netcdf aqm.t06z.conc { dimensions: TSTEP = UNLIMITED ; // (49 currently) DATE-TIME = 2 ; LAY = 35 ; VAR = 84 ; ROW = 265 ; COL = 442 ; variables: int TFLAG(TSTEP, VAR, DATE-TIME) ; TFLAG:units = "" ; TFLAG:long_name = "TFLAG " ; TFLAG:var_desc = "Timestep-valid flags: (1) YYYYDDD or (2) HHMMSS " ; float O3(TSTEP, LAY, ROW, COL) ; O3:long_name = "O3 " ; O3:units = "ppmV " ; O3:var_desc = "Variable O3 " ; float CO(TSTEP, LAY, ROW, COL) ; CO:long_name = "CO " ; CO:units = "ppmV " ; CO:var_desc = "Variable CO " ; float SO2(TSTEP, LAY, ROW, COL) ; SO2:long_name = "SO2 " ; SO2:units = "ppmV " ; SO2:var_desc = "Variable SO2 " ; float NO(TSTEP, LAY, ROW, COL) ; NO:long_name = "NO " ; NO:units = "ppmV " ; NO:var_desc = "Variable NO " ; float NO2(TSTEP, LAY, ROW, COL) ; NO2:long_name = "NO2 " ; NO2:units = "ppmV " ; NO2:var_desc = "Variable NO2 " ; float NO3(TSTEP, LAY, ROW, COL) ; NO3:long_name = "NO3 " ; NO3:units = "ppmV " ; NO3:var_desc = "Variable NO3 " ; float N2O5(TSTEP, LAY, ROW, COL) ; N2O5:long_name = "N2O5 " ; N2O5:units = "ppmV " ; N2O5:var_desc = "Variable N2O5 " ; float HONO(TSTEP, LAY, ROW, COL) ; HONO:long_name = "HONO " ; HONO:units = "ppmV " ; HONO:var_desc = "Variable HONO " ; float HNO3(TSTEP, LAY, ROW, COL) ; HNO3:long_name = "HNO3 " ; HNO3:units = "ppmV " ; HNO3:var_desc = "Variable HNO3 " ; float PAN(TSTEP, LAY, ROW, COL) ; PAN:long_name = "PAN " ; PAN:units = "ppmV " ; PAN:var_desc = "Variable PAN " ; float PANX(TSTEP, LAY, ROW, COL) ; PANX:long_name = "PANX " ; PANX:units = "ppmV " ; PANX:var_desc = "Variable PANX " ; float PNA(TSTEP, LAY, ROW, COL) ; PNA:long_name = "PNA " ; PNA:units = "ppmV " ; PNA:var_desc = "Variable PNA " ; float NTR(TSTEP, LAY, ROW, COL) ; NTR:long_name = "NTR " ; NTR:units = "ppmV " ; NTR:var_desc = "Variable NTR " ; float CRON(TSTEP, LAY, ROW, COL) ; CRON:long_name = "CRON " ; CRON:units = "ppmV " ; CRON:var_desc = "Variable CRON " ; float CRNO(TSTEP, LAY, ROW, COL) ; CRNO:long_name = "CRNO " ; CRNO:units = "ppmV " ; CRNO:var_desc = "Variable CRNO " ; float CRN2(TSTEP, LAY, ROW, COL) ; CRN2:long_name = "CRN2 " ; CRN2:units = "ppmV " ; CRN2:var_desc = "Variable CRN2 " ; float CRPX(TSTEP, LAY, ROW, COL) ; CRPX:long_name = "CRPX " ; CRPX:units = "ppmV " ; CRPX:var_desc = "Variable CRPX " ; float OPAN(TSTEP, LAY, ROW, COL) ; OPAN:long_name = "OPAN " ; OPAN:units = "ppmV " ; OPAN:var_desc = "Variable OPAN " ; float PAR(TSTEP, LAY, ROW, COL) ; PAR:long_name = "PAR " ; PAR:units = "ppmV " ; PAR:var_desc = "Variable PAR " ; float ETH(TSTEP, LAY, ROW, COL) ; ETH:long_name = "ETH " ; ETH:units = "ppmV " ; ETH:var_desc = "Variable ETH " ; float ETOH(TSTEP, LAY, ROW, COL) ; ETOH:long_name = "ETOH " ; ETOH:units = "ppmV " ; ETOH:var_desc = "Variable ETOH " ; float OLE(TSTEP, LAY, ROW, COL) ; OLE:long_name = "OLE " ; OLE:units = "ppmV " ; OLE:var_desc = "Variable OLE " ; float TOL(TSTEP, LAY, ROW, COL) ; TOL:long_name = "TOL " ; TOL:units = "ppmV " ; TOL:var_desc = "Variable TOL " ; float FORM(TSTEP, LAY, ROW, COL) ; FORM:long_name = "FORM " ; FORM:units = "ppmV " ; FORM:var_desc = "Variable FORM " ; float XYL(TSTEP, LAY, ROW, COL) ; XYL:long_name = "XYL " ; XYL:units = "ppmV " ; XYL:var_desc = "Variable XYL " ; float ALD2(TSTEP, LAY, ROW, COL) ; ALD2:long_name = "ALD2 " ; ALD2:units = "ppmV " ; ALD2:var_desc = "Variable ALD2 " ; float ISOP(TSTEP, LAY, ROW, COL) ; ISOP:long_name = "ISOP " ; ISOP:units = "ppmV " ; ISOP:var_desc = "Variable ISOP " ; float ETHA(TSTEP, LAY, ROW, COL) ; ETHA:long_name = "ETHA " ; ETHA:units = "ppmV " ; ETHA:var_desc = "Variable ETHA " ; float IOLE(TSTEP, LAY, ROW, COL) ; IOLE:long_name = "IOLE " ; IOLE:units = "ppmV " ; IOLE:var_desc = "Variable IOLE " ; float ALDX(TSTEP, LAY, ROW, COL) ; ALDX:long_name = "ALDX " ; ALDX:units = "ppmV " ; ALDX:var_desc = "Variable ALDX " ; float TERP(TSTEP, LAY, ROW, COL) ; TERP:long_name = "TERP " ; TERP:units = "ppmV " ; TERP:var_desc = "Variable TERP " ; float AXYL1J(TSTEP, LAY, ROW, COL) ; AXYL1J:long_name = "AXYL1J " ; AXYL1J:units = "micrograms/m**3 " ; AXYL1J:var_desc = "Variable AXYL1J " ; float AXYL2J(TSTEP, LAY, ROW, COL) ; AXYL2J:long_name = "AXYL2J " ; AXYL2J:units = "micrograms/m**3 " ; AXYL2J:var_desc = "Variable AXYL2J " ; float AXYL3J(TSTEP, LAY, ROW, COL) ; AXYL3J:long_name = "AXYL3J " ; AXYL3J:units = "micrograms/m**3 " ; AXYL3J:var_desc = "Variable AXYL3J " ; float ATOL1J(TSTEP, LAY, ROW, COL) ; ATOL1J:long_name = "ATOL1J " ; ATOL1J:units = "micrograms/m**3 " ; ATOL1J:var_desc = "Variable ATOL1J " ; float ATOL2J(TSTEP, LAY, ROW, COL) ; ATOL2J:long_name = "ATOL2J " ; ATOL2J:units = "micrograms/m**3 " ; ATOL2J:var_desc = "Variable ATOL2J " ; float ATOL3J(TSTEP, LAY, ROW, COL) ; ATOL3J:long_name = "ATOL3J " ; ATOL3J:units = "micrograms/m**3 " ; ATOL3J:var_desc = "Variable ATOL3J " ; float ABNZ1J(TSTEP, LAY, ROW, COL) ; ABNZ1J:long_name = "ABNZ1J " ; ABNZ1J:units = "micrograms/m**3 " ; ABNZ1J:var_desc = "Variable ABNZ1J " ; float ABNZ2J(TSTEP, LAY, ROW, COL) ; ABNZ2J:long_name = "ABNZ2J " ; ABNZ2J:units = "micrograms/m**3 " ; ABNZ2J:var_desc = "Variable ABNZ2J " ; float ABNZ3J(TSTEP, LAY, ROW, COL) ; ABNZ3J:long_name = "ABNZ3J " ; ABNZ3J:units = "micrograms/m**3 " ; ABNZ3J:var_desc = "Variable ABNZ3J " ; float AISO1J(TSTEP, LAY, ROW, COL) ; AISO1J:long_name = "AISO1J " ; AISO1J:units = "micrograms/m**3 " ; AISO1J:var_desc = "Variable AISO1J " ; float AISO2J(TSTEP, LAY, ROW, COL) ; AISO2J:long_name = "AISO2J " ; AISO2J:units = "micrograms/m**3 " ; AISO2J:var_desc = "Variable AISO2J " ; float AISO3J(TSTEP, LAY, ROW, COL) ; AISO3J:long_name = "AISO3J " ; AISO3J:units = "micrograms/m**3 " ; AISO3J:var_desc = "Variable AISO3J " ; float ATRP1J(TSTEP, LAY, ROW, COL) ; ATRP1J:long_name = "ATRP1J " ; ATRP1J:units = "micrograms/m**3 " ; ATRP1J:var_desc = "Variable ATRP1J " ; float ATRP2J(TSTEP, LAY, ROW, COL) ; ATRP2J:long_name = "ATRP2J " ; ATRP2J:units = "micrograms/m**3 " ; ATRP2J:var_desc = "Variable ATRP2J " ; float ASQTJ(TSTEP, LAY, ROW, COL) ; ASQTJ:long_name = "ASQTJ " ; ASQTJ:units = "micrograms/m**3 " ; ASQTJ:var_desc = "Variable ASQTJ " ; float AALKJ(TSTEP, LAY, ROW, COL) ; AALKJ:long_name = "AALKJ " ; AALKJ:units = "micrograms/m**3 " ; AALKJ:var_desc = "Variable AALKJ " ; float AORGCJ(TSTEP, LAY, ROW, COL) ; AORGCJ:long_name = "AORGCJ " ; AORGCJ:units = "micrograms/m**3 " ; AORGCJ:var_desc = "Variable AORGCJ " ; float AOLGBJ(TSTEP, LAY, ROW, COL) ; AOLGBJ:long_name = "AOLGBJ " ; AOLGBJ:units = "micrograms/m**3 " ; AOLGBJ:var_desc = "Variable AOLGBJ " ; float AOLGAJ(TSTEP, LAY, ROW, COL) ; AOLGAJ:long_name = "AOLGAJ " ; AOLGAJ:units = "micrograms/m**3 " ; AOLGAJ:var_desc = "Variable AOLGAJ " ; float APOCI(TSTEP, LAY, ROW, COL) ; APOCI:long_name = "APOCI " ; APOCI:units = "micrograms/m**3 " ; APOCI:var_desc = "Variable APOCI " ; float APOCJ(TSTEP, LAY, ROW, COL) ; APOCJ:long_name = "APOCJ " ; APOCJ:units = "micrograms/m**3 " ; APOCJ:var_desc = "Variable APOCJ " ; float APNCOMI(TSTEP, LAY, ROW, COL) ; APNCOMI:long_name = "APNCOMI " ; APNCOMI:units = "micrograms/m**3 " ; APNCOMI:var_desc = "Variable APNCOMI " ; float APNCOMJ(TSTEP, LAY, ROW, COL) ; APNCOMJ:long_name = "APNCOMJ " ; APNCOMJ:units = "micrograms/m**3 " ; APNCOMJ:var_desc = "Variable APNCOMJ " ; float ANO3I(TSTEP, LAY, ROW, COL) ; ANO3I:long_name = "ANO3I " ; ANO3I:units = "micrograms/m**3 " ; ANO3I:var_desc = "Variable ANO3I " ; float ANO3J(TSTEP, LAY, ROW, COL) ; ANO3J:long_name = "ANO3J " ; ANO3J:units = "micrograms/m**3 " ; ANO3J:var_desc = "Variable ANO3J " ; float ANO3K(TSTEP, LAY, ROW, COL) ; ANO3K:long_name = "ANO3K " ; ANO3K:units = "micrograms/m**3 " ; ANO3K:var_desc = "Variable ANO3K " ; float ASO4I(TSTEP, LAY, ROW, COL) ; ASO4I:long_name = "ASO4I " ; ASO4I:units = "micrograms/m**3 " ; ASO4I:var_desc = "Variable ASO4I " ; float ASO4J(TSTEP, LAY, ROW, COL) ; ASO4J:long_name = "ASO4J " ; ASO4J:units = "micrograms/m**3 " ; ASO4J:var_desc = "Variable ASO4J " ; float ASO4K(TSTEP, LAY, ROW, COL) ; ASO4K:long_name = "ASO4K " ; ASO4K:units = "micrograms/m**3 " ; ASO4K:var_desc = "Variable ASO4K " ; float ANH4I(TSTEP, LAY, ROW, COL) ; ANH4I:long_name = "ANH4I " ; ANH4I:units = "micrograms/m**3 " ; ANH4I:var_desc = "Variable ANH4I " ; float ANH4J(TSTEP, LAY, ROW, COL) ; ANH4J:long_name = "ANH4J " ; ANH4J:units = "micrograms/m**3 " ; ANH4J:var_desc = "Variable ANH4J " ; float ANH4K(TSTEP, LAY, ROW, COL) ; ANH4K:long_name = "ANH4K " ; ANH4K:units = "micrograms/m**3 " ; ANH4K:var_desc = "Variable ANH4K " ; float AECI(TSTEP, LAY, ROW, COL) ; AECI:long_name = "AECI " ; AECI:units = "micrograms/m**3 " ; AECI:var_desc = "Variable AECI " ; float AECJ(TSTEP, LAY, ROW, COL) ; AECJ:long_name = "AECJ " ; AECJ:units = "micrograms/m**3 " ; AECJ:var_desc = "Variable AECJ " ; float AOTHRI(TSTEP, LAY, ROW, COL) ; AOTHRI:long_name = "AOTHRI " ; AOTHRI:units = "micrograms/m**3 " ; AOTHRI:var_desc = "Variable AOTHRI " ; float AOTHRJ(TSTEP, LAY, ROW, COL) ; AOTHRJ:long_name = "AOTHRJ " ; AOTHRJ:units = "micrograms/m**3 " ; AOTHRJ:var_desc = "Variable AOTHRJ " ; float ANAI(TSTEP, LAY, ROW, COL) ; ANAI:long_name = "ANAI " ; ANAI:units = "micrograms/m**3 " ; ANAI:var_desc = "Variable ANAI " ; float ANAJ(TSTEP, LAY, ROW, COL) ; ANAJ:long_name = "ANAJ " ; ANAJ:units = "micrograms/m**3 " ; ANAJ:var_desc = "Variable ANAJ " ; float ACLI(TSTEP, LAY, ROW, COL) ; ACLI:long_name = "ACLI " ; ACLI:units = "micrograms/m**3 " ; ACLI:var_desc = "Variable ACLI " ; float ACLJ(TSTEP, LAY, ROW, COL) ; ACLJ:long_name = "ACLJ " ; ACLJ:units = "micrograms/m**3 " ; ACLJ:var_desc = "Variable ACLJ " ; float ACLK(TSTEP, LAY, ROW, COL) ; ACLK:long_name = "ACLK " ; ACLK:units = "micrograms/m**3 " ; ACLK:var_desc = "Variable ACLK " ; float AFEJ(TSTEP, LAY, ROW, COL) ; AFEJ:long_name = "AFEJ " ; AFEJ:units = "micrograms/m**3 " ; AFEJ:var_desc = "Variable AFEJ " ; float ASIJ(TSTEP, LAY, ROW, COL) ; ASIJ:long_name = "ASIJ " ; ASIJ:units = "micrograms/m**3 " ; ASIJ:var_desc = "Variable ASIJ " ; float ATIJ(TSTEP, LAY, ROW, COL) ; ATIJ:long_name = "ATIJ " ; ATIJ:units = "micrograms/m**3 " ; ATIJ:var_desc = "Variable ATIJ " ; float ACAJ(TSTEP, LAY, ROW, COL) ; ACAJ:long_name = "ACAJ " ; ACAJ:units = "micrograms/m**3 " ; ACAJ:var_desc = "Variable ACAJ " ; float AMGJ(TSTEP, LAY, ROW, COL) ; AMGJ:long_name = "AMGJ " ; AMGJ:units = "micrograms/m**3 " ; AMGJ:var_desc = "Variable AMGJ " ; float AMNJ(TSTEP, LAY, ROW, COL) ; AMNJ:long_name = "AMNJ " ; AMNJ:units = "micrograms/m**3 " ; AMNJ:var_desc = "Variable AMNJ " ; float AALJ(TSTEP, LAY, ROW, COL) ; AALJ:long_name = "AALJ " ; AALJ:units = "micrograms/m**3 " ; AALJ:var_desc = "Variable AALJ " ; float AKJ(TSTEP, LAY, ROW, COL) ; AKJ:long_name = "AKJ " ; AKJ:units = "micrograms/m**3 " ; AKJ:var_desc = "Variable AKJ " ; float ASOIL(TSTEP, LAY, ROW, COL) ; ASOIL:long_name = "ASOIL " ; ASOIL:units = "micrograms/m**3 " ; ASOIL:var_desc = "Variable ASOIL " ; float ACORS(TSTEP, LAY, ROW, COL) ; ACORS:long_name = "ACORS " ; ACORS:units = "micrograms/m**3 " ; ACORS:var_desc = "Variable ACORS " ; float ASEACAT(TSTEP, LAY, ROW, COL) ; ASEACAT:long_name = "ASEACAT " ; ASEACAT:units = "micrograms/m**3 " ; ASEACAT:var_desc = "Variable ASEACAT " ; float W_VEL(TSTEP, LAY, ROW, COL) ; W_VEL:long_name = "W_VEL " ; W_VEL:units = "m/s " ; W_VEL:var_desc = "Derived vertical velocity component " ; // global attributes: :IOAPI_VERSION = "$Id:: init3.F 29 2014-08-07 14:31:02Z coats $ " ; :EXEC_ID = "???????????????? " ; :FTYPE = 1 ; :CDATE = 2017153 ; :CTIME = 100552 ; :WDATE = 2017153 ; :WTIME = 100552 ; :SDATE = 2017153 ; :STIME = 60000 ; :TSTEP = 10000 ; :NTHIK = 1 ; :NCOLS = 442 ; :NROWS = 265 ; :NLAYS = 35 ; :NVARS = 84 ; :GDTYP = 2 ; :P_ALP = 33. ; :P_BET = 45. ; :P_GAM = -97. ; :XCENT = -97. ; :YCENT = 40. ; :XORIG = -2508000. ; :YORIG = -1716000. ; :XCELL = 12000. ; :YCELL = 12000. ; :VGTYP = 1 ; :VGTOP = 200.f ; :VGLVLS = 1.f, 0.995253f, 0.990479f, 0.985679f, 0.980781f, 0.975782f, 0.970684f, 0.960187f, 0.954689f, 0.936895f, 0.930397f, 0.908404f, 0.888811f, 0.862914f, 0.829314f, 0.786714f, 0.735314f, 0.645814f, 0.614214f, 0.582114f, 0.549714f, 0.511711f, 0.484394f, 0.451894f, 0.419694f, 0.388094f, 0.356994f, 0.326694f, 0.297694f, 0.270694f, 0.245894f, 0.223694f, 0.203594f, 0.154394f, 0.127094f, 0.089794f ; :GDNAM = "AQF_CONUS_5x " ; :UPNAM = "OPCONC " ; :VAR-LIST = "O3 CO SO2 NO NO2 NO3 N2O5 HONO HNO3 PAN PANX PNA NTR CRON CRNO CRN2 CRPX OPAN PAR ETH ETOH OLE TOL FORM XYL ALD2 ISOP ETHA IOLE ALDX TERP AXYL1J AXYL2J AXYL3J ATOL1J ATOL2J ATOL3J ABNZ1J ABNZ2J ABNZ3J AISO1J AISO2J AISO3J ATRP1J ATRP2J ASQTJ AALKJ AORGCJ AOLGBJ AOLGAJ APOCI APOCJ APNCOMI APNCOMJ ANO3I ANO3J ANO3K ASO4I ASO4J ASO4K ANH4I ANH4J ANH4K AECI AECJ AOTHRI AOTHRJ ANAI ANAJ ACLI ACLJ ACLK AFEJ ASIJ ATIJ ACAJ AMGJ AMNJ AALJ AKJ ASOIL ACORS ASEACAT W_VEL " ; :FILEDESC = "Concentration file output From CMAQ model dyn alloc version CTM Set of variables (possibly) reduced from CGRID For next scenario continuation runs, use the \"one-step\" CGRID file Layer 1 to 1 Layer 2 to 2 Layer 3 to 3 Layer 4 to 4 Layer 5 to 5 Layer 6 to 6 Layer 7 to 7 Layer 8 to 8 Layer 9 to 9 Layer 10 to 10 Layer 11 to 11 Layer 12 to 12 Layer 13 to 13 Layer 14 to 14 Layer 15 to 15 Layer 16 to 16 Layer 17 to 17 Layer 18 to 18 Layer 19 to 19 Layer 20 to 20 Layer 21 to 21 Layer 22 to 22 Layer 23 to 23 Layer 24 to 24 Layer 25 to 25 Layer 26 to 26 Layer 27 to 27 Layer 28 to 28 Layer 29 to 29 Layer 30 to 30 Layer 31 to 31 Layer 32 to 32 Layer 33 to 33 Layer 34 to 34 Layer 35 to 35 " ; :HISTORY = "" ; }