netcdf RC1SD-base-10_tnudge_gp_1_2815643725364756902 {
dimensions:
time = UNLIMITED ; // (75 currently)
lon = 128 ;
lat = 64 ;
lev = 90 ;
variables:
double time(time) ;
time:long_name = "time" ;
time:units = "day since 1950-01-01 00:00:00" ;
time:calendar = "gregorian" ;
double YYYYMMDD(time) ;
YYYYMMDD:long_name = "time" ;
YYYYMMDD:units = "days as %Y%m%d.%f" ;
YYYYMMDD:calendar = "gregorian" ;
double dt(time) ;
dt:long_name = "delta_time" ;
dt:units = "s" ;
double nstep(time) ;
nstep:long_name = "current time step" ;
float lon(lon) ;
lon:long_name = "longitude" ;
lon:units = "degrees_east" ;
float lat(lat) ;
lat:long_name = "latitude" ;
lat:units = "degrees_north" ;
float lev(lev) ;
lev:long_name = "hybrid level at layer midpoints" ;
lev:standard_name = "hybrid_sigma_pressure" ;
lev:units = "level" ;
lev:positive = "down" ;
lev:formula = "hyam hybm (press=hyam+hybm*aps)" ;
lev:borders = "ilev" ;
float hyam(lev) ;
hyam:long_name = "hybrid A coefficient at layer midpoints" ;
hyam:units = "Pa" ;
float hybm(lev) ;
hybm:long_name = "hybrid B coefficient at layer midpoints" ;
hybm:units = "1" ;
float N2O_import_grid_TN_GHG_N2O_flx_ave(time, lat, lon) ;
N2O_import_grid_TN_GHG_N2O_flx_ave:long_name = "flux import_grid_TN_GHG_N2O into N2O" ;
N2O_import_grid_TN_GHG_N2O_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CH4_import_grid_TN_GHG_CH4_flx_ave(time, lat, lon) ;
CH4_import_grid_TN_GHG_CH4_flx_ave:long_name = "flux import_grid_TN_GHG_CH4 into CH4" ;
CH4_import_grid_TN_GHG_CH4_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CO2_import_grid_TN_GHG_CO2_flx_ave(time, lat, lon) ;
CO2_import_grid_TN_GHG_CO2_flx_ave:long_name = "flux import_grid_TN_GHG_CO2 into CO2" ;
CO2_import_grid_TN_GHG_CO2_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CFCl3_import_grid_TN_CFC_CFCl3_flx_ave(time, lat, lon) ;
CFCl3_import_grid_TN_CFC_CFCl3_flx_ave:long_name = "flux import_grid_TN_CFC_CFCl3 into CFCl3" ;
CFCl3_import_grid_TN_CFC_CFCl3_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CF2Cl2_import_grid_TN_CFC_CF2Cl2_flx_ave(time, lat, lon) ;
CF2Cl2_import_grid_TN_CFC_CF2Cl2_flx_ave:long_name = "flux import_grid_TN_CFC_CF2Cl2 into CF2Cl2" ;
CF2Cl2_import_grid_TN_CFC_CF2Cl2_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CH3CCl3_import_grid_TN_CFC_CH3CCl3_flx_ave(time, lat, lon) ;
CH3CCl3_import_grid_TN_CFC_CH3CCl3_flx_ave:long_name = "flux import_grid_TN_CFC_CH3CCl3 into CH3CCl3" ;
CH3CCl3_import_grid_TN_CFC_CH3CCl3_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CCl4_import_grid_TN_CFC_CCl4_flx_ave(time, lat, lon) ;
CCl4_import_grid_TN_CFC_CCl4_flx_ave:long_name = "flux import_grid_TN_CFC_CCl4 into CCl4" ;
CCl4_import_grid_TN_CFC_CCl4_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CH3Cl_import_grid_TN_HCFC_CH3Cl_flx_ave(time, lat, lon) ;
CH3Cl_import_grid_TN_HCFC_CH3Cl_flx_ave:long_name = "flux import_grid_TN_HCFC_CH3Cl into CH3Cl" ;
CH3Cl_import_grid_TN_HCFC_CH3Cl_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CH3Br_import_grid_TN_HCFC_CH3Br_flx_ave(time, lat, lon) ;
CH3Br_import_grid_TN_HCFC_CH3Br_flx_ave:long_name = "flux import_grid_TN_HCFC_CH3Br into CH3Br" ;
CH3Br_import_grid_TN_HCFC_CH3Br_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CF2ClBr_import_grid_TN_Halon_CF2ClBr_flx_ave(time, lat, lon) ;
CF2ClBr_import_grid_TN_Halon_CF2ClBr_flx_ave:long_name = "flux import_grid_TN_Halon_CF2ClBr into CF2ClBr" ;
CF2ClBr_import_grid_TN_Halon_CF2ClBr_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CF3Br_import_grid_TN_Halon_CF3Br_flx_ave(time, lat, lon) ;
CF3Br_import_grid_TN_Halon_CF3Br_flx_ave:long_name = "flux import_grid_TN_Halon_CF3Br into CF3Br" ;
CF3Br_import_grid_TN_Halon_CF3Br_flx_ave:units = "flux of molecules/(m^2 s)" ;
float O3s_tracer_gp_O3_flx_ave(time, lev, lat, lon) ;
O3s_tracer_gp_O3_flx_ave:long_name = "flux tracer_gp_O3 into O3s" ;
O3s_tracer_gp_O3_flx_ave:units = "flux of molecules/(m^3 s)" ;
float H2_import_grid_TN_H2_H2_flx_ave(time, lat, lon) ;
H2_import_grid_TN_H2_H2_flx_ave:long_name = "flux import_grid_TN_H2_H2 into H2" ;
H2_import_grid_TN_H2_H2_flx_ave:units = "flux of molecules/(m^2 s)" ;
float SF6_import_grid_TN_SF6_SF6_flx_ave(time, lat, lon) ;
SF6_import_grid_TN_SF6_SF6_flx_ave:long_name = "flux import_grid_TN_SF6_SF6 into SF6" ;
SF6_import_grid_TN_SF6_SF6_flx_ave:units = "flux of molecules/(m^2 s)" ;
float AOA_import_grid_TN_AOA_AOA_flx_ave(time, lat, lon) ;
AOA_import_grid_TN_AOA_AOA_flx_ave:long_name = "flux import_grid_TN_AOA_AOA into AOA" ;
AOA_import_grid_TN_AOA_AOA_flx_ave:units = "flux of molecules/(m^2 s)" ;
float SF6_AOA_import_grid_TN_SF6AOA_SF6_AOA_flx_ave(time, lat, lon) ;
SF6_AOA_import_grid_TN_SF6AOA_SF6_AOA_flx_ave:long_name = "flux import_grid_TN_SF6AOA_SF6_AOA into SF6_AOA" ;
SF6_AOA_import_grid_TN_SF6AOA_SF6_AOA_flx_ave:units = "flux of molecules/(m^2 s)" ;
float SF6_AOAc_import_grid_TN_SF6AOAc_SF6_AOAc_flx_ave(time, lat, lon) ;
SF6_AOAc_import_grid_TN_SF6AOAc_SF6_AOAc_flx_ave:long_name = "flux import_grid_TN_SF6AOAc_SF6_AOAc into SF6_AOAc" ;
SF6_AOAc_import_grid_TN_SF6AOAc_SF6_AOAc_flx_ave:units = "flux of molecules/(m^2 s)" ;
float NH_05_import_grid_SYNT1_NH_flx_ave(time, lat, lon) ;
NH_05_import_grid_SYNT1_NH_flx_ave:long_name = "flux import_grid_SYNT1_NH into NH_05" ;
NH_05_import_grid_SYNT1_NH_flx_ave:units = "flux of molecules/(m^2 s)" ;
float NH_50_import_grid_SYNT1_NH_flx_ave(time, lat, lon) ;
NH_50_import_grid_SYNT1_NH_flx_ave:long_name = "flux import_grid_SYNT1_NH into NH_50" ;
NH_50_import_grid_SYNT1_NH_flx_ave:units = "flux of molecules/(m^2 s)" ;
float NH50W_import_grid_SYNT1_NH_flx_ave(time, lat, lon) ;
NH50W_import_grid_SYNT1_NH_flx_ave:long_name = "flux import_grid_SYNT1_NH into NH50W" ;
NH50W_import_grid_SYNT1_NH_flx_ave:units = "flux of molecules/(m^2 s)" ;
float AOA_NH_import_grid_SYNT1_ZERO_flx_ave(time, lat, lon) ;
AOA_NH_import_grid_SYNT1_ZERO_flx_ave:long_name = "flux import_grid_SYNT1_ZERO into AOA_NH" ;
AOA_NH_import_grid_SYNT1_ZERO_flx_ave:units = "flux of molecules/(m^2 s)" ;
float ST80_25_import_grid_SYNT1_ST80_flx_ave(time, lev, lat, lon) ;
ST80_25_import_grid_SYNT1_ST80_flx_ave:long_name = "flux import_grid_SYNT1_ST80 into ST80_25" ;
ST80_25_import_grid_SYNT1_ST80_flx_ave:units = "flux of molecules/(m^3 s)" ;
float AOA_CCMI_import_grid_SYNT1_ZERO_flx_ave(time, lat, lon) ;
AOA_CCMI_import_grid_SYNT1_ZERO_flx_ave:long_name = "flux import_grid_SYNT1_ZERO into AOA_CCMI" ;
AOA_CCMI_import_grid_SYNT1_ZERO_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CFCl3_c_import_grid_SYNT4_c100ppt_flx_ave(time, lat, lon) ;
CFCl3_c_import_grid_SYNT4_c100ppt_flx_ave:long_name = "flux import_grid_SYNT4_c100ppt into CFCl3_c" ;
CFCl3_c_import_grid_SYNT4_c100ppt_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CF2Cl2_c_import_grid_SYNT4_c100ppt_flx_ave(time, lat, lon) ;
CF2Cl2_c_import_grid_SYNT4_c100ppt_flx_ave:long_name = "flux import_grid_SYNT4_c100ppt into CF2Cl2_c" ;
CF2Cl2_c_import_grid_SYNT4_c100ppt_flx_ave:units = "flux of molecules/(m^2 s)" ;
float N2O_c_import_grid_SYNT4_c100ppt_flx_ave(time, lat, lon) ;
N2O_c_import_grid_SYNT4_c100ppt_flx_ave:long_name = "flux import_grid_SYNT4_c100ppt into N2O_c" ;
N2O_c_import_grid_SYNT4_c100ppt_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CH3CCl3_c_import_grid_SYNT4_c100ppt_flx_ave(time, lat, lon) ;
CH3CCl3_c_import_grid_SYNT4_c100ppt_flx_ave:long_name = "flux import_grid_SYNT4_c100ppt into CH3CCl3_c" ;
CH3CCl3_c_import_grid_SYNT4_c100ppt_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CF2ClBr_c_import_grid_SYNT4_c100ppt_flx_ave(time, lat, lon) ;
CF2ClBr_c_import_grid_SYNT4_c100ppt_flx_ave:long_name = "flux import_grid_SYNT4_c100ppt into CF2ClBr_c" ;
CF2ClBr_c_import_grid_SYNT4_c100ppt_flx_ave:units = "flux of molecules/(m^2 s)" ;
float CF3Br_c_import_grid_SYNT4_c100ppt_flx_ave(time, lat, lon) ;
CF3Br_c_import_grid_SYNT4_c100ppt_flx_ave:long_name = "flux import_grid_SYNT4_c100ppt into CF3Br_c" ;
CF3Br_c_import_grid_SYNT4_c100ppt_flx_ave:units = "flux of molecules/(m^2 s)" ;
float aps_ave(time, lat, lon) ;
aps_ave:long_name = "surface pressure" ;
aps_ave:units = "Pa" ;
aps_ave:representation = "GP_2D_HORIZONTAL" ;
aps_ave:grid_type = "gaussian" ;
aps_ave:table = 128 ;
aps_ave:code = 134 ;
aps_ave:REFERENCE_TO = "g3b: aps" ;
// global attributes:
:MESSy = "MESSy version 2.50.5, http://www.messy-interface.org" ;
:MESSy_switch = "version 1.0" ;
:MESSy_channel = "version 2.2" ;
:MESSy_tracer = "version 2.3" ;
:MESSy_timer = "version 0.1" ;
:MESSy_qtimer = "version 2.0" ;
:MESSy_import = "version 1.0" ;
:MESSy_rnd = "version 1.1" ;
:MESSy_aeropt = "version 2.0.0" ;
:MESSy_airsea = "version 2.0" ;
:MESSy_ch4 = "version 1.0" ;
:MESSy_cloud = "version 2.1" ;
:MESSy_cloudopt = "version 1.2" ;
:MESSy_contrail = "version 1.1" ;
:MESSy_convect = "version 2.0" ;
:MESSy_cvtrans = "version 2.3" ;
:MESSy_ddep = "version 2.1" ;
:MESSy_dradon = "version 2.1" ;
:MESSy_gwave = "version 1.0" ;
:MESSy_h2o = "version 2.1" ;
:MESSy_jval = "version 13" ;
:MESSy_lnox = "version 2.4" ;
:MESSy_mecca = "version 3.6" ;
:MESSy_msbm = "version 2.4" ;
:MESSy_o3orig = "version 0.2" ;
:MESSy_offemis = "version 1.0" ;
:MESSy_onemis = "version 2.1.5" ;
:MESSy_orbit = "version 0.9" ;
:MESSy_ptrac = "version 2.2" ;
:MESSy_qbo = "version 2.3" ;
:MESSy_rad = "version 2.2" ;
:MESSy_satsims = "version 1.0" ;
:MESSy_scalc = "version 0.1" ;
:MESSy_scav = "version 2.4.0" ;
:MESSy_scout = "version 2.0" ;
:MESSy_sedi = "version 2.4" ;
:MESSy_s4d = "version 2.0.2" ;
:MESSy_sorbit = "version 1.1" ;
:MESSy_surface = "version 1.1" ;
:MESSy_tbudget = "version 1.1" ;
:MESSy_tnudge = "version 2.1" ;
:MESSy_trexp = "version 3.1" ;
:MESSy_tropop = "version 2.1" ;
:MESSy_viso = "version 2.0" ;
:MESSy_experiment = "RC1SD-base-10" ;
:EXEC_CHECKSUM = "efcd6835c58bb11f6a81eff0ce5b1305 bin/echam5.exe (md5sum)" ;
:GCM = "ECHAM5 version 5.3.02, Max-Planck Institute for Meteorology, Hamburg" ;
:GCM_spherical_trunc_n = 42 ;
:GCM_spherical_trunc_m = 42 ;
:GCM_spherical_trunc_k = 42 ;
:GCM_vertical_mode = "middle atmosphere (MA)" ;
:GCM_horizontal_mode = "global" ;
:GCM_advection = "Lin&Rood" ;
:GCM_start_date_time = "19500101 000000" ;
:GCM_timestep = 720. ;
:F95_COMPILER_VERSION = "IBM XL Fortran for AIX, V13.1 (5724-X15) Version: 13.01.0000.0008" ;
:F95_COMPILER_CALL = "mpxlf95_r -g -qfullpath" ;
:F95_COMPILER_FLAGS_01 = "-q64 -qsuppress=1518-061:1518-128 -qsuppress=1500-036 -O3 -qstrict -qMAXMEM=-1 -qsuffix=cpp=f90 -qzerosize -WF,-D__ibm__ -d -WF,-qlanglvl=classic -qlanglvl=95pure -qspillsize=32648 -qarch=auto -qtune=auto -Q -qhot -qxlf90=nosignedzero -bdatapsize:64k -bsta" ;
:F95_COMPILER_FLAGS_02 = "ckpsize:64k -btextpsize:64k" ;
:F95_PREPROC_DEFINITIONS = "-WF,-DMPI -WF,-DMESSY -WF,-D_rs6000 -WF,-DPNETCDF -WF,-DPNCREGRID -WF,-DMPIOM_13B" ;
:F95_COMPILER_INCLUDES = "-I/pf/b/b302019/soft/netcdf/v3.6.3/include -I/pf/b/b302019/soft/netcdf/v3.6.3/include -I/pf/b/b302019/soft/pnetcdf/v1.1.1/include" ;
:operating_date_time = "20140818 102703" ;
:operating_system = "AIX 1 on 00C838724C00" ;
:operating_host = "blizzard2" ;
:operating_user = "Patrick Joeckel (b302019)" ;
:MESSy_mecca_eqn = "gas_mim1.eqn" ;
:MESSy_mecca_rpl = "CCMI-base-02" ;
:MESSy_mecca_nism = "(((Tr && (G || Het) && !I) || St) && !Hg)" ;
:MESSy_mecca_diag = "CCMI" ;
:channel_time_slo = 56160. ;
:channel_name = "tnudge_gp" ;
:channel_file_type = "output" ;
:channel_file_name = "RC1SD-base-10__19790101_0200_tnudge_gp.nc" ;
:channel_netcdf_lib = "\"3.6.3\" of Apr 23 2009 17:24:40 $" ;
:history = "Tue Aug 19 11:01:32 2014: ncrcat --overwrite ./RC1SD-base-10__19790101_0200_tnudge_gp.nc /work/id0853/b302019/RC1SD-base-10/./tnudge_gp/RC1SD-base-10__197901_tnudge_gp.nc" ;
:nco_openmp_thread_number = 1 ;
}