "Reference height humidity" ; QREFHT:cell_methods = "time: mean" ; float QRL(time, lev, lat, lon) ; QRL:mdims = 1 ; QRL:Sampling_Sequence = "rad_lwsw" ; QRL:units = "K/s" ; QRL:long_name = "Longwave heating rate" ; QRL:cell_methods = "time: mean" ; float QRL_TOT(time, lev, lat, lon) ; QRL_TOT:mdims = 1 ; QRL_TOT:units = "K/s" ; QRL_TOT:long_name = "Merged LW heating: QRL+QRLNLTE" ; QRL_TOT:cell_methods = "time: mean" ; float QRS(time, lev, lat, lon) ; QRS:mdims = 1 ; QRS:Sampling_Sequence = "rad_lwsw" ; QRS:units = "K/s" ; QRS:long_name = "Solar heating rate" ; QRS:cell_methods = "time: mean" ; float QRS_TOT(time, lev, lat, lon) ; QRS_TOT:mdims = 1 ; QRS_TOT:units = "K/s" ; QRS_TOT:long_name = "Merged SW heating: QRS+QCP+QRS_EUV+QRS_CO2NIR+QRS_AUR+QTHERMAL" ; QRS_TOT:cell_methods = "time: mean" ; float QRS_TOT_12_COS(time, lev, lat, lon) ; QRS_TOT_12_COS:mdims = 1 ; QRS_TOT_12_COS:units = "K/s" ; QRS_TOT_12_COS:long_name = "SW heating 12hr. cos coeff." ; QRS_TOT_12_COS:cell_methods = "time: mean" ; float QRS_TOT_12_SIN(time, lev, lat, lon) ; QRS_TOT_12_SIN:mdims = 1 ; QRS_TOT_12_SIN:units = "K/s" ; QRS_TOT_12_SIN:long_name = "SW heating 12hr. sin coeff." ; QRS_TOT_12_SIN:cell_methods = "time: mean" ; float QRS_TOT_24_COS(time, lev, lat, lon) ; QRS_TOT_24_COS:mdims = 1 ; QRS_TOT_24_COS:units = "K/s" ; QRS_TOT_24_COS:long_name = "SW heating 24hr. cos coeff." ; QRS_TOT_24_COS:cell_methods = "time: mean" ; float QRS_TOT_24_SIN(time, lev, lat, lon) ; QRS_TOT_24_SIN:mdims = 1 ; QRS_TOT_24_SIN:units = "K/s" ; QRS_TOT_24_SIN:long_name = "SW heating 24hr. sin coeff." ; QRS_TOT_24_SIN:cell_methods = "time: mean" ; float QTAUE(time, ilev, lat, lon) ; QTAUE:mdims = 2 ; QTAUE:units = "Pa" ; QTAUE:long_name = "QBO Eastward Reynolds stress" ; QTAUE:cell_methods = "time: mean" ; float QTAUN(time, ilev, lat, lon) ; QTAUN:mdims = 2 ; QTAUN:units = "Pa" ; QTAUN:long_name = "QBO Northward Reynolds stress" ; QTAUN:cell_methods = "time: mean" ; float QTAUNET(time, ilev, lat, lon) ; QTAUNET:mdims = 2 ; QTAUNET:units = "Pa" ; QTAUNET:long_name = "QBO E+W Reynolds stress" ; QTAUNET:cell_methods = "time: mean" ; float QTAUS(time, ilev, lat, lon) ; QTAUS:mdims = 2 ; QTAUS:units = "Pa" ; QTAUS:long_name = "QBO Southward Reynolds stress" ; QTAUS:cell_methods = "time: mean" ; float QTAUW(time, ilev, lat, lon) ; QTAUW:mdims = 2 ; QTAUW:units = "Pa" ; QTAUW:long_name = "QBO Westward Reynolds stress" ; QTAUW:cell_methods = "time: mean" ; float QUTGWSPEC(time, lev, lat, lon) ; QUTGWSPEC:mdims = 1 ; QUTGWSPEC:units = "m/s2" ; QUTGWSPEC:long_name = "U tendency - QBO gravity wave spectrum" ; QUTGWSPEC:cell_methods = "time: mean" ; float QVTGWSPEC(time, lev, lat, lon) ; QVTGWSPEC:mdims = 1 ; QVTGWSPEC:units = "m/s2" ; QVTGWSPEC:long_name = "V tendency - QBO gravity wave spectrum" ; QVTGWSPEC:cell_methods = "time: mean" ; float RAD_ICE(time, lev, lat, lon) ; RAD_ICE:mdims = 1 ; RAD_ICE:units = "cm" ; RAD_ICE:long_name = "sad ice" ; RAD_ICE:cell_methods = "time: mean" ; float RAD_LNAT(time, lev, lat, lon) ; RAD_LNAT:mdims = 1 ; RAD_LNAT:units = "cm" ; RAD_LNAT:long_name = "large nat radius" ; RAD_LNAT:cell_methods = "time: mean" ; float RAD_SULFC(time, lev, lat, lon) ; RAD_SULFC:mdims = 1 ; RAD_SULFC:units = "cm" ; RAD_SULFC:long_name = "chemical sad sulfate" ; RAD_SULFC:cell_methods = "time: mean" ; float RELHUM(time, lev, lat, lon) ; RELHUM:mdims = 1 ; RELHUM:units = "percent" ; RELHUM:long_name = "Relative humidity" ; RELHUM:cell_methods = "time: mean" ; float RHREFHT(time, lat, lon) ; RHREFHT:units = "fraction" ; RHREFHT:long_name = "Reference height relative humidity" ; RHREFHT:cell_methods = "time: mean" ; float RO2(time, lev, lat, lon) ; RO2:mdims = 1 ; RO2:units = "mol/mol" ; RO2:long_name = "RO2 concentration" ; RO2:cell_methods = "time: mean" ; float ROOH(time, lev, lat, lon) ; ROOH:mdims = 1 ; ROOH:units = "mol/mol" ; ROOH:long_name = "ROOH concentration" ; ROOH:cell_methods = "time: mean" ; float Rn(time, lev, lat, lon) ; Rn:mdims = 1 ; Rn:units = "mol/mol" ; Rn:long_name = "Rn concentration" ; Rn:cell_methods = "time: mean" ; float SAD(time, lev, lat, lon) ; SAD:mdims = 1 ; SAD:units = "cm2/cm3" ; SAD:long_name = "sulfate aerosol SAD" ; SAD:cell_methods = "time: mean" ; float SAD_ICE(time, lev, lat, lon) ; SAD_ICE:mdims = 1 ; SAD_ICE:units = "cm2/cm3" ; SAD_ICE:long_name = "water-ice aerosol SAD" ; SAD_ICE:cell_methods = "time: mean" ; float SAD_LNAT(time, lev, lat, lon) ; SAD_LNAT:mdims = 1 ; SAD_LNAT:units = "cm2/cm3" ; SAD_LNAT:long_name = "large-mode NAT aerosol SAD" ; SAD_LNAT:cell_methods = "time: mean" ; float SAD_SULFC(time, lev, lat, lon) ; SAD_SULFC:mdims = 1 ; SAD_SULFC:units = "cm2/cm3" ; SAD_SULFC:long_name = "chemical sulfate aerosol SAD" ; SAD_SULFC:cell_methods = "time: mean" ; float SAD_TROP(time, lev, lat, lon) ; SAD_TROP:mdims = 1 ; SAD_TROP:units = "cm2/cm3" ; SAD_TROP:long_name = "tropospheric aerosol SAD" ; SAD_TROP:cell_methods = "time: mean" ; float SFBENZENE(time, lat, lon) ; SFBENZENE:units = "kg/m2/s" ; SFBENZENE:long_name = "BENZENE surface flux" ; SFBENZENE:cell_methods = "time: mean" ; float SFBIGALK(time, lat, lon) ; SFBIGALK:units = "kg/m2/s" ; SFBIGALK:long_name = "BIGALK surface flux" ; SFBIGALK:cell_methods = "time: mean" ; float SFBIGENE(time, lat, lon) ; SFBIGENE:units = "kg/m2/s" ; SFBIGENE:long_name = "BIGENE surface flux" ; SFBIGENE:cell_methods = "time: mean" ; float SFC10H16(time, lat, lon) ; SFC10H16:units = "kg/m2/s" ; SFC10H16:long_name = "C10H16 surface flux" ; SFC10H16:cell_methods = "time: mean" ; float SFC2H2(time, lat, lon) ; SFC2H2:units = "kg/m2/s" ; SFC2H2:long_name = "C2H2 surface flux" ; SFC2H2:cell_methods = "time: mean" ; float SFC2H4(time, lat, lon) ; SFC2H4:units = "kg/m2/s" ; SFC2H4:long_name = "C2H4 surface flux" ; SFC2H4:cell_methods = "time: mean" ; float SFC2H5OH(time, lat, lon) ; SFC2H5OH:units = "kg/m2/s" ; SFC2H5OH:long_name = "C2H5OH surface flux" ; SFC2H5OH:cell_methods = "time: mean" ; float SFC2H6(time, lat, lon) ; SFC2H6:units = "kg/m2/s" ; SFC2H6:long_name = "C2H6 surface flux" ; SFC2H6:cell_methods = "time: mean" ; float SFC3H6(time, lat, lon) ; SFC3H6:units = "kg/m2/s" ; SFC3H6:long_name = "C3H6 surface flux" ; SFC3H6:cell_methods = "time: mean" ; float SFC3H8(time, lat, lon) ; SFC3H8:units = "kg/m2/s" ; SFC3H8:long_name = "C3H8 surface flux" ; SFC3H8:cell_methods = "time: mean" ; float SFCB1(time, lat, lon) ; SFCB1:units = "kg/m2/s" ; SFCB1:long_name = "CB1 surface flux" ; SFCB1:cell_methods = "time: mean" ; float SFCB2(time, lat, lon) ; SFCB2:units = "kg/m2/s" ; SFCB2:long_name = "CB2 surface flux" ; SFCB2:cell_methods = "time: mean" ; float SFCH2BR2(time, lat, lon) ; SFCH2BR2:units = "kg/m2/s" ; SFCH2BR2:long_name = "CH2BR2 surface flux" ; SFCH2BR2:cell_methods = "time: mean" ; float SFCH2BRCL(time, lat, lon) ; SFCH2BRCL:units = "kg/m2/s" ; SFCH2BRCL:long_name = "CH2BRCL surface flux" ; SFCH2BRCL:cell_methods = "time: mean" ; float SFCH2I2(time, lat, lon) ; SFCH2I2:units = "kg/m2/s" ; SFCH2I2:long_name = "CH2I2 surface flux" ; SFCH2I2:cell_methods = "time: mean" ; float SFCH2IBR(time, lat, lon) ; SFCH2IBR:units = "kg/m2/s" ; SFCH2IBR:long_name = "CH2IBR surface flux" ; SFCH2IBR:cell_methods = "time: mean" ; float SFCH2ICL(time, lat, lon) ; SFCH2ICL:units = "kg/m2/s" ; SFCH2ICL:long_name = "CH2ICL surface flux" ; SFCH2ICL:cell_methods = "time: mean" ; float SFCH2O(time, lat, lon) ; SFCH2O:units = "kg/m2/s" ; SFCH2O:long_name = "CH2O surface flux" ; SFCH2O:cell_methods = "time: mean" ; float SFCH3CHO(time, lat, lon) ; SFCH3CHO:units = "kg/m2/s" ; SFCH3CHO:long_name = "CH3CHO surface flux" ; SFCH3CHO:cell_methods = "time: mean" ; float SFCH3CN(time, lat, lon) ; SFCH3CN:units = "kg/m2/s" ; SFCH3CN:long_name = "CH3CN surface flux" ; SFCH3CN:cell_methods = "time: mean" ; float SFCH3COCH3(time, lat, lon) ; SFCH3COCH3:units = "kg/m2/s" ; SFCH3COCH3:long_name = "CH3COCH3 surface flux" ; SFCH3COCH3:cell_methods = "time: mean" ; float SFCH3COOH(time, lat, lon) ; SFCH3COOH:units = "kg/m2/s" ; SFCH3COOH:long_name = "CH3COOH surface flux" ; SFCH3COOH:cell_methods = "time: mean" ; float SFCH3I(time, lat, lon) ; SFCH3I:units = "kg/m2/s" ; SFCH3I:long_name = "CH3I surface flux" ; SFCH3I:cell_methods = "time: mean" ; float SFCH3OH(time, lat, lon) ; SFCH3OH:units = "kg/m2/s" ; SFCH3OH:long_name = "CH3OH surface flux" ; SFCH3OH:cell_methods = "time: mean" ; float SFCHBR2CL(time, lat, lon) ; SFCHBR2CL:units = "kg/m2/s" ; SFCHBR2CL:long_name = "CHBR2CL surface flux" ; SFCHBR2CL:cell_methods = "time: mean" ; float SFCHBR3(time, lat, lon) ; SFCHBR3:units = "kg/m2/s" ; SFCHBR3:long_name = "CHBR3 surface flux" ; SFCHBR3:cell_methods = "time: mean" ; float SFCHBRCL2(time, lat, lon) ; SFCHBRCL2:units = "kg/m2/s" ; SFCHBRCL2:long_name = "CHBRCL2 surface flux" ; SFCHBRCL2:cell_methods = "time: mean" ; float SFCLDICE(time, lat, lon) ; SFCLDICE:units = "kg/m2/s" ; SFCLDICE:long_name = "CLDICE surface flux" ; SFCLDICE:cell_methods = "time: mean" ; float SFCLDLIQ(time, lat, lon) ; SFCLDLIQ:units = "kg/m2/s" ; SFCLDLIQ:long_name = "CLDLIQ surface flux" ; SFCLDLIQ:cell_methods = "time: mean" ; float SFCO(time, lat, lon) ; SFCO:units = "kg/m2/s" ; SFCO:long_name = "CO surface flux" ; SFCO:cell_methods = "time: mean" ; float SFDMS(time, lat, lon) ; SFDMS:units = "kg/m2/s" ; SFDMS:long_name = "DMS surface flux" ; SFDMS:cell_methods = "time: mean" ; float SFHCN(time, lat, lon) ; SFHCN:units = "kg/m2/s" ; SFHCN:long_name = "HCN surface flux" ; SFHCN:cell_methods = "time: mean" ; float SFHCOOH(time, lat, lon) ; SFHCOOH:units = "kg/m2/s" ; SFHCOOH:long_name = "HCOOH surface flux" ; SFHCOOH:cell_methods = "time: mean" ; float SFI2(time, lat, lon) ; SFI2:units = "kg/m2/s" ; SFI2:long_name = "I2 surface flux" ; SFI2:cell_methods = "time: mean" ; float SFISOP(time, lat, lon) ; SFISOP:units = "kg/m2/s" ; SFISOP:long_name = "ISOP surface flux" ; SFISOP:cell_methods = "time: mean" ; float SFMEK(time, lat, lon) ; SFMEK:units = "kg/m2/s" ; SFMEK:long_name = "MEK surface flux" ; SFMEK:cell_methods = "time: mean" ; float SFNH3(time, lat, lon) ; SFNH3:units = "kg/m2/s" ; SFNH3:long_name = "NH3 surface flux" ; SFNH3:cell_methods = "time: mean" ; float SFNO(time, lat, lon) ; SFNO:units = "kg/m2/s" ; SFNO:long_name = "NO surface flux" ; SFNO:cell_methods = "time: mean" ; float SFOC1(time, lat, lon) ; SFOC1:units = "kg/m2/s" ; SFOC1:long_name = "OC1 surface flux" ; SFOC1:cell_methods = "time: mean" ; float SFOC2(time, lat, lon) ; SFOC2:units = "kg/m2/s" ; SFOC2:long_name = "OC2 surface flux" ; SFOC2:cell_methods = "time: mean" ; float SFSO2(time, lat, lon) ; SFSO2:units = "kg/m2/s" ; SFSO2:long_name = "SO2 surface flux" ; SFSO2:cell_methods = "time: mean" ; float SFSSLT01(time, lat, lon) ; SFSSLT01:units = "kg/m2/s" ; SFSSLT01:long_name = "SSLT01 surface flux" ; SFSSLT01:cell_methods = "time: mean" ; float SFSSLT02(time, lat, lon) ; SFSSLT02:units = "kg/m2/s" ; SFSSLT02:long_name = "SSLT02 surface flux" ; SFSSLT02:cell_methods = "time: mean" ; float SFSSLT03(time, lat, lon) ; SFSSLT03:units = "kg/m2/s" ; SFSSLT03:long_name = "SSLT03 surface flux" ; SFSSLT03:cell_methods = "time: mean" ; float SFSSLT04(time, lat, lon) ; SFSSLT04:units = "kg/m2/s" ; SFSSLT04:long_name = "SSLT04 surface flux" ; SFSSLT04:cell_methods = "time: mean" ; float SFTOLUENE(time, lat, lon) ; SFTOLUENE:units = "kg/m2/s" ; SFTOLUENE:long_name = "TOLUENE surface flux" ; SFTOLUENE:cell_methods = "time: mean" ; float SFXYLENE(time, lat, lon) ; SFXYLENE:units = "kg/m2/s" ; SFXYLENE:long_name = "XYLENE surface flux" ; SFXYLENE:cell_methods = "time: mean" ; float SHFLX(time, lat, lon) ; SHFLX:units = "W/m2" ; SHFLX:long_name = "Surface sensible heat flux" ; SHFLX:cell_methods = "time: mean" ; float SNOWHICE(time, lat, lon) ; SNOWHICE:units = "m" ; SNOWHICE:long_name = "Water equivalent snow depth" ; SNOWHICE:cell_methods = "time: mean" ; float SNOWHLND(time, lat, lon) ; SNOWHLND:units = "m" ; SNOWHLND:long_name = "Water equivalent snow depth" ; SNOWHLND:cell_methods = "time: mean" ; float SO2(time, lev, lat, lon) ; SO2:mdims = 1 ; SO2:units = "mol/mol" ; SO2:long_name = "SO2 concentration" ; SO2:cell_methods = "time: mean" ; float SO2_CLXF(time, lat, lon) ; SO2_CLXF:units = "molec/cm2/s" ; SO2_CLXF:long_name = "vertically intergrated external forcing for SO2" ; SO2_CLXF:cell_methods = "time: mean" ; float SO2_XFRC(time, lev, lat, lon) ; SO2_XFRC:mdims = 1 ; SO2_XFRC:units = "molec/cm3/s" ; SO2_XFRC:long_name = "external forcing for SO2" ; SO2_XFRC:cell_methods = "time: mean" ; float SO4(time, lev, lat, lon) ; SO4:mdims = 1 ; SO4:units = "kg/kg" ; SO4:long_name = "SO4 concentration" ; SO4:cell_methods = "time: mean" ; float SO4SFWET(time, lat, lon) ; SO4SFWET:units = "kg/m2/s" ; SO4SFWET:long_name = "Wet deposition flux at surface" ; SO4SFWET:cell_methods = "time: mean" ; float SO4_CLXF(time, lat, lon) ; SO4_CLXF:units = "molec/cm2/s" ; SO4_CLXF:long_name = "vertically intergrated external forcing for SO4" ; SO4_CLXF:cell_methods = "time: mean" ; float SO4_XFRC(time, lev, lat, lon) ; SO4_XFRC:mdims = 1 ; SO4_XFRC:units = "molec/cm3/s" ; SO4_XFRC:long_name = "external forcing for SO4" ; SO4_XFRC:cell_methods = "time: mean" ; float SOAB(time, lev, lat, lon) ; SOAB:mdims = 1 ; SOAB:units = "kg/kg" ; SOAB:long_name = "SOAB concentration" ; SOAB:cell_methods = "time: mean" ; float SOAB_PROD(time, lev, lat, lon) ; SOAB_PROD:mdims = 1 ; SOAB_PROD:units = "molec/molec/s" ; SOAB_PROD:long_name = "production of SOAB" ; SOAB_PROD:cell_methods = "time: mean" ; float SOAB_dens(time, lev, lat, lon) ; SOAB_dens:mdims = 1 ; SOAB_dens:units = "ug/m3" ; SOAB_dens:long_name = "density of SOAB" ; SOAB_dens:cell_methods = "time: mean" ; float SOAI(time, lev, lat, lon) ; SOAI:mdims = 1 ; SOAI:units = "kg/kg" ; SOAI:long_name = "SOAI concentration" ; SOAI:cell_methods = "time: mean" ; float SOAI_PROD(time, lev, lat, lon) ; SOAI_PROD:mdims = 1 ; SOAI_PROD:units = "molec/molec/s" ; SOAI_PROD:long_name = "production of SOAI" ; SOAI_PROD:cell_methods = "time: mean" ; float SOAI_dens(time, lev, lat, lon) ; SOAI_dens:mdims = 1 ; SOAI_dens:units = "ug/m3" ; SOAI_dens:long_name = "density of SOAI" ; SOAI_dens:cell_methods = "time: mean" ; float SOAM(time, lev, lat, lon) ; SOAM:mdims = 1 ; SOAM:units = "kg/kg" ; SOAM:long_name = "SOAM concentration" ; SOAM:cell_methods = "time: mean" ; float SOAMSFWET(time, lat, lon) ; SOAMSFWET:units = "kg/m2/s" ; SOAMSFWET:long_name = "Wet deposition flux at surface" ; SOAMSFWET:cell_methods = "time: mean" ; float SOAM_PROD(time, lev, lat, lon) ; SOAM_PROD:mdims = 1 ; SOAM_PROD:units = "molec/molec/s" ; SOAM_PROD:long_name = "production of SOAM" ; SOAM_PROD:cell_methods = "time: mean" ; float SOAM_dens(time, lev, lat, lon) ; SOAM_dens:mdims = 1 ; SOAM_dens:units = "ug/m3" ; SOAM_dens:long_name = "density of SOAM" ; SOAM_dens:cell_methods = "time: mean" ; float SOAT(time, lev, lat, lon) ; SOAT:mdims = 1 ; SOAT:units = "kg/kg" ; SOAT:long_name = "SOAT concentration" ; SOAT:cell_methods = "time: mean" ; float SOAT_PROD(time, lev, lat, lon) ; SOAT_PROD:mdims = 1 ; SOAT_PROD:units = "molec/molec/s" ; SOAT_PROD:long_name = "production of SOAT" ; SOAT_PROD:cell_methods = "time: mean" ; float SOAT_dens(time, lev, lat, lon) ; SOAT_dens:mdims = 1 ; SOAT_dens:units = "ug/m3" ; SOAT_dens:long_name = "density of SOAT" ; SOAT_dens:cell_methods = "time: mean" ; float SOAX(time, lev, lat, lon) ; SOAX:mdims = 1 ; SOAX:units = "kg/kg" ; SOAX:long_name = "SOAX concentration" ; SOAX:cell_methods = "time: mean" ; float SOAX_PROD(time, lev, lat, lon) ; SOAX_PROD:mdims = 1 ; SOAX_PROD:units = "molec/molec/s" ; SOAX_PROD:long_name = "production of SOAX" ; SOAX_PROD:cell_methods = "time: mean" ; float SOAX_dens(time, lev, lat, lon) ; SOAX_dens:mdims = 1 ; SOAX_dens:units = "ug/m3" ; SOAX_dens:long_name = "density of SOAX" ; SOAX_dens:cell_methods = "time: mean" ; float SOGB(time, lev, lat, lon) ; SOGB:mdims = 1 ; SOGB:units = "mol/mol" ; SOGB:long_name = "SOGB concentration" ; SOGB:cell_methods = "time: mean" ; float SOGI(time, lev, lat, lon) ; SOGI:mdims = 1 ; SOGI:units = "mol/mol" ; SOGI:long_name = "SOGI concentration" ; SOGI:cell_methods = "time: mean" ; float SOGM(time, lev, lat, lon) ; SOGM:mdims = 1 ; SOGM:units = "mol/mol" ; SOGM:long_name = "SOGM concentration" ; SOGM:cell_methods = "time: mean" ; float SOGT(time, lev, lat, lon) ; SOGT:mdims = 1 ; SOGT:units = "mol/mol" ; SOGT:long_name = "SOGT concentration" ; SOGT:cell_methods = "time: mean" ; float SOGX(time, lev, lat, lon) ; SOGX:mdims = 1 ; SOGX:units = "mol/mol" ; SOGX:long_name = "SOGX concentration" ; SOGX:cell_methods = "time: mean" ; float SOLIN(time, lat, lon) ; SOLIN:Sampling_Sequence = "rad_lwsw" ; SOLIN:units = "W/m2" ; SOLIN:long_name = "Solar insolation" ; SOLIN:cell_methods = "time: mean" ; float SRFRAD(time, lat, lon) ; SRFRAD:units = "W/m2" ; SRFRAD:long_name = "Net radiative flux at surface" ; SRFRAD:cell_methods = "time: mean" ; float SSLT01(time, lev, lat, lon) ; SSLT01:mdims = 1 ; SSLT01:units = "kg/kg" ; SSLT01:long_name = "SSLT01 progseasalts mixing ratio" ; SSLT01:cell_methods = "time: mean" ; float SSLT01DD(time, lat, lon) ; SSLT01DD:units = "kg/m2/s" ; SSLT01DD:long_name = "SSLT01 dry deposition flux at bottom (grav + turb)" ; SSLT01DD:cell_methods = "time: mean" ; float SSLT01DT(time, lev, lat, lon) ; SSLT01DT:mdims = 1 ; SSLT01DT:units = "kg/kg/s" ; SSLT01DT:long_name = "SSLT01 dry deposition" ; SSLT01DT:cell_methods = "time: mean" ; float SSLT01DV(time, lev, lat, lon) ; SSLT01DV:mdims = 1 ; SSLT01DV:units = "m/s" ; SSLT01DV:long_name = "SSLT01 deposition velocity" ; SSLT01DV:cell_methods = "time: mean" ; float SSLT01GV(time, lat, lon) ; SSLT01GV:units = "kg/m2/s" ; SSLT01GV:long_name = "SSLT01 gravitational dry deposition flux" ; SSLT01GV:cell_methods = "time: mean" ; float SSLT01OD(time, lat, lon) ; SSLT01OD:units = "Tau" ; SSLT01OD:long_name = "SSLT01 optical depth" ; SSLT01OD:cell_methods = "time: mean" ; float SSLT01PP(time, lev, lat, lon) ; SSLT01PP:mdims = 1 ; SSLT01PP:units = "kg/kg/s" ; SSLT01PP:long_name = "SSLT01 wet deposition" ; SSLT01PP:cell_methods = "time: mean" ; float SSLT01SF(time, lat, lon) ; SSLT01SF:units = "kg/m2/s" ; SSLT01SF:long_name = "SSLT01 progseasalts surface emission" ; SSLT01SF:cell_methods = "time: mean" ; float SSLT01TB(time, lat, lon) ; SSLT01TB:units = "kg/m2/s" ; SSLT01TB:long_name = "SSLT01 turbulent dry deposition flux" ; SSLT01TB:cell_methods = "time: mean" ; float SSLT02(time, lev, lat, lon) ; SSLT02:mdims = 1 ; SSLT02:units = "kg/kg" ; SSLT02:long_name = "SSLT02 progseasalts mixing ratio" ; SSLT02:cell_methods = "time: mean" ; float SSLT02DD(time, lat, lon) ; SSLT02DD:units = "kg/m2/s" ; SSLT02DD:long_name = "SSLT02 dry deposition flux at bottom (grav + turb)" ; SSLT02DD:cell_methods = "time: mean" ; float SSLT02DT(time, lev, lat, lon) ; SSLT02DT:mdims = 1 ; SSLT02DT:units = "kg/kg/s" ; SSLT02DT:long_name = "SSLT02 dry deposition" ; SSLT02DT:cell_methods = "time: mean" ; float SSLT02DV(time, lev, lat, lon) ; SSLT02DV:mdims = 1 ; SSLT02DV:units = "m/s" ; SSLT02DV:long_name = "SSLT02 deposition velocity" ; SSLT02DV:cell_methods = "time: mean" ; float SSLT02GV(time, lat, lon) ; SSLT02GV:units = "kg/m2/s" ; SSLT02GV:long_name = "SSLT02 gravitational dry deposition flux" ; SSLT02GV:cell_methods = "time: mean" ; float SSLT02OD(time, lat, lon) ; SSLT02OD:units = "Tau" ; SSLT02OD:long_name = "SSLT02 optical depth" ; SSLT02OD:cell_methods = "time: mean" ; float SSLT02PP(time, lev, lat, lon) ; SSLT02PP:mdims = 1 ; SSLT02PP:units = "kg/kg/s" ; SSLT02PP:long_name = "SSLT02 wet deposition" ; SSLT02PP:cell_methods = "time: mean" ; float SSLT02SF(time, lat, lon) ; SSLT02SF:units = "kg/m2/s" ; SSLT02SF:long_name = "SSLT02 progseasalts surface emission" ; SSLT02SF:cell_methods = "time: mean" ; float SSLT02TB(time, lat, lon) ; SSLT02TB:units = "kg/m2/s" ; SSLT02TB:long_name = "SSLT02 turbulent dry deposition flux" ; SSLT02TB:cell_methods = "time: mean" ; float SSLT03(time, lev, lat, lon) ; SSLT03:mdims = 1 ; SSLT03:units = "kg/kg" ; SSLT03:long_name = "SSLT03 progseasalts mixing ratio" ; SSLT03:cell_methods = "time: mean" ; float SSLT03DD(time, lat, lon) ; SSLT03DD:units = "kg/m2/s" ; SSLT03DD:long_name = "SSLT03 dry deposition flux at bottom (grav + turb)" ; SSLT03DD:cell_methods = "time: mean" ; float SSLT03DT(time, lev, lat, lon) ; SSLT03DT:mdims = 1 ; SSLT03DT:units = "kg/kg/s" ; SSLT03DT:long_name = "SSLT03 dry deposition" ; SSLT03DT:cell_methods = "time: mean" ; float SSLT03DV(time, lev, lat, lon) ; SSLT03DV:mdims = 1 ; SSLT03DV:units = "m/s" ; SSLT03DV:long_name = "SSLT03 deposition velocity" ; SSLT03DV:cell_methods = "time: mean" ; float SSLT03GV(time, lat, lon) ; SSLT03GV:units = "kg/m2/s" ; SSLT03GV:long_name = "SSLT03 gravitational dry deposition flux" ; SSLT03GV:cell_methods = "time: mean" ; float SSLT03OD(time, lat, lon) ; SSLT03OD:units = "Tau" ; SSLT03OD:long_name = "SSLT03 optical depth" ; SSLT03OD:cell_methods = "time: mean" ; float SSLT03PP(time, lev, lat, lon) ; SSLT03PP:mdims = 1 ; SSLT03PP:units = "kg/kg/s" ; SSLT03PP:long_name = "SSLT03 wet deposition" ; SSLT03PP:cell_methods = "time: mean" ; float SSLT03SF(time, lat, lon) ; SSLT03SF:units = "kg/m2/s" ; SSLT03SF:long_name = "SSLT03 progseasalts surface emission" ; SSLT03SF:cell_methods = "time: mean" ; float SSLT03TB(time, lat, lon) ; SSLT03TB:units = "kg/m2/s" ; SSLT03TB:long_name = "SSLT03 turbulent dry deposition flux" ; SSLT03TB:cell_methods = "time: mean" ; float SSLT04(time, lev, lat, lon) ; SSLT04:mdims = 1 ; SSLT04:units = "kg/kg" ; SSLT04:long_name = "SSLT04 progseasalts mixing ratio" ; SSLT04:cell_methods = "time: mean" ; float SSLT04DD(time, lat, lon) ; SSLT04DD:units = "kg/m2/s" ; SSLT04DD:long_name = "SSLT04 dry deposition flux at bottom (grav + turb)" ; SSLT04DD:cell_methods = "time: mean" ; float SSLT04DT(time, lev, lat, lon) ; SSLT04DT:mdims = 1 ; SSLT04DT:units = "kg/kg/s" ; SSLT04DT:long_name = "SSLT04 dry deposition" ; SSLT04DT:cell_methods = "time: mean" ; float SSLT04DV(time, lev, lat, lon) ; SSLT04DV:mdims = 1 ; SSLT04DV:units = "m/s" ; SSLT04DV:long_name = "SSLT04 deposition velocity" ; SSLT04DV:cell_methods = "time: mean" ; float SSLT04GV(time, lat, lon) ; SSLT04GV:units = "kg/m2/s" ; SSLT04GV:long_name = "SSLT04 gravitational dry deposition flux" ; SSLT04GV:cell_methods = "time: mean" ; float SSLT04OD(time, lat, lon) ; SSLT04OD:units = "Tau" ; SSLT04OD:long_name = "SSLT04 optical depth" ; SSLT04OD:cell_methods = "time: mean" ; float SSLT04PP(time, lev, lat, lon) ; SSLT04PP:mdims = 1 ; SSLT04PP:units = "kg/kg/s" ; SSLT04PP:long_name = "SSLT04 wet deposition" ; SSLT04PP:cell_methods = "time: mean" ; float SSLT04SF(time, lat, lon) ; SSLT04SF:units = "kg/m2/s" ; SSLT04SF:long_name = "SSLT04 progseasalts surface emission" ; SSLT04SF:cell_methods = "time: mean" ; float SSLT04TB(time, lat, lon) ; SSLT04TB:units = "kg/m2/s" ; SSLT04TB:long_name = "SSLT04 turbulent dry deposition flux" ; SSLT04TB:cell_methods = "time: mean" ; float SSTODXC(time, lat, lon) ; SSTODXC:units = "Tau" ; SSTODXC:long_name = "Optical depth for diagnostics" ; SSTODXC:cell_methods = "time: mean" ; float SSTSFDRY(time, lat, lon) ; SSTSFDRY:units = "kg/m2/s" ; SSTSFDRY:long_name = "Dry deposition flux at surface" ; SSTSFDRY:cell_methods = "time: mean" ; float SSTSFMBL(time, lat, lon) ; SSTSFMBL:units = "kg/m2/s" ; SSTSFMBL:long_name = "Mobilization flux at surface" ; SSTSFMBL:cell_methods = "time: mean" ; float SSTSFWET(time, lat, lon) ; SSTSFWET:units = "kg/m2/s" ; SSTSFWET:long_name = "Wet deposition flux at surface" ; SSTSFWET:cell_methods = "time: mean" ; float SWCF(time, lat, lon) ; SWCF:Sampling_Sequence = "rad_lwsw" ; SWCF:units = "W/m2" ; SWCF:long_name = "Shortwave cloud forcing" ; SWCF:cell_methods = "time: mean" ; float SZA(time, lat, lon) ; SZA:units = "degrees" ; SZA:long_name = "solar zenith angle" ; SZA:cell_methods = "time: mean" ; float T(time, lev, lat, lon) ; T:mdims = 1 ; T:units = "K" ; T:long_name = "Temperature" ; T:cell_methods = "time: mean" ; float T700(time, lat, lon) ; T700:units = "K" ; T700:long_name = "Temperature at 700 mbar pressure surface" ; T700:cell_methods = "time: mean" ; float T850(time, lat, lon) ; T850:units = "K" ; T850:long_name = "Temperature at 850 mbar pressure surface" ; T850:cell_methods = "time: mean" ; float TAUE(time, ilev, lat, lon) ; TAUE:mdims = 2 ; TAUE:units = "Pa" ; TAUE:long_name = "CM Eastward Reynolds stress" ; TAUE:cell_methods = "time: mean" ; float TAUGWX(time, lat, lon) ; TAUGWX:units = "N/m2" ; TAUGWX:long_name = "Zonal gravity wave surface stress" ; TAUGWX:cell_methods = "time: mean" ; float TAUGWY(time, lat, lon) ; TAUGWY:units = "N/m2" ; TAUGWY:long_name = "Meridional gravity wave surface stress" ; TAUGWY:cell_methods = "time: mean" ; float TAUN(time, ilev, lat, lon) ; TAUN:mdims = 2 ; TAUN:units = "Pa" ; TAUN:long_name = "CM Northward Reynolds stress" ; TAUN:cell_methods = "time: mean" ; float TAUNET(time, ilev, lat, lon) ; TAUNET:mdims = 2 ; TAUNET:units = "Pa" ; TAUNET:long_name = "CM E+W Reynolds stress" ; TAUNET:cell_methods = "time: mean" ; float TAUS(time, ilev, lat, lon) ; TAUS:mdims = 2 ; TAUS:units = "Pa" ; TAUS:long_name = "CM Southward Reynolds stress" ; TAUS:cell_methods = "time: mean" ; float TAUW(time, ilev, lat, lon) ; TAUW:mdims = 2 ; TAUW:units = "Pa" ; TAUW:long_name = "CM Westward Reynolds stress" ; TAUW:cell_methods = "time: mean" ; float TAUX(time, lat, lon) ; TAUX:units = "N/m2" ; TAUX:long_name = "Zonal surface stress" ; TAUX:cell_methods = "time: mean" ; float TAUY(time, lat, lon) ; TAUY:units = "N/m2" ; TAUY:long_name = "Meridional surface stress" ; TAUY:cell_methods = "time: mean" ; float TBRY(time, lev, lat, lon) ; TBRY:mdims = 1 ; TBRY:units = "mol/mol" ; TBRY:long_name = "total Br (ORG+INORG) volume mixing ratio" ; TBRY:cell_methods = "time: mean" ; float TCLY(time, lev, lat, lon) ; TCLY:mdims = 1 ; TCLY:units = "mol/mol" ; TCLY:long_name = "total Cl (ORG+INORG) volume mixing ratio" ; TCLY:cell_methods = "time: mean" ; float TERPO2(time, lev, lat, lon) ; TERPO2:mdims = 1 ; TERPO2:units = "mol/mol" ; TERPO2:long_name = "TERPO2 concentration" ; TERPO2:cell_methods = "time: mean" ; float TERPOOH(time, lev, lat, lon) ; TERPOOH:mdims = 1 ; TERPOOH:units = "mol/mol" ; TERPOOH:long_name = "TERPOOH concentration" ; TERPOOH:cell_methods = "time: mean" ; float TGCLDCWP(time, lat, lon) ; TGCLDCWP:Sampling_Sequence = "rad_lwsw" ; TGCLDCWP:units = "gram/m2" ; TGCLDCWP:long_name = "Total grid-box cloud water path (liquid and ice)" ; TGCLDCWP:cell_methods = "time: mean" ; float TGCLDIWP(time, lat, lon) ; TGCLDIWP:Sampling_Sequence = "rad_lwsw" ; TGCLDIWP:units = "gram/m2" ; TGCLDIWP:long_name = "Total grid-box cloud ice water path" ; TGCLDIWP:cell_methods = "time: mean" ; float TGCLDLWP(time, lat, lon) ; TGCLDLWP:Sampling_Sequence = "rad_lwsw" ; TGCLDLWP:units = "gram/m2" ; TGCLDLWP:long_name = "Total grid-box cloud liquid water path" ; TGCLDLWP:cell_methods = "time: mean" ; float TH(time, ilev, lat, lon) ; TH:mdims = 2 ; TH:units = "K" ; TH:long_name = "Potential Temperature" ; TH:cell_methods = "time: mean" ; float TIY(time, lev, lat, lon) ; TIY:mdims = 1 ; TIY:units = "mol/mol" ; TIY:long_name = "total I volume mixing ratio" ; TIY:cell_methods = "time: mean" ; float TMQ(time, lat, lon) ; TMQ:units = "kg/m2" ; TMQ:long_name = "Total (vertically integrated) precipitable water" ; TMQ:cell_methods = "time: mean" ; float TMSOAB(time, lat, lon) ; TMSOAB:units = "kg/m2" ; TMSOAB:long_name = "SOAB column burden" ; TMSOAB:cell_methods = "time: mean" ; float TMSOAI(time, lat, lon) ; TMSOAI:units = "kg/m2" ; TMSOAI:long_name = "SOAI column burden" ; TMSOAI:cell_methods = "time: mean" ; float TMSOAM(time, lat, lon) ; TMSOAM:units = "kg/m2" ; TMSOAM:long_name = "SOAM column burden" ; TMSOAM:cell_methods = "time: mean" ; float TMSOAT(time, lat, lon) ; TMSOAT:units = "kg/m2" ; TMSOAT:long_name = "SOAT column burden" ; TMSOAT:cell_methods = "time: mean" ; float TMSOAX(time, lat, lon) ; TMSOAX:units = "kg/m2" ; TMSOAX:long_name = "SOAX column burden" ; TMSOAX:cell_methods = "time: mean" ; float TMSOGB(time, lat, lon) ; TMSOGB:units = "kg/m2" ; TMSOGB:long_name = "SOGB column burden" ; TMSOGB:cell_methods = "time: mean" ; float TMSOGI(time, lat, lon) ; TMSOGI:units = "kg/m2" ; TMSOGI:long_name = "SOGI column burden" ; TMSOGI:cell_methods = "time: mean" ; float TMSOGM(time, lat, lon) ; TMSOGM:units = "kg/m2" ; TMSOGM:long_name = "SOGM column burden" ; TMSOGM:cell_methods = "time: mean" ; float TMSOGT(time, lat, lon) ; TMSOGT:units = "kg/m2" ; TMSOGT:long_name = "SOGT column burden" ; TMSOGT:cell_methods = "time: mean" ; float TMSOGX(time, lat, lon) ; TMSOGX:units = "kg/m2" ; TMSOGX:long_name = "SOGX column burden" ; TMSOGX:cell_methods = "time: mean" ; float TOLO2(time, lev, lat, lon) ; TOLO2:mdims = 1 ; TOLO2:units = "mol/mol" ; TOLO2:long_name = "TOLO2 concentration" ; TOLO2:cell_methods = "time: mean" ; float TOLOOH(time, lev, lat, lon) ; TOLOOH:mdims = 1 ; TOLOOH:units = "mol/mol" ; TOLOOH:long_name = "TOLOOH concentration" ; TOLOOH:cell_methods = "time: mean" ; float TOLUENE(time, lev, lat, lon) ; TOLUENE:mdims = 1 ; TOLUENE:units = "mol/mol" ; TOLUENE:long_name = "TOLUENE concentration" ; TOLUENE:cell_methods = "time: mean" ; float TOTH(time, lev, lat, lon) ; TOTH:mdims = 1 ; TOTH:units = "mol/mol" ; TOTH:long_name = "total H2 volume mixing ratio" ; TOTH:cell_methods = "time: mean" ; float TOT_CLD_VISTAU(time, lev, lat, lon) ; TOT_CLD_VISTAU:mdims = 1 ; TOT_CLD_VISTAU:Sampling_Sequence = "rad_lwsw" ; TOT_CLD_VISTAU:_FillValue = 1.e+36f ; TOT_CLD_VISTAU:missing_value = 1.e+36f ; TOT_CLD_VISTAU:units = "1" ; TOT_CLD_VISTAU:long_name = "Total gbx cloud visible sw optical depth" ; TOT_CLD_VISTAU:cell_methods = "time: mean" ; float TOT_ICLD_VISTAU(time, lev, lat, lon) ; TOT_ICLD_VISTAU:mdims = 1 ; TOT_ICLD_VISTAU:Sampling_Sequence = "rad_lwsw" ; TOT_ICLD_VISTAU:_FillValue = 1.e+36f ; TOT_ICLD_VISTAU:missing_value = 1.e+36f ; TOT_ICLD_VISTAU:units = "1" ; TOT_ICLD_VISTAU:long_name = "Total in-cloud visible sw optical depth" ; TOT_ICLD_VISTAU:cell_methods = "time: mean" ; float TREFHT(time, lat, lon) ; TREFHT:units = "K" ; TREFHT:long_name = "Reference height temperature" ; TREFHT:cell_methods = "time: mean" ; float TREFMNAV(time, lat, lon) ; TREFMNAV:units = "K" ; TREFMNAV:long_name = "Average of TREFHT daily minimum" ; TREFMNAV:cell_methods = "time: mean" ; float TREFMXAV(time, lat, lon) ; TREFMXAV:units = "K" ; TREFMXAV:long_name = "Average of TREFHT daily maximum" ; TREFMXAV:cell_methods = "time: mean" ; float TROP_P(time, lat, lon) ; TROP_P:_FillValue = 1.e+36f ; TROP_P:missing_value = 1.e+36f ; TROP_P:units = "Pa" ; TROP_P:long_name = "Tropopause Pressure" ; TROP_P:cell_methods = "time: mean" ; float TROP_T(time, lat, lon) ; TROP_T:_FillValue = 1.e+36f ; TROP_T:missing_value = 1.e+36f ; TROP_T:units = "K" ; TROP_T:long_name = "Tropopause Temperature" ; TROP_T:cell_methods = "time: mean" ; float TROP_Z(time, lat, lon) ; TROP_Z:_FillValue = 1.e+36f ; TROP_Z:missing_value = 1.e+36f ; TROP_Z:units = "m" ; TROP_Z:long_name = "Tropopause Height" ; TROP_Z:cell_methods = "time: mean" ; float TS(time, lat, lon) ; TS:units = "K" ; TS:long_name = "Surface temperature (radiative)" ; TS:cell_methods = "time: mean" ; float TSMN(time, lat, lon) ; TSMN:units = "K" ; TSMN:long_name = "Minimum surface temperature over output period" ; TSMN:cell_methods = "time: mean" ; float TSMX(time, lat, lon) ; TSMX:units = "K" ; TSMX:long_name = "Maximum surface temperature over output period" ; TSMX:cell_methods = "time: mean" ; float TTGWSDF(time, lev, lat, lon) ; TTGWSDF:mdims = 1 ; TTGWSDF:units = "K/s" ; TTGWSDF:long_name = "t tendency - gw spec: diffusion term" ; TTGWSDF:cell_methods = "time: mean" ; float TTGWSKE(time, lev, lat, lon) ; TTGWSKE:mdims = 1 ; TTGWSKE:units = "K/s" ; TTGWSKE:long_name = "t tendency - gw spec: kinetic energy conversion term" ; TTGWSKE:cell_methods = "time: mean" ; float U(time, lev, lat, lon) ; U:mdims = 1 ; U:units = "m/s" ; U:long_name = "Zonal wind" ; U:cell_methods = "time: mean" ; float U10(time, lat, lon) ; U10:units = "m/s" ; U10:long_name = "10m wind speed" ; U10:cell_methods = "time: mean" ; float US(time, lev, slat, lon) ; US:mdims = 1 ; US:units = "m/s" ; US:long_name = "Zonal wind, staggered" ; US:cell_methods = "time: mean" ; float UTGWORO(time, lev, lat, lon) ; UTGWORO:mdims = 1 ; UTGWORO:units = "m/s2" ; UTGWORO:long_name = "U tendency - orographic gravity wave drag" ; UTGWORO:cell_methods = "time: mean" ; float UTGWSPEC(time, lev, lat, lon) ; UTGWSPEC:mdims = 1 ; UTGWSPEC:units = "m/s2" ; UTGWSPEC:long_name = "U tendency - gravity wave spectrum" ; UTGWSPEC:cell_methods = "time: mean" ; float UU(time, lev, lat, lon) ; UU:mdims = 1 ; UU:units = "m2/s2" ; UU:long_name = "Zonal velocity squared" ; UU:cell_methods = "time: mean" ; float UV3d(time, ilev, lat, lon) ; UV3d:mdims = 2 ; UV3d:units = "M2/S2" ; UV3d:long_name = "Meridional Flux of Zonal Momentum: 3D zon. mean" ; UV3d:cell_methods = "time: mean" ; float UW3d(time, ilev, lat, lon) ; UW3d:mdims = 2 ; UW3d:units = "M2/S2" ; UW3d:long_name = "Vertical Flux of Zonal Momentum: 3D zon. mean" ; UW3d:cell_methods = "time: mean" ; float V(time, lev, lat, lon) ; V:mdims = 1 ; V:units = "m/s" ; V:long_name = "Meridional wind" ; V:cell_methods = "time: mean" ; float VD01(time, lev, lat, lon) ; VD01:mdims = 1 ; VD01:units = "kg/kg/s" ; VD01:long_name = "Vertical diffusion of Q" ; VD01:cell_methods = "time: mean" ; float VEL_NAT2(time, lev, lat, lon) ; VEL_NAT2:mdims = 1 ; VEL_NAT2:units = "cm/s" ; VEL_NAT2:long_name = "large nat settling velocity" ; VEL_NAT2:cell_methods = "time: mean" ; float VERT(time, lev, lat, lon) ; VERT:mdims = 1 ; VERT:units = "kg/kg" ; VERT:long_name = "vertical tracer" ; VERT:cell_methods = "time: mean" ; float VERTSRC(time, lev, lat, lon) ; VERTSRC:mdims = 1 ; VERTSRC:units = "kg/kg/s" ; VERTSRC:long_name = "VERT source/sink" ; VERTSRC:cell_methods = "time: mean" ; float VOLC_DENS(time, lev, lat, lon) ; VOLC_DENS:mdims = 1 ; VOLC_DENS:units = "molecules/cm3" ; VOLC_DENS:long_name = "prescribed volcanic aerosol number density" ; VOLC_DENS:cell_methods = "time: mean" ; float VOLC_MASS(time, lev, lat, lon) ; VOLC_MASS:mdims = 1 ; VOLC_MASS:units = "kg/m^2" ; VOLC_MASS:long_name = "volcanic aerosol vertical mass path in layer" ; VOLC_MASS:cell_methods = "time: mean" ; float VOLC_MASS_C(time, lat, lon) ; VOLC_MASS_C:units = "kg/m^2" ; VOLC_MASS_C:long_name = "volcanic aerosol column mass" ; VOLC_MASS_C:cell_methods = "time: mean" ; float VOLC_MMR(time, lev, lat, lon) ; VOLC_MMR:mdims = 1 ; VOLC_MMR:units = "kg/kg" ; VOLC_MMR:long_name = "prescribed volcanic aerosol dry mass mixing ratio" ; VOLC_MMR:cell_methods = "time: mean" ; float VOLC_RAD_GEOM(time, lev, lat, lon) ; VOLC_RAD_GEOM:mdims = 1 ; VOLC_RAD_GEOM:units = "m" ; VOLC_RAD_GEOM:long_name = "volcanic aerosol geometric-mean radius" ; VOLC_RAD_GEOM:cell_methods = "time: mean" ; float VQ(time, lev, lat, lon) ; VQ:mdims = 1 ; VQ:units = "m/skg/kg" ; VQ:long_name = "Meridional water transport" ; VQ:cell_methods = "time: mean" ; float VS(time, lev, lat, slon) ; VS:mdims = 1 ; VS:units = "m/s" ; VS:long_name = "Meridional wind, staggered" ; VS:cell_methods = "time: mean" ; float VT(time, lev, lat, lon) ; VT:mdims = 1 ; VT:units = "K m/s" ; VT:long_name = "Meridional heat transport" ; VT:cell_methods = "time: mean" ; float VTGWORO(time, lev, lat, lon) ; VTGWORO:mdims = 1 ; VTGWORO:units = "m/s2" ; VTGWORO:long_name = "V tendency - orographic gravity wave drag" ; VTGWORO:cell_methods = "time: mean" ; float VTGWSPEC(time, lev, lat, lon) ; VTGWSPEC:mdims = 1 ; VTGWSPEC:units = "m/s2" ; VTGWSPEC:long_name = "V tendency - gravity wave spectrum" ; VTGWSPEC:cell_methods = "time: mean" ; float VTH3d(time, ilev, lat, lon) ; VTH3d:mdims = 2 ; VTH3d:units = "MK/S" ; VTH3d:long_name = "Meridional Heat Flux: 3D zon. mean" ; VTH3d:cell_methods = "time: mean" ; float VU(time, lev, lat, lon) ; VU:mdims = 1 ; VU:units = "m2/s2" ; VU:long_name = "Meridional flux of zonal momentum" ; VU:cell_methods = "time: mean" ; float VV(time, lev, lat, lon) ; VV:mdims = 1 ; VV:units = "m2/s2" ; VV:long_name = "Meridional velocity squared" ; VV:cell_methods = "time: mean" ; float WTH3d(time, ilev, lat, lon) ; WTH3d:mdims = 2 ; WTH3d:units = "MK/S" ; WTH3d:long_name = "Vertical Heat Flux: 3D zon. mean" ; WTH3d:cell_methods = "time: mean" ; float XO2(time, lev, lat, lon) ; XO2:mdims = 1 ; XO2:units = "mol/mol" ; XO2:long_name = "XO2 concentration" ; XO2:cell_methods = "time: mean" ; float XOH(time, lev, lat, lon) ; XOH:mdims = 1 ; XOH:units = "mol/mol" ; XOH:long_name = "XOH concentration" ; XOH:cell_methods = "time: mean" ; float XOOH(time, lev, lat, lon) ; XOOH:mdims = 1 ; XOOH:units = "mol/mol" ; XOOH:long_name = "XOOH concentration" ; XOOH:cell_methods = "time: mean" ; float XYLENE(time, lev, lat, lon) ; XYLENE:mdims = 1 ; XYLENE:units = "mol/mol" ; XYLENE:long_name = "XYLENE concentration" ; XYLENE:cell_methods = "time: mean" ; float XYLO2(time, lev, lat, lon) ; XYLO2:mdims = 1 ; XYLO2:units = "mol/mol" ; XYLO2:long_name = "XYLO2 concentration" ; XYLO2:cell_methods = "time: mean" ; float XYLOOH(time, lev, lat, lon) ; XYLOOH:mdims = 1 ; XYLOOH:units = "mol/mol" ; XYLOOH:long_name = "XYLOOH concentration" ; XYLOOH:cell_methods = "time: mean" ; float Z3(time, lev, lat, lon) ; Z3:mdims = 1 ; Z3:units = "m" ; Z3:long_name = "Geopotential Height (above sea level)" ; Z3:cell_methods = "time: mean" ; float ZMMU(time, lev, lat, lon) ; ZMMU:mdims = 1 ; ZMMU:units = "kg/m2/s" ; ZMMU:long_name = "ZM convection updraft mass flux" ; ZMMU:cell_methods = "time: mean" ; double ch4vmr(time) ; ch4vmr:long_name = "ch4 volume mixing ratio" ; double co2vmr(time) ; co2vmr:long_name = "co2 volume mixing ratio" ; int date(time) ; date:long_name = "current date (YYYYMMDD)" ; char date_written(time, chars) ; int datesec(time) ; datesec:long_name = "current seconds of current date" ; double f11vmr(time) ; f11vmr:long_name = "f11 volume mixing ratio" ; double f12vmr(time) ; f12vmr:long_name = "f12 volume mixing ratio" ; double gw(lat) ; gw:long_name = "gauss weights" ; double hyai(ilev) ; hyai:long_name = "hybrid A coefficient at layer interfaces" ; double hyam(lev) ; hyam:long_name = "hybrid A coefficient at layer midpoints" ; double hybi(ilev) ; hybi:long_name = "hybrid B coefficient at layer interfaces" ; double hybm(lev) ; hybm:long_name = "hybrid B coefficient at layer midpoints" ; double ilev(ilev) ; ilev:long_name = "hybrid level at interfaces (1000*(A+B))" ; ilev:units = "level" ; ilev:positive = "down" ; ilev:standard_name = "atmosphere_hybrid_sigma_pressure_coordinate" ; ilev:formula_terms = "a: hyai b: hybi p0: P0 ps: PS" ; double lat(lat) ; lat:long_name = "latitude" ; lat:units = "degrees_north" ; double lev(lev) ; lev:long_name = "hybrid level at midpoints (1000*(A+B))" ; lev:units = "level" ; lev:positive = "down" ; lev:standard_name = "atmosphere_hybrid_sigma_pressure_coordinate" ; lev:formula_terms = "a: hyam b: hybm p0: P0 ps: PS" ; double lon(lon) ; lon:long_name = "longitude" ; lon:units = "degrees_east" ; int mdt ; mdt:long_name = "timestep" ; mdt:units = "s" ; double n2ovmr(time) ; n2ovmr:long_name = "n2o volume mixing ratio" ; int nbdate ; nbdate:long_name = "base date (YYYYMMDD)" ; int nbsec ; nbsec:long_name = "seconds of base date" ; int ndbase ; ndbase:long_name = "base day" ; int ndcur(time) ; ndcur:long_name = "current day (from base day)" ; int nlon(lat) ; nlon:long_name = "number of longitudes" ; int nsbase ; nsbase:long_name = "seconds of base day" ; int nscur(time) ; nscur:long_name = "current seconds of current day" ; int nsteph(time) ; nsteph:long_name = "current timestep" ; int ntrk ; ntrk:long_name = "spectral truncation parameter K" ; int ntrm ; ntrm:long_name = "spectral truncation parameter M" ; int ntrn ; ntrn:long_name = "spectral truncation parameter N" ; double slat(slat) ; slat:long_name = "staggered latitude" ; slat:units = "degrees_north" ; double slon(slon) ; slon:long_name = "staggered longitude" ; slon:units = "degrees_east" ; double sol_tsi(time) ; sol_tsi:long_name = "total solar irradiance" ; sol_tsi:units = "W/m2" ; double time(time) ; time:long_name = "time" ; time:units = "days since 2013-01-01 00:00:00" ; time:calendar = "gregorian" ; time:bounds = "time_bnds" ; double time_bnds(time, nbnd) ; time_bnds:long_name = "time interval endpoints" ; char time_written(time, chars) ; double w_stag(slat) ; w_stag:long_name = "staggered latitude weights" ; int wnummax(lat) ; wnummax:long_name = "cutoff Fourier wavenumber" ; // global attributes: :Conventions = "CF-1.0" ; :source = "CAM" ; :case = "f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004" ; :title = "UNSET" ; :logname = "dkin" ; :host = "ys3453" ; :Version = "$Name$" ; :revision_Id = "$Id$" ; :initial_file = "/glade/p/acd/dkin/inputdata/atm/waccm4/init/f.e11.tsvirefc1sd.1deg_56lev_torerospinup.001.cam.i.2013-01-01-00000.nc" ; :topography_file = "/glade/p/acd/dkin/inputdata/atm/waccm4/topo/USGS-gtopo30_0.9x1.25_remap_geos5_131219.nc" ; :history = "Thu Oct 1 10:18:53 2015: ncks -d lat,45.,46. -d lon,100.,101. -d time,181.,190. 2013_CAMCHEM_CONTRAST_REF.nc -o 1.nc\n", "Tue Sep 29 13:58:32 2015: ncrcat -d lev,990.,1000. -d ilev,999.,1100. f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-01.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-02.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-03.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-04.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-05.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-06.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-07.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-08.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-09.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-10.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-11.nc f.e11.TSVIREFC1SD.f09.f09.CONTRAST_REF.004.cam.h0.2013-12.nc -o /glade/scratch/alma/2013_CAMCHEM_CONTRAST_REF.nc" ; :nco_openmp_thread_number = 1 ; :NCO = "4.3.7" ; data: AEROD_v = 0.6322898 ; ALKO2 = 2.471314e-14 ; ALKOOH = 5.049865e-12 ; AOA1 = 0.5143377 ; AOA1SRC = 0 ; AOA2 = 0.164457 ; AOA2SRC = 0 ; ATMEINT = 2.301318e+09 ; BENO2 = 4.081507e-15 ; BENOOH = 1.808574e-08 ; BENZENE = 2.382096e-11 ; BIGALD = 9.457391e-14 ; BIGALK = 2.74472e-11 ; BIGENE = 1.201508e-12 ; BR = 8.437017e-16 ; BR2 = 2.200351e-17 ; BRCL = 3.061348e-15 ; BRNO2 = 8.063892e-16 ; BRO = 1.346199e-14 ; BRONO2 = 1.195859e-13 ; BROX = 7.298177e-14 ; BROY = 4.586218e-13 ; BTAUE = 0 ; BTAUN = 0 ; BTAUS = 0 ; BTAUW = 0 ; BUTGWSPEC = 1.066767e-09 ; BVTGWSPEC = 4.170376e-10 ; C10H16 = 7.556528e-12 ; C2H2 = 4.222659e-11 ; C2H4 = 2.252593e-10 ; C2H5O2 = 1.334111e-14 ; C2H5OH = 1.666536e-12 ; C2H5OOH = 2.552915e-12 ; C2H6 = 2.164493e-10 ; C3H6 = 3.779123e-11 ; C3H7O2 = 6.13287e-15 ; C3H7OOH = 1.247762e-12 ; C3H8 = 1.829971e-11 ; CB1 = 4.325585e-12 ; CB1_CLXF = 161416 ; CB1_XFRC = 0 ; CB2 = 2.718213e-11 ; CB2SFWET = -1.994415e-13 ; CCL4 = 8.207958e-11 ; CF2CLBR = 3.77452e-12 ; CF3BR = 3.264548e-12 ; CFC11 = 2.319084e-10 ; CFC113 = 7.278796e-11 ; CFC114 = 1.622726e-11 ; CFC115 = 8.374548e-12 ; CFC11STAR = 2.937565e-09 ; CFC12 = 5.205145e-10 ; CH2BR2 = 7.665563e-13 ; CH2BRCL = 1.595129e-13 ; CH2I2 = 4.062211e-35 ; CH2IBR = 1.103616e-29 ; CH2ICL = 1.110796e-23 ; CH2O = 6.40296e-10 ; CH3BR = 7.964213e-12 ; CH3CCL3 = 4.980735e-12 ; CH3CHO = 2.876439e-11 ; CH3CL = 5.5001e-10 ; CH3CN = 2.680091e-11 ; CH3CO3 = 4.130617e-13 ; CH3COCH3 = 5.743458e-10 ; CH3COCHO = 2.599946e-11 ; CH3COOH = 1.393216e-10 ; CH3COOOH = 1.972282e-10 ; CH3I = 1.136915e-13 ; CH3O2 = 3.951959e-12 ; CH3OH = 4.461275e-09 ; CH3OOH = 3.541223e-10 ; CH4 = 1.8398e-06 ; CHBR2CL = 6.467649e-14 ; CHBR3 = 3.96654e-13 ; CHBRCL2 = 9.595184e-14 ; CL = 1.127112e-17 ; CL2 = 1.244681e-15 ; CL2O2 = 2.063695e-23 ; CLDHGH = 0.2279375 ; CLDICE = 8.190129e-29 ; CLDLIQ = 2.220375e-07 ; CLDLOW = 0.02543991 ; CLDMED = 0.1456447 ; CLDTOT = 0.2691402 ; CLNO2 = 4.478683e-16 ; CLO = 5.241201e-15 ; CLONO2 = 5.241479e-13 ; CLOUD = 8.830884e-06 ; CLOX = 1.116451e-13 ; CLOY = 4.037884e-12 ; CMFDQ = 0 ; CMFDQR = 0 ; CMFDT = 0 ; CMFMC = 0 ; CMFMCDZM = 0 ; CO = 8.772222e-08 ; CO2 = 0.0003957112 ; CONCLD = 0 ; CRESOL = 2.128359e-12 ; DCQ = 1.87153e-09 ; DF_ALKOOH = 5.957957e-15 ; DF_BENZENE = 0 ; DF_BR2 = 1.444236e-18 ; DF_C2H5OH = 2.14654e-16 ; DF_C2H5OOH = 1.76768e-15 ; DF_C3H7OOH = 1.021562e-15 ; DF_CH2O = 1.441234e-13 ; DF_CH3CHO = 2.736219e-15 ; DF_CH3CN = 0 ; DF_CH3COCH3 = 7.385056e-14 ; DF_CH3COCHO = 1.051711e-14 ; DF_CH3COOH = 6.053922e-14 ; DF_CH3COOOH = 2.625503e-13 ; DF_CH3OH = 4.14308e-13 ; DF_CH3OOH = 1.889371e-13 ; DF_CO = 1.045678e-12 ; DF_DST01 = 0 ; DF_DST02 = 0 ; DF_DST03 = 0 ; DF_DST04 = 0 ; DF_EOOH = 2.945614e-14 ; DF_GLYALD = 1.078786e-13 ; DF_H2O2 = 3.152765e-12 ; DF_HCN = 0 ; DF_HCOOH = 6.835035e-14 ; DF_HI = 5.112643e-17 ; DF_HNO3 = 3.922883e-12 ; DF_HO2NO2 = 4.669471e-14 ; DF_HOI = 1.809341e-15 ; DF_HYAC = 6.655005e-14 ; DF_HYDRALD = 1.087102e-14 ; DF_I2O2 = 1.869828e-19 ; DF_I2O3 = 1.091907e-19 ; DF_I2O4 = 2.520466e-21 ; DF_INO2 = 2.084587e-16 ; DF_IONO2 = 5.363759e-16 ; DF_ISOPOOH = 1.416178e-12 ; DF_MACROOH = 2.876814e-13 ; DF_MEKOOH = 1.01125e-14 ; DF_MPAN = 3.136779e-14 ; DF_NH4 = 8.128661e-13 ; DF_NH4NO3 = 5.761953e-13 ; DF_NHX = 1.909769e-11 ; DF_NO = 1.63757e-16 ; DF_NO2 = 1.7207e-13 ; DF_NOY = 1.062042e-12 ; DF_O3 = 1.290938e-10 ; DF_ONIT = 1.056391e-14 ; DF_ONITR = 2.239174e-14 ; DF_PAN = 1.671722e-13 ; DF_POOH = 7.312442e-15 ; DF_ROOH = 5.027274e-15 ; DF_SO2 = 1.184848e-13 ; DF_SO4 = 1.116685e-12 ; DF_SOX = 4.320535e-13 ; DF_SSLT01 = 0 ; DF_SSLT02 = 0 ; DF_SSLT03 = 0 ; DF_SSLT04 = 0 ; DF_TERPOOH = 4.266099e-14 ; DF_TOLOOH = 1.527512e-15 ; DF_XOOH = 1.12333e-12 ; DF_XYLENE = 0 ; DIOCHM = -2.335024e-06 ; DMS = 9.38093e-16 ; DST01 = 3.228367e-08 ; DST01DD = 3.308208e-12 ; DST01DT = -1.169535e-14 ; DST01DV = 9.406051e-05 ; DST01GV = 1.902756e-12 ; DST01PP = 1.903616e-15 ; DST01SF = 5.431783e-10 ; DST01TB = 1.405452e-12 ; DST02 = 9.115586e-08 ; DST02DD = 2.813852e-11 ; DST02DT = -3.031448e-14 ; DST02DV = 0.0002939923 ; DST02GV = 2.552078e-11 ; DST02PP = 3.963408e-15 ; DST02SF = 1.572357e-09 ; DST02TB = 2.617739e-12 ; DST03 = 1.124875e-07 ; DST03DD = 2.61553e-10 ; DST03DT = -1.155503e-12 ; DST03DV = 0.001477801 ; DST03GV = 1.213341e-10 ; DST03PP = 5.687552e-17 ; DST03SF = 2.429802e-09 ; DST03TB = 1.402189e-10 ; DST04 = 2.251737e-07 ; DST04DD = 2.908418e-09 ; DST04DT = -1.581337e-11 ; DST04DV = 0.007745116 ; DST04GV = 9.432136e-10 ; DST04PP = 6.084419e-16 ; DST04SF = 9.577072e-09 ; DST04TB = 1.965204e-09 ; DSTODXC = 0 ; DSTSFDRY = 3.201417e-09 ; DSTSFMBL = 1.412241e-08 ; DSTSFWET = -1.223024e-09 ; DTCOND = -1.614822e-05 ; DTCOND_12_COS = 5.497886e-06 ; DTCOND_12_SIN = 3.404432e-06 ; DTCOND_24_COS = 6.046336e-06 ; DTCOND_24_SIN = -1.559884e-05 ; DTCORE = -4.124015e-06 ; DTV = 2.433963e-05 ; DTWR_ALKOOH = -1.462405e-17 ; DTWR_BR2 = -4.250391e-23 ; DTWR_BRCL = 1.193501e-18 ; DTWR_BRNO2 = -9.613563e-23 ; DTWR_BRONO2 = 1.258728e-18 ; DTWR_C2H5OH = -3.253328e-18 ; DTWR_C2H5OOH = -3.664616e-18 ; DTWR_C3H7OOH = -1.662749e-18 ; DTWR_CH2O = -6.362521e-16 ; DTWR_CH3CHO = -6.008193e-17 ; DTWR_CH3CN = -2.053368e-17 ; DTWR_CH3COCHO = -8.924313e-17 ; DTWR_CH3COOH = -1.633733e-16 ; DTWR_CH3COOOH = -2.916304e-16 ; DTWR_CH3OH = -3.575371e-15 ; DTWR_CH3OOH = -3.536192e-16 ; DTWR_CLNO2 = -1.968005e-22 ; DTWR_CLONO2 = 3.610956e-18 ; DTWR_EOOH = -1.013244e-16 ; DTWR_GLYALD = -2.132973e-16 ; DTWR_H2O2 = -5.628349e-16 ; DTWR_HBR = 1.515473e-19 ; DTWR_HCL = 8.50736e-18 ; DTWR_HCN = -7.653633e-17 ; DTWR_HCOOH = -2.185141e-17 ; DTWR_HI = 1.984752e-22 ; DTWR_HNO3 = 1.449768e-16 ; DTWR_HO2NO2 = -6.994632e-18 ; DTWR_HOBR = 3.102353e-19 ; DTWR_HOCL = -4.499229e-20 ; DTWR_HYAC = -3.176194e-16 ; DTWR_HYDRALD = -2.209024e-16 ; DTWR_I2O2 = 2.646459e-24 ; DTWR_I2O3 = 3.216641e-24 ; DTWR_I2O4 = 1.946827e-23 ; DTWR_IBR = -0 ; DTWR_ICL = -1.481179e-24 ; DTWR_INO2 = -1.697569e-22 ; DTWR_IO = 2.602829e-21 ; DTWR_IONO2 = 1.513682e-19 ; DTWR_ISOPNO3 = -4.33883e-22 ; DTWR_ISOPOOH = -1.039032e-16 ; DTWR_MACR = -3.82984e-24 ; DTWR_MACROOH = -2.072201e-17 ; DTWR_MEKOOH = -1.878267e-17 ; DTWR_MVK = -4.344459e-24 ; DTWR_NH3 = -4.029374e-15 ; DTWR_OIO = 5.57029e-20 ; DTWR_ONIT = -1.482599e-17 ; DTWR_ONITR = -8.025249e-17 ; DTWR_POOH = -2.581689e-17 ; DTWR_Pb = -0 ; DTWR_ROOH = -8.998163e-18 ; DTWR_SO2 = -4.284751e-17 ; DTWR_SOGB = -1.198604e-17 ; DTWR_SOGI = -9.894947e-16 ; DTWR_SOGM = -5.790808e-16 ; DTWR_SOGT = -2.299804e-18 ; DTWR_SOGX = -2.214057e-18 ; DTWR_TERPOOH = -1.117363e-16 ; DTWR_TOLOOH = -6.396433e-18 ; DTWR_XOOH = -5.15448e-17 ; DUV = 5.154402e-05 ; DVV = 4.075271e-05 ; DV_BR2 = 1 ; DV_BRONO2 = 0.5 ; DV_CH2O = 0.02195155 ; DV_CH3CN = 0 ; DV_CH3OOH = 0.03287918 ; DV_CLONO2 = 1 ; DV_CO = 0.001246835 ; DV_EOOH = 0.02195155 ; DV_H2O2 = 0.2588414 ; DV_HBR = 2 ; DV_HCL = 2 ; DV_HCN = 0 ; DV_HCOOH = 0.1817423 ; DV_HI = 1 ; DV_HNO3 = 0.8907824 ; DV_HO2NO2 = 0.6995131 ; DV_HOBR = 1.6 ; DV_HOCL = 1 ; DV_HOI = 0.75 ; DV_I2O2 = 1 ; DV_I2O3 = 1 ; DV_I2O4 = 1 ; DV_INO2 = 0.75 ; DV_IONO2 = 0.75 ; DV_NO = 0.0001780457 ; DV_NO2 = 0.03249453 ; DV_O3 = 0.181707 ; DV_PAN = 0.02637065 ; DV_SO2 = 0.1815721 ; EKGWSPEC = 0 ; ENEO2 = 7.632136e-15 ; EO = 1.692567e-20 ; EO2 = 2.106951e-13 ; EOOH = 4.952153e-11 ; FICE = 0 ; FLDS = 297.7539 ; FLDSC = 285.3304 ; FLNS = 106.5059 ; FLNSC = 118.9294 ; FLNT = 251.8762 ; FLNTC = 273.3985 ; FLUT = 253.6783 ; FLUTC = 275.2006 ; FREQSH = 0.8430555 ; FREQZM = 0.1069444 ; FRONTGF = -1.214415e-18 ; FRONTGFA = -0.734818 ; FSDS = 275.3343 ; FSDSC = 319.6846 ; FSDTOA = 480.9394 ; FSNS = 192.2643 ; FSNSC = 223.6823 ; FSNT = 324.4551 ; FSNTC = 354.7779 ; FSNTOA = 327.386 ; FSNTOAC = 357.6949 ; FSUTOA = 153.5534 ; GLYALD = 7.717869e-11 ; GLYOXAL = 1.309178e-11 ; H = 2.015986e-20 ; H1202 = 0 ; H2 = 5e-07 ; H2402 = 4.4e-13 ; H2O = 0.007502451 ; H2O2 = 1.069021e-09 ; H2O_GAS = 0.007502451 ; H2SO4M_C = 0 ; HBR = 2.652037e-13 ; HCFC141B = 2.73212e-11 ; HCFC142B = 2.795039e-11 ; HCFC22 = 2.615916e-10 ; HCL = 3.398581e-12 ; HCL_GAS = 3.314835e-12 ; HCL_STS = 0 ; HCL_TOTAL = 3.314835e-12 ; HCN = 1.047537e-10 ; HCOOH = 2.394551e-11 ; HI = 1.228596e-15 ; HNO3 = 2.038833e-10 ; HNO3_GAS = 1.915261e-10 ; HNO3_NAT = 0 ; HNO3_STS = 0 ; HNO3_TOTAL = 1.79169e-10 ; HO2 = 9.476893e-12 ; HO2NO2 = 1.826443e-12 ; HOBR = 5.561474e-14 ; HOCH2OO = 1.469026e-16 ; HOCL = 1.039017e-13 ; HOI = 4.999347e-14 ; HORZ = 2.793303 ; HORZSRC = -2.988935e-08 ; HYAC = 1.166728e-10 ; HYDRALD = 4.824154e-11 ; I = 2.200114e-15 ; I2 = 1.489233e-19 ; I2O2 = 8.551301e-19 ; I2O3 = 1.103349e-18 ; I2O4 = 8.233098e-21 ; IBR = 1.234497e-36 ; ICEFRAC = 0 ; ICIMR = 8.19013e-27 ; ICL = 6.781628e-19 ; ICLDIWP = 2.562632e-22 ; ICLDTWP = 3.159305 ; ICWMR = 2.220375e-05 ; INO = 3.68896e-17 ; INO2 = 4.617053e-15 ; IO = 1.056416e-14 ; IONO2 = 1.223632e-14 ; IOY = 8.102288e-14 ; ISOP = 6.106244e-11 ; ISOPNO3 = 2.757455e-13 ; ISOPO2 = 1.811164e-12 ; ISOPOOH = 3.90469e-11 ; IY = 4.726042e-14 ; LANDFRAC = 1 ; LHFLX = 26.60922 ; LND_MBL = 0.1311569 ; LNO_COL_PROD = 0.0003511911 ; LNO_PROD = 2023.383 ; LWCF = 21.52231 ; MACR = 6.368921e-11 ; MACRO2 = 3.727536e-13 ; MACROOH = 7.247826e-12 ; MCO3 = 5.652726e-14 ; MEK = 9.748709e-11 ; MEKO2 = 4.060029e-14 ; MEKOOH = 8.635619e-12 ; MPAN = 1.032679e-11 ; MSKtem = 45.46806 ; MVK = 9.172575e-11 ; N = 0 ; N2O = 3.252916e-07 ; N2O5 = 2.859505e-12 ; NH3 = 8.195962e-09 ; NH4 = 4.472116e-10 ; NH4NO3 = 1.540619e-10 ; NH4NO3SFWET = -1.65668e-12 ; NH4SFWET = -1.918107e-12 ; NO = 6.333544e-11 ; NO2 = 4.000021e-10 ; NO2_CLXF = 4.170779e+07 ; NO2_XFRC = 0 ; NO3 = 2.210062e-12 ; NOX = 4.633375e-10 ; NOY = 9.109247e-10 ; O = 2.166352e-16 ; O1D = 8.457364e-22 ; O3 = 4.280421e-08 ; O3S = 2.246007e-08 ; OC1 = 1.378669e-11 ; OC2 = 1.311741e-10 ; OC2SFWET = -8.039329e-13 ; OCLO = 1.620918e-18 ; OCNFRAC = 0 ; ODV_CB1 = 0.0002345696 ; ODV_CB2 = 0.001751388 ; ODV_DST01 = 0.2067335 ; ODV_DST02 = 0.1888432 ; ODV_DST03 = 0.1042836 ; ODV_DST04 = 0.09426746 ; ODV_OC1 = 0.0001787895 ; ODV_OC2 = 0.001813659 ; ODV_VOLC_MMR = 0.003700322 ; OH = 1.15346e-13 ; OIO = 1.41367e-16 ; OMEGA = 0.02177118 ; OMEGAT = 6.213781 ; ONIT = 8.407178e-12 ; ONITR = 1.118205e-11 ; ORO = 1 ; OddOx_BROx_Loss = 2266.12 ; OddOx_CLOxBROx_Loss = 1.245817 ; OddOx_CLOx_Loss = 308.2278 ; OddOx_HOx_Loss = 495105 ; OddOx_Loss_Tot = 1013154 ; OddOx_NOx_Loss = 7456.159 ; OddOx_Ox_Loss = 494440.3 ; P0 = 100000 ; PAN = 1.473415e-10 ; PBLH = 968.0612 ; PCONVB = 83485.44 ; PCONVT = 79683.34 ; PHIS = 15311.04 ; PM25_SRF = 1.246307e-07 ; PO2 = 1.066321e-13 ; POOH = 7.275835e-12 ; PRECC = 4.122042e-09 ; PRECCDZM = 3.998143e-09 ; PRECL = 5.860555e-09 ; PRECSC = 0 ; PRECSH = 1.238989e-10 ; PRECSL = 4.909807e-26 ; PRECT = 9.982597e-09 ; PS = 83555.75 ; PSL = 100396.5 ; Pb = 5.212897e-37 ; Q = 0.004665837 ; QC = 0 ; QEKGWSPEC = 0 ; QFLX = 1.04899e-05 ; QPERT = 0.000115187 ; QREFHT = 0.00704925 ; QRL = -2.354007e-05 ; QRL_TOT = -2.353935e-05 ; QRS = 2.141176e-05 ; QRS_TOT = 2.141273e-05 ; QRS_TOT_12_COS = -5.186503e-06 ; QRS_TOT_12_SIN = 3.951036e-06 ; QRS_TOT_24_COS = 5.793946e-06 ; QRS_TOT_24_SIN = 2.885531e-05 ; QTAUE = 0 ; QTAUN = 0 ; QTAUNET = 0 ; QTAUS = 0 ; QTAUW = 0 ; QUTGWSPEC = 0 ; QVTGWSPEC = 0 ; RAD_ICE = 0 ; RAD_LNAT = 0 ; RAD_SULFC = 0 ; RELHUM = 33.8177 ; RHREFHT = 51.97726 ; RO2 = 2.418521e-14 ; ROOH = 4.82775e-12 ; Rn = 1.299843e-37 ; SAD = 0 ; SAD_ICE = 0 ; SAD_LNAT = 0 ; SAD_SULFC = 0 ; SAD_TROP = 3.431216e-07 ; SFBENZENE = 3.26743e-14 ; SFBIGALK = 1.998506e-13 ; SFBIGENE = 2.739271e-14 ; SFC10H16 = 3.087814e-12 ; SFC2H2 = 1.835216e-14 ; SFC2H4 = 1.851986e-12 ; SFC2H5OH = 8.529308e-15 ; SFC2H6 = 2.888685e-14 ; SFC3H6 = 6.61323e-13 ; SFC3H8 = 1.058235e-14 ; SFCB1 = 1.2978e-14 ; SFCB2 = 3.244501e-15 ; SFCH2BR2 = 0 ; SFCH2BRCL = 0 ; SFCH2I2 = 0 ; SFCH2IBR = 0 ; SFCH2ICL = 0 ; SFCH2O = 6.626702e-15 ; SFCH3CHO = 4.382361e-15 ; SFCH3CN = 8.429567e-15 ; SFCH3COCH3 = 1.461411e-12 ; SFCH3COOH = 1.607188e-14 ; SFCH3I = 3.179831e-15 ; SFCH3OH = 2.456616e-11 ; SFCHBR2CL = 0 ; SFCHBR3 = 0 ; SFCHBRCL2 = 0 ; SFCLDICE = 0 ; SFCLDLIQ = 0 ; SFCO = 1.422523e-11 ; SFDMS = 0 ; SFHCN = 1.664836e-14 ; SFHCOOH = 1.231802e-14 ; SFI2 = 0 ; SFISOP = 4.099136e-11 ; SFMEK = 4.536033e-15 ; SFNH3 = 5.538885e-11 ; SFNO = 4.208006e-12 ; SFOC1 = 3.078445e-14 ; SFOC2 = 3.078445e-14 ; SFSO2 = 2.270476e-13 ; SFSSLT01 = 0 ; SFSSLT02 = 0 ; SFSSLT03 = 0 ; SFSSLT04 = 0 ; SFTOLUENE = 3.854143e-14 ; SFXYLENE = 4.440855e-14 ; SHFLX = 44.81338 ; SNOWHICE = 1e+30 ; SNOWHLND = 0 ; SO2 = 3.060871e-11 ; SO2_CLXF = 0 ; SO2_XFRC = 0 ; SO4 = 6.491215e-10 ; SO4SFWET = -4.608464e-12 ; SO4_CLXF = 0 ; SO4_XFRC = 0 ; SOAB = 2.514856e-11 ; SOAB_PROD = 5.598898e-18 ; SOAB_dens = 0.02491668 ; SOAI = 1.588171e-10 ; SOAI_PROD = -6.691874e-17 ; SOAI_dens = 0.1575699 ; SOAM = 8.034102e-11 ; SOAMSFWET = -4.586325e-13 ; SOAM_PROD = -5.135093e-16 ; SOAM_dens = 0.08049911 ; SOAT = 1.415503e-11 ; SOAT_PROD = 2.198147e-18 ; SOAT_dens = 0.01402921 ; SOAX = 8.717659e-12 ; SOAX_PROD = 1.544335e-18 ; SOAX_dens = 0.008651448 ; SOGB = 9.478032e-12 ; SOGI = 3.993572e-10 ; SOGM = 1.204109e-10 ; SOGT = 9.907564e-13 ; SOGX = 7.926961e-13 ; SOLIN = 480.8597 ; SRFRAD = 490.0182 ; SSLT01 = 1.366549e-11 ; SSLT01DD = 1.026516e-15 ; SSLT01DT = -5.171277e-18 ; SSLT01DV = 7.639758e-05 ; SSLT01GV = 3.715065e-16 ; SSLT01OD = 0 ; SSLT01PP = 1.128965e-17 ; SSLT01SF = 0 ; SSLT01TB = 6.550091e-16 ; SSLT02 = 7.885699e-11 ; SSLT02DD = 3.931591e-14 ; SSLT02DT = -2.871384e-17 ; SSLT02DV = 0.0005251025 ; SSLT02GV = 3.620937e-14 ; SSLT02OD = 0 ; SSLT02PP = 7.332028e-17 ; SSLT02SF = 0 ; SSLT02TB = 3.106536e-15 ; SSLT03 = 2.783406e-11 ; SSLT03DD = 8.956083e-14 ; SSLT03DT = -2.909331e-16 ; SSLT03DV = 0.003768734 ; SSLT03GV = 5.247631e-14 ; SSLT03OD = 0 ; SSLT03PP = 3.056188e-17 ; SSLT03SF = 0 ; SSLT03TB = 3.708452e-14 ; SSLT04 = 3.192063e-14 ; SSLT04DD = 8.305283e-16 ; SSLT04DT = -1.407946e-18 ; SSLT04DV = 0.02618363 ; SSLT04GV = 6.05004e-16 ; SSLT04OD = 0 ; SSLT04PP = 6.419606e-21 ; SSLT04SF = 0 ; SSLT04TB = 2.255243e-16 ; SSTODXC = 0 ; SSTSFDRY = 1.307338e-13 ; SSTSFMBL = 0 ; SSTSFWET = -9.14985e-13 ; SWCF = -30.30892 ; SZA = 70.88074 ; T = 290.1402 ; T700 = 279.3038 ; T850 = 290.1402 ; TAUE = 0 ; TAUGWX = 0.01423926 ; TAUGWY = -0.00904379 ; TAUN = 0 ; TAUNET = 0 ; TAUS = 0 ; TAUW = 0 ; TAUX = -0.02109301 ; TAUY = 0.01236045 ; TBRY = 1.944979e-11 ; TCLY = 3.241631e-09 ; TERPO2 = 2.976558e-12 ; TERPOOH = 2.251761e-11 ; TGCLDCWP = 86.3452 ; TGCLDIWP = 18.33243 ; TGCLDLWP = 68.01276 ; TH = 0 ; TIY = 1.947144e-13 ; TMQ = 12.06863 ; TMSOAB = 2.354398e-07 ; TMSOAI = 1.878365e-06 ; TMSOAM = 5.578557e-07 ; TMSOAT = 8.540803e-08 ; TMSOAX = 4.887747e-08 ; TMSOGB = 4.195419e-07 ; TMSOGI = 1.271022e-05 ; TMSOGM = 2.487799e-06 ; TMSOGT = 3.784577e-08 ; TMSOGX = 3.739622e-08 ; TOLO2 = 3.362398e-15 ; TOLOOH = 7.505578e-13 ; TOLUENE = 3.85282e-12 ; TOTH = 0.00750663 ; TOT_CLD_VISTAU = 0.0006297826 ; TOT_ICLD_VISTAU = 0.4099393 ; TREFHT = 289.6795 ; TREFMNAV = 283.2878 ; TREFMXAV = 295.408 ; TROP_P = 21475.09 ; TROP_T = 220.6297 ; TROP_Z = 10342.02 ; TS = 290.3063 ; TSMN = 290.3063 ; TSMX = 290.3063 ; TTGWSDF = 0 ; TTGWSKE = 0 ; U = 0.6751512 ; U10 = 3.764657 ; US = 8.734491, 8.361495, 7.18855, 7.8502, 8.341163, 8.460505, 8.046367, 7.646179, 7.273162, 6.49992, 5.465064, 4.001154, 2.395865, 1.311443, 0.2289704, -1.449941, -3.23112, -4.810438, -6.388004, -8.371982, -10.10736, -11.16789, -12.22807, -12.38577, -12.72595, -11.93975, -10.91726, -9.765101, -7.424031, -4.53759, -1.30443, 1.094631, 2.673319, 3.488608, 3.895537, 4.190415, 4.487176, 4.929618, 5.564786, 6.196997, 6.932288, 7.507891, 7.905994, 8.340641, 8.888528, 9.21779, 9.278174, 9.394051, 9.64762, 9.855621, 9.965992, 9.819276, 9.503684, 9.124893, 8.533349, 7.891323, 7.257967, 6.526988, 5.719432, 4.828753, 3.958294, 2.952919, 1.738034, 0.5842288, -0.5406566, -1.70614, -2.924621, -4.144919, -5.247997, -6.208409, -7.050893, -7.798156, -8.411471, -8.825933, -9.03984, -9.082479, -8.999376, -8.864365, -8.713253, -8.6417, -8.541852, -8.252026, -7.729541, -6.893015, -5.644981, -3.811151, -1.917334, -0.002362258, 1.541475, 2.562856, 3.037116, 3.223112, 3.030906, 2.711851, 2.728879, 2.664967, 2.396752, 2.463465, 1.510275, 0.6875668, 1.417637, 3.016631, 3.579214, 3.163339, 4.73688, 5.996904, 6.129196, 6.438437, 5.330351, 3.994864, 3.627377, 3.285254, 2.75086, 2.622708, 2.452309, 2.196327, 1.878227, 1.547267, 1.827658, 2.421955, 2.809977, 3.281905, 3.835405, 4.1061, 4.162665, 3.643034, 2.7074, 1.976563, 1.680455, 1.320897, 1.011846, 1.04162, 1.31929, 1.366931, -0.8105429, -0.5800718, 0.817168, 0.04798611, 0.5574049, 1.112716, 2.117708, 2.402723, 2.422216, 1.513917, -0.02876493, 2.331159, 2.950385, 1.672191, 0.7791439, 0.9025102, 1.372591, 2.010671, 1.607892, 0.9866139, 1.037015, 1.063772, 1.040926, 0.6221474, 0.403574, 0.5097402, 0.7215247, 0.9805339, 0.9511038, 0.7008048, 0.1352821, -0.6664896, -0.7469997, -0.7489432, -0.6164662, -0.1343604, -0.1936691, -0.75656, -0.8072714, -0.1975722, 0.6896467, 1.908213, 3.036905, 3.930957, 3.271755, 3.962204, 4.40656, 3.640127, 4.065439, 3.989267, 3.567819, 2.979677, 2.284904, 1.169528, 0.01500885, -0.8676401, -1.332681 ; UTGWORO = 0 ; UTGWSPEC = 7.059851e-23 ; UU = 17.55527 ; UV3d = 4.112677 ; UW3d = -0.000196072 ; V = -0.7725096 ; VD01 = -5.967726e-09 ; VEL_NAT2 = 0 ; VERT = 13.14875 ; VERTSRC = -1.193635e-06 ; VOLC_DENS = 0 ; VOLC_MASS = 0 ; VOLC_MASS_C = 9.702782e-07 ; VOLC_MMR = 0 ; VOLC_RAD_GEOM = 0 ; VQ = -0.001775245 ; VS = -0.9859619, -0.371304, -0.1465372, -0.02460206, -1.245575, -0.7249035, -0.893542, -2.640425, -1.645041, -1.261797, -1.088341, -0.5568106, -0.6910875, -1.263131, -1.515199, -1.680941, -1.69534, -1.129767, -0.6604708, -1.027746, -1.292316, -1.629676, -2.332562, -1.816883, -0.7631875, -0.6441526, -1.208085, -1.282833, -1.344323, -1.713367, -1.566527, -1.079628, -0.764312, -0.4227155, 0.03523473, -0.1357247, -0.4233051, -0.2816424, 0.06301598, 0.2852242, 0.0242024, -0.601351, -1.463993, -2.091413, -2.022324, -1.603641, -1.272127, -1.461502, -2.002892, -2.387645, -2.591769, -2.593887, -2.440115, -2.213008, -1.948086, -1.884179, -1.660544, -1.2997, -1.142221, -1.111016, -1.226783, -1.482364, -1.513482, -0.2709543, 1.040202, 0.6814345, -1.128415, -2.728678, -4.034425, -2.449481, -0.6702189, -1.267075, -2.361431, -2.89305, -2.772429, -2.368508, -1.677699, -1.432591, -1.753701, -1.183857, -0.6852831, -0.6884618, -1.133316, -1.684259, -2.015684, -1.783869, -1.745933, -1.530849, -1.325471, -0.9223928, -0.2630735, 0.3353481, 0.06817143, -0.4015603, 0.1439416, 1.118559, 0.2872623, -0.9068971, -0.8094839, 0.1777205, 1.585856, 2.255924, 2.443624, 1.99013, 1.841025, 1.74371, 2.105587, 2.642015, 2.481559, 1.827189, 0.02211575, 0.8408754, 2.882732, 2.960291, 1.964517, 1.258231, 1.56484, 1.711344, 1.278358, 0.744509, 0.3237603, 0.2013761, 0.2850992, 0.3331327, 0.3463428, 0.2578032, 0.2111973, 0.320135, 0.6806459, 1.243722, 1.741001, 2.007849, 2.079683, 2.075713, 2.110314, 2.241072, 2.284568, 2.211147, 2.091986, 1.940952, 1.786138, 1.803506, 2.048865, 2.368986, 2.704734, 2.954852, 3.04427, 2.935346, 2.708318, 2.320184, 1.943824, 1.599418, 1.369089, 1.353863, 1.503723, 1.64965, 1.624625, 1.706256, 2.00454, 2.224139, 2.380718, 2.531733, 2.600392, 2.462981, 2.106956, 1.661513, 1.24673, 0.8823779, 0.5739158, 0.2906064, 0.02067, -0.1602945, -0.3097215, -0.4058172, -0.3822017, -0.256252, -0.1190283, -0.04388816, 0.007477435, 0.09166633, 0.2039599, 0.202566, 0.1074776, -0.08725619, -0.4159653, -0.7282426, -0.9012586, -0.9967728, -1.101768, -0.9122455, -0.4369319, -1.178778, -1.320561, -0.08974736, -0.2392436, -0.6267319, -0.05045328, -0.07997263, -0.1685665, 0.7982121, 1.855418, -0.5390756, -0.4962045, 0.1433117, -0.4373901, -0.2204457, -1.008589, -1.153842, -1.006937, -0.759221, -0.3619422, -0.06786333, 0.05983382, -0.006247504, 0.1511628, 0.3413328, 0.4426701, 0.09542625, -0.294487, -0.3620072, -0.3299712, -0.3816328, -0.5965551, -0.5635161, -0.4025715, -0.427908, -0.7554141, -0.7344356, -0.3598453, -0.3252196, 0.3657489, 1.183863, 0.1970737, -0.3744494, 0.1367532, 0.5717489, 0.8311619, 0.8381758, 0.9703369, 1.007382, 1.644486, 2.947598, 3.458739, 3.470381, 3.672972, 3.902542, 4.14108, 4.476104, 4.572633, 4.61516, 4.636823, 4.581208, 4.356121, 3.977071, 3.697173, 3.5712, 3.499086, 3.455756, 3.468404, 3.478949, 3.449318, 3.384558, 3.343509, 3.309586, 3.177396, 2.942133, 2.595653, 2.165162, 1.721256, 1.27834, 0.808531, 0.3166336, -0.2249072, -0.8699889, -1.440723, -1.883398, -2.3392, -2.740898, -2.970737, -2.940094, -2.588382, -2.200856, -1.954855, -1.931496, -2.119765, -2.427419, -2.560526, -2.063741 ; VT = -220.4274 ; VTGWORO = 0 ; VTGWSPEC = 1.096666e-23 ; VTH3d = 1.510984 ; VU = -4.341216 ; VV = 16.66392 ; WTH3d = 0.001123614 ; XO2 = 5.502634e-13 ; XOH = 5.482522e-16 ; XOOH = 2.403197e-11 ; XYLENE = 1.427985e-12 ; XYLO2 = 2.398126e-15 ; XYLOOH = 8.632441e-09 ; Z3 = 1625.527 ; ZMMU = 0.0009782438 ; ch4vmr = 1.77148604052491e-06 ; co2vmr = 0.000394549570046365 ; date = 20130701 ; date_written = "12/23/14" ; datesec = 0 ; f11vmr = 2.31796318250765e-10 ; f12vmr = 5.20356036037839e-10 ; gw = 0.0114860968071936 ; hyai = 0 ; hyam = 2.40241297433386e-05 ; hybi = 1 ; hybm = 0.992475986480713 ; ilev = 1000 ; lat = 45.7068062827225 ; lev = 992.500010610456 ; lon = 100 ; mdt = 1800 ; n2ovmr = 3.253221052546e-07 ; nbdate = 20130101 ; nbsec = 0 ; ndbase = 0 ; ndcur = 181 ; nlon = 288 ; nsbase = 0 ; nscur = 0 ; nsteph = 8688 ; ntrk = 1 ; ntrm = 1 ; ntrn = 1 ; slat = -89.5287958115183, -88.586387434555, -87.6439790575916, -86.7015706806283, -85.7591623036649, -84.8167539267016, -83.8743455497382, -82.9319371727749, -81.9895287958115, -81.0471204188482, -80.1047120418848, -79.1623036649215, -78.2198952879581, -77.2774869109948, -76.3350785340314, -75.3926701570681, -74.4502617801047, -73.5078534031414, -72.565445026178, -71.6230366492147, -70.6806282722513, -69.738219895288, -68.7958115183246, -67.8534031413613, -66.9109947643979, -65.9685863874346, -65.0261780104712, -64.0837696335079, -63.1413612565445, -62.1989528795811, -61.2565445026178, -60.3141361256544, -59.3717277486911, -58.4293193717277, -57.4869109947644, -56.544502617801, -55.6020942408377, -54.6596858638744, -53.717277486911, -52.7748691099476, -51.8324607329843, -50.8900523560209, -49.9476439790576, -49.0052356020942, -48.0628272251309, -47.1204188481675, -46.1780104712042, -45.2356020942408, -44.2931937172775, -43.3507853403141, -42.4083769633508, -41.4659685863874, -40.5235602094241, -39.5811518324607, -38.6387434554974, -37.696335078534, -36.7539267015707, -35.8115183246073, -34.869109947644, -33.9267015706806, -32.9842931937173, -32.0418848167539, -31.0994764397906, -30.1570680628272, -29.2146596858639, -28.2722513089005, -27.3298429319372, -26.3874345549738, -25.4450261780105, -24.5026178010471, -23.5602094240838, -22.6178010471204, -21.6753926701571, -20.7329842931937, -19.7905759162304, -18.848167539267, -17.9057591623037, -16.9633507853403, -16.020942408377, -15.0785340314136, -14.1361256544503, -13.1937172774869, -12.2513089005236, -11.3089005235602, -10.3664921465969, -9.42408376963351, -8.48167539267016, -7.53926701570681, -6.59685863874346, -5.6544502617801, -4.71204188481676, -3.76963350785341, -2.82722513089006, -1.8848167539267, -0.94240837696335, 0, 0.94240837696335, 1.8848167539267, 2.82722513089005, 3.7696335078534, 4.71204188481676, 5.6544502617801, 6.59685863874346, 7.53926701570681, 8.48167539267016, 9.42408376963351, 10.3664921465969, 11.3089005235602, 12.2513089005236, 13.1937172774869, 14.1361256544503, 15.0785340314136, 16.020942408377, 16.9633507853403, 17.9057591623037, 18.848167539267, 19.7905759162304, 20.7329842931937, 21.6753926701571, 22.6178010471204, 23.5602094240838, 24.5026178010471, 25.4450261780105, 26.3874345549738, 27.3298429319372, 28.2722513089005, 29.2146596858639, 30.1570680628272, 31.0994764397906, 32.0418848167539, 32.9842931937173, 33.9267015706806, 34.869109947644, 35.8115183246073, 36.7539267015707, 37.696335078534, 38.6387434554974, 39.5811518324607, 40.5235602094241, 41.4659685863874, 42.4083769633508, 43.3507853403141, 44.2931937172775, 45.2356020942408, 46.1780104712042, 47.1204188481675, 48.0628272251309, 49.0052356020942, 49.9476439790576, 50.890052356021, 51.8324607329843, 52.7748691099476, 53.717277486911, 54.6596858638744, 55.6020942408377, 56.544502617801, 57.4869109947644, 58.4293193717277, 59.3717277486911, 60.3141361256545, 61.2565445026178, 62.1989528795811, 63.1413612565445, 64.0837696335079, 65.0261780104712, 65.9685863874346, 66.9109947643979, 67.8534031413613, 68.7958115183246, 69.7382198952879, 70.6806282722513, 71.6230366492147, 72.565445026178, 73.5078534031414, 74.4502617801047, 75.3926701570681, 76.3350785340314, 77.2774869109948, 78.2198952879581, 79.1623036649215, 80.1047120418848, 81.0471204188482, 81.9895287958115, 82.9319371727749, 83.8743455497382, 84.8167539267016, 85.7591623036649, 86.7015706806283, 87.6439790575916, 88.586387434555, 89.5287958115183 ; 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wnummax = 1 ; }