Attributes { abso4 { String long_name "antropogenic sulfur burden"; String units "kg/m**2"; Int32 code 235; Int32 table 128; String grid_type "gaussian"; } aclcac { String long_name "cloud cover"; Int32 code 223; Int32 table 128; String grid_type "gaussian"; } aclcov { String long_name "total cloud cover"; Int32 code 164; Int32 table 128; String grid_type "gaussian"; } ahfcon { String long_name "conductive heat flux through ice"; String units "W/m**2"; Int32 code 208; Int32 table 128; String grid_type "gaussian"; } ahfice { String long_name "conductive heat flux"; String units "W/m**2"; Int32 code 125; Int32 table 128; String grid_type "gaussian"; } ahfl { String long_name "latent heat flux"; String units "W/m**2"; Int32 code 147; Int32 table 128; String grid_type "gaussian"; } ahfliac { String long_name "latent heat flux over ice"; String units "W/m**2"; Int32 code 110; Int32 table 128; String grid_type "gaussian"; } ahfllac { String long_name "latent heat flux over land"; String units "W/m**2"; Int32 code 112; Int32 table 128; String grid_type "gaussian"; } ahflwac { String long_name "latent heat flux over water"; String units "W/m**2"; Int32 code 111; Int32 table 128; String grid_type "gaussian"; } ahfres { String long_name "melting of ice"; String units "W/m**2"; Int32 code 209; Int32 table 128; String grid_type "gaussian"; } ahfs { String long_name "sensible heat flux"; String units "W/m**2"; Int32 code 146; Int32 table 128; String grid_type "gaussian"; } ahfsiac { String long_name "sensible heat flux over ice"; String units "W/m**2"; Int32 code 119; Int32 table 128; String grid_type "gaussian"; } ahfslac { String long_name "sensible heat flux over land"; String units "W/m**2"; Int32 code 121; Int32 table 128; String grid_type "gaussian"; } ahfswac { String long_name "sensible heat flux over water"; String units "W/m**2"; Int32 code 120; Int32 table 128; String grid_type "gaussian"; } albedo { String long_name "surface albedo"; Int32 code 175; Int32 table 128; String grid_type "gaussian"; } albedo_nir { String long_name "surface albedo NIR range"; Int32 code 101; Int32 table 128; String grid_type "gaussian"; } albedo_nir_dif { String long_name "surface albedo NIR range diffuse"; Int32 code 82; Int32 table 128; String grid_type "gaussian"; } albedo_nir_dir { String long_name "surface albedo NIR range direct"; Int32 code 80; Int32 table 128; String grid_type "gaussian"; } albedo_vis { String long_name "surface albedo visible range"; Int32 code 100; Int32 table 128; String grid_type "gaussian"; } albedo_vis_dif { String long_name "surface albedo visible range diffuse"; Int32 code 81; Int32 table 128; String grid_type "gaussian"; } albedo_vis_dir { String long_name "surface albedo visible range direct"; Int32 code 79; Int32 table 128; String grid_type "gaussian"; } alsobs { String long_name "albedo of bare ice and snow without ponds"; Int32 code 72; Int32 table 128; String grid_type "gaussian"; } alsoi { String long_name "albedo of ice"; Int32 code 122; Int32 table 128; String grid_type "gaussian"; } alsol { String long_name "albedo of land"; Int32 code 124; Int32 table 128; String grid_type "gaussian"; } alsom { String long_name "albedo of melt ponds"; Int32 code 71; Int32 table 128; String grid_type "gaussian"; } alsow { String long_name "albedo of water"; Int32 code 123; Int32 table 128; String grid_type "gaussian"; } ameltdepth { String long_name "total melt pond depth"; String units "m"; Int32 code 77; Int32 table 128; String grid_type "gaussian"; } ameltfrac { String long_name "fract area of melt ponds on sea-ice"; Int32 code 78; Int32 table 128; String grid_type "gaussian"; } amlcorac { String long_name "mixed layer flux correction"; String units "W/m**2"; Int32 code 89; Int32 table 128; String grid_type "gaussian"; } ao3 { String long_name "ipcc ozone"; String units "kg/kg"; Int32 code 236; Int32 table 128; String grid_type "gaussian"; } apmeb { String long_name "vertic integr tendenc of water"; String units "kg/m**2s"; Int32 code 137; Int32 table 128; String grid_type "gaussian"; } apmegl { String long_name "P-E over land ice"; String units "kg/m**2s"; Int32 code 221; Int32 table 128; String grid_type "gaussian"; } aprc { String long_name "convective precipitation"; String units "kg/m**2s"; Int32 code 143; Int32 table 128; String grid_type "gaussian"; } aprl { String long_name "large scale precipitation"; String units "kg/m**2s"; Int32 code 142; Int32 table 128; String grid_type "gaussian"; } aprs { String long_name "snow fall"; String units "kg/m**2s"; Int32 code 144; Int32 table 128; String grid_type "gaussian"; } aps { String long_name "surface pressure"; String units "Pa"; Int32 code 134; Int32 table 128; String grid_type "gaussian"; } az0i { String long_name "roughness length over ice"; String units "m"; Int32 code 116; Int32 table 128; String grid_type "gaussian"; } az0l { String long_name "roughness length over land"; String units "m"; Int32 code 118; Int32 table 128; String grid_type "gaussian"; } az0w { String long_name "roughness length over water"; String units "m"; Int32 code 117; Int32 table 128; String grid_type "gaussian"; } barefrac { String long_name "bare ice fraction"; Int32 code 70; Int32 table 128; String grid_type "gaussian"; } dew2 { String long_name "2m dew point temperature"; String units "K"; Int32 code 168; Int32 table 128; String grid_type "gaussian"; } drain { String long_name "drainage"; String units "kg/m**2s"; Int32 code 161; Int32 table 128; String grid_type "gaussian"; } evap { String long_name "evaporation"; String units "kg/m**2s"; Int32 code 182; Int32 table 128; String grid_type "gaussian"; } evapiac { String long_name "evaporation over ice"; String units "kg/m**2s"; Int32 code 113; Int32 table 128; String grid_type "gaussian"; } evaplac { String long_name "evaporation over land"; String units "kg/m**2s"; Int32 code 115; Int32 table 128; String grid_type "gaussian"; } evapwac { String long_name "evaporation over water"; String units "kg/m**2s"; Int32 code 114; Int32 table 128; String grid_type "gaussian"; } fage { String long_name "aging factor of snow on ice"; Int32 code 68; Int32 table 128; String grid_type "gaussian"; } friac { String long_name "ice cover (fraction of grid box)"; Int32 code 97; Int32 table 128; String grid_type "gaussian"; } geosp { String long_name "surface geopotential (orography)"; String units "m**2/s**2"; Int32 code 129; Int32 table 128; String grid_type "gaussian"; } glac { String long_name "fraction of land covered by glaciers"; Int32 code 232; Int32 table 128; String grid_type "gaussian"; } gld { String long_name "glacier depth"; String units "m"; Int32 code 213; Int32 table 128; String grid_type "gaussian"; } hyai { String long_name "hybrid A coefficient at layer interfaces"; String units "Pa"; } hyam { String long_name "hybrid A coefficient at layer midpoints"; String units "Pa"; } hybi { String long_name "hybrid B coefficient at layer interfaces"; String units "1"; } hybm { String long_name "hybrid B coefficient at layer midpoints"; String units "1"; } ilev { String long_name "hybrid level at layer interfaces"; String standard_name "hybrid_sigma_pressure"; String units "level"; String positive "down"; String formula "hyai hybi (ilev=hyai+hybi*aps)"; String formula_terms "ap: hyai b: hybi ps: aps"; } lat { String long_name "latitude"; String units "degrees_north"; String standard_name "latitude"; String axis "Y"; } lon { String long_name "longitude"; String units "degrees_east"; String standard_name "longitude"; String axis "X"; } lsp { String long_name "log surface pressure"; Int32 code 152; Int32 table 128; String grid_type "spectral"; String axis "T--"; Int32 truncation 63; } mlev { String long_name "hybrid level at layer midpoints"; String standard_name "hybrid_sigma_pressure"; String units "level"; String positive "down"; String formula "hyam hybm (mlev=hyam+hybm*aps)"; String formula_terms "ap: hyam b: hybm ps: aps"; String borders "ilev"; } q { String long_name "specific humidity"; String units "kg/kg"; Int32 code 133; Int32 table 128; String grid_type "gaussian"; } qres { String long_name "residual heat flux for melting sea ice"; String units "W/m**2"; Int32 code 126; Int32 table 128; String grid_type "gaussian"; } qvi { String long_name "vertically integrated water vapor"; String units "kg/m**2"; Int32 code 230; Int32 table 128; String grid_type "gaussian"; } relhum { String long_name "relative humidity"; Int32 code 157; Int32 table 128; String grid_type "gaussian"; } runoff { String long_name "surface runoff and drainage"; String units "kg/m**2s"; Int32 code 160; Int32 table 128; String grid_type "gaussian"; } sd { String long_name "divergence"; String units "1/s"; Int32 code 155; Int32 table 128; String grid_type "spectral"; String axis "TZ--"; Int32 truncation 63; } seaice { String long_name "ice cover (fraction of 1-SLM)"; Int32 code 210; Int32 table 128; String grid_type "gaussian"; } siced { String long_name "ice depth"; String units "m"; Int32 code 211; Int32 table 128; String grid_type "gaussian"; } sicepdi { String long_name "ice thickness on melt pond"; String units "m"; Int32 code 74; Int32 table 128; String grid_type "gaussian"; } sicepdw { String long_name "melt pond depth on sea-ice"; String units "m"; Int32 code 73; Int32 table 128; String grid_type "gaussian"; } sicepres { String long_name "residual heat flux"; String units "W/m**2"; Int32 code 76; Int32 table 128; String grid_type "gaussian"; } slm { String long_name "land sea mask (1=land, 0=sea/lakes)"; Int32 code 172; Int32 table 128; String grid_type "gaussian"; } sn { String long_name "snow depth"; String units "m"; Int32 code 141; Int32 table 128; String grid_type "gaussian"; } snacl { String long_name "snow accumulation over land"; String units "kg/m**2s"; Int32 code 222; Int32 table 128; String grid_type "gaussian"; } snc { String long_name "snow depth at the canopy"; String units "m"; Int32 code 233; Int32 table 128; String grid_type "gaussian"; } sni { String long_name "water equivalent of snow on ice"; String units "m"; Int32 code 214; Int32 table 128; String grid_type "gaussian"; } snifrac { String long_name "fraction of ice covered with snow"; Int32 code 69; Int32 table 128; String grid_type "gaussian"; } snmel { String long_name "snow melt"; String units "kg/m**2s"; Int32 code 218; Int32 table 128; String grid_type "gaussian"; } sofliac { String long_name "SW flux over ice"; String units "W/m**2"; Int32 code 94; Int32 table 128; String grid_type "gaussian"; } sofllac { String long_name "SW flux over land"; String units "W/m**2"; Int32 code 96; Int32 table 128; String grid_type "gaussian"; } soflwac { String long_name "SW flux over water"; String units "W/m**2"; Int32 code 95; Int32 table 128; String grid_type "gaussian"; } srad0 { String long_name "net top solar radiation"; String units "W/m**2"; Int32 code 178; Int32 table 128; String grid_type "gaussian"; } srad0d { String long_name "top incoming solar radiation"; String units "W/m**2"; Int32 code 184; Int32 table 128; String grid_type "gaussian"; } srad0u { String long_name "top solar radiation upward"; String units "W/m**2"; Int32 code 203; Int32 table 128; String grid_type "gaussian"; } sradl { String long_name "solar radiation 200mb"; String units "W/m**2"; Int32 code 86; Int32 table 128; String grid_type "gaussian"; } srads { String long_name "net surface solar radiation"; String units "W/m**2"; Int32 code 176; Int32 table 128; String grid_type "gaussian"; } sradsu { String long_name "surface solar radiation upward"; String units "W/m**2"; Int32 code 204; Int32 table 128; String grid_type "gaussian"; } sraf0 { String long_name "net top solar radiation (clear sky)"; String units "W/m**2"; Int32 code 187; Int32 table 128; String grid_type "gaussian"; } srafl { String long_name "solar radiation 200mb (clear sky)"; String units "W/m**2"; Int32 code 88; Int32 table 128; String grid_type "gaussian"; } srafs { String long_name "net surface solar radiation (clear sky)"; String units "W/m**2"; Int32 code 185; Int32 table 128; String grid_type "gaussian"; } st { String long_name "temperature"; String units "K"; Int32 code 130; Int32 table 128; String grid_type "spectral"; String axis "TZ--"; Int32 truncation 63; } svo { String long_name "vorticity"; String units "1/s"; Int32 code 138; Int32 table 128; String grid_type "spectral"; String axis "TZ--"; Int32 truncation 63; } t2max { String long_name "maximum 2m temperature"; String units "K"; Int32 code 201; Int32 table 128; String grid_type "gaussian"; } t2min { String long_name "minimum 2m temperature"; String units "K"; Int32 code 202; Int32 table 128; String grid_type "gaussian"; } temp2 { String long_name "2m temperature"; String units "K"; Int32 code 167; Int32 table 128; String grid_type "gaussian"; } thvsig { String long_name "stddev virt pot temp at halflev klevm1"; String units "K"; Int32 code 238; Int32 table 128; String grid_type "gaussian"; } time { String units "days since 2002-12-01 00:00:00"; String calendar "proleptic_gregorian"; } topmax { String long_name "max height of conv cloud tops"; String units "Pa"; Int32 code 217; Int32 table 128; String grid_type "gaussian"; } tpot { String long_name "potential temperature"; String units "K"; Int32 code 239; Int32 table 128; String grid_type "gaussian"; } trad0 { String long_name "top thermal radiation (OLR)"; String units "W/m**2"; Int32 code 179; Int32 table 128; String grid_type "gaussian"; } tradl { String long_name "thermal radiation 200mb"; String units "W/m**2"; Int32 code 85; Int32 table 128; String grid_type "gaussian"; } trads { String long_name "net surface thermal radiation"; String units "W/m**2"; Int32 code 177; Int32 table 128; String grid_type "gaussian"; } tradsu { String long_name "surface thermal radiation upward"; String units "W/m**2"; Int32 code 205; Int32 table 128; String grid_type "gaussian"; } traf0 { String long_name "net top thermal radiation (clear sky)"; String units "W/m**2"; Int32 code 188; Int32 table 128; String grid_type "gaussian"; } trafl { String long_name "thermal radiation 200mb (clear sky)"; String units "W/m**2"; Int32 code 87; Int32 table 128; String grid_type "gaussian"; } trafs { String long_name "net surface therm radiation (clear sky)"; String units "W/m**2"; Int32 code 186; Int32 table 128; String grid_type "gaussian"; } trfliac { String long_name "LW flux over ice"; String units "W/m**2"; Int32 code 91; Int32 table 128; String grid_type "gaussian"; } trfllac { String long_name "LW flux over land"; String units "W/m**2"; Int32 code 93; Int32 table 128; String grid_type "gaussian"; } trflwac { String long_name "LW flux over water"; String units "W/m**2"; Int32 code 92; Int32 table 128; String grid_type "gaussian"; } tropo { String long_name "WMO defined tropopause height"; String units "Pa"; Int32 code 237; Int32 table 128; String grid_type "gaussian"; } tsi { String long_name "surface temperature of ice"; String units "K"; Int32 code 102; Int32 table 128; String grid_type "gaussian"; } tsicepdi { String long_name "ice temperature on frozen melt pond"; String units "K"; Int32 code 75; Int32 table 128; String grid_type "gaussian"; } tslm1 { String long_name "surface temperature of land"; String units "K"; Int32 code 139; Int32 table 128; String grid_type "gaussian"; } tsurf { String long_name "surface temperature"; String units "K"; Int32 code 169; Int32 table 128; String grid_type "gaussian"; } tsw { String long_name "surface temperature of water"; String units "K"; Int32 code 103; Int32 table 128; String grid_type "gaussian"; } u10 { String long_name "10m u-velocity"; String units "m/s"; Int32 code 165; Int32 table 128; String grid_type "gaussian"; } ustr { String long_name "u-stress"; String units "Pa"; Int32 code 180; Int32 table 128; String grid_type "gaussian"; } ustri { String long_name "zonal wind stress over ice"; String units "Pa"; Int32 code 104; Int32 table 128; String grid_type "gaussian"; } ustrl { String long_name "zonal wind stress over land"; String units "Pa"; Int32 code 108; Int32 table 128; String grid_type "gaussian"; } ustrw { String long_name "zonal wind stress over water"; String units "Pa"; Int32 code 106; Int32 table 128; String grid_type "gaussian"; } v10 { String long_name "10m v-velocity"; String units "m/s"; Int32 code 166; Int32 table 128; String grid_type "gaussian"; } vdis { String long_name "boundary layer dissipation"; String units "W/m**2"; Int32 code 145; Int32 table 128; String grid_type "gaussian"; } vdisgw { String long_name "gravity wave dissipation"; String units "W/m**2"; Int32 code 197; Int32 table 128; String grid_type "gaussian"; } vstr { String long_name "v-stress"; String units "Pa"; Int32 code 181; Int32 table 128; String grid_type "gaussian"; } vstri { String long_name "meridional wind stress over ice"; String units "Pa"; Int32 code 105; Int32 table 128; String grid_type "gaussian"; } vstrl { String long_name "meridional wind stress over land"; String units "Pa"; Int32 code 109; Int32 table 128; String grid_type "gaussian"; } vstrw { String long_name "meridional wind stress over water"; String units "Pa"; Int32 code 107; Int32 table 128; String grid_type "gaussian"; } wimax { String long_name "maximum 10m-wind speed"; String units "m/s"; Int32 code 216; Int32 table 128; String grid_type "gaussian"; } wind10 { String long_name "10m windspeed"; String units "m/s"; Int32 code 171; Int32 table 128; String grid_type "gaussian"; } wl { String long_name "skin reservoir content"; String units "m"; Int32 code 193; Int32 table 128; String grid_type "gaussian"; } ws { String long_name "soil wetness"; String units "m"; Int32 code 140; Int32 table 128; String grid_type "gaussian"; } wsmx { String long_name "field capacity of soil"; String units "m"; Int32 code 229; Int32 table 128; String grid_type "gaussian"; } xi { String long_name "cloud ice"; String units "kg/kg"; Int32 code 154; Int32 table 128; String grid_type "gaussian"; } xivi { String long_name "vertically integrated cloud ice"; String units "kg/m**2"; Int32 code 150; Int32 table 128; String grid_type "gaussian"; } xl { String long_name "cloud water"; String units "kg/kg"; Int32 code 153; Int32 table 128; String grid_type "gaussian"; } xlvi { String long_name "vertically integrated cloud water"; String units "kg/m**2"; Int32 code 231; Int32 table 128; String grid_type "gaussian"; } NC_GLOBAL { String CDI "Climate Data Interface version 1.4.6 (http://code.zmaw.de/projects/cdi)"; String Conventions "CF-1.0"; String source "ECHAM6.1"; String institution "Max-Planck-Institute for Meteorology"; String title "homo_chem_hammoz_20141128"; String echam_version "6.1.00"; String advection "Lin & Rood"; String physics "Modified ECMWF physics"; String radiation "Modified ECMWF radiation"; String date_time "20150415 135128"; String operating_system "Linux 2.6.32.59-0.3-default x86_64"; String user_name "s.stadtler@fz-juelich.de,Scarlet Stadtler,1044105 (jicg2324)"; String host_name "jf51c25"; String jsbach_version "2.01"; Int32 truncation 63; String history "Thu Apr 16 16:22:08 2015: ncks -d time,0,7 homo_chem_hammoz_20141128_200312.01_echam.nc /lustre/jhome16/jicg23/jicg2300/test_echam_spectral.nc"; String NCO "4.4.5"; } DODS_EXTRA { String Unlimited_Dimension "time"; } }