netcdf RC1SD-base-07_ECHAM5_1_8576072580251246631 {
dimensions:
time = UNLIMITED ; // (75 currently)
lev = 90 ;
lon = 128 ;
lat = 64 ;
ilev = 91 ;
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 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 lon(lon) ;
lon:long_name = "longitude" ;
lon:units = "degrees_east" ;
float lat(lat) ;
lat:long_name = "latitude" ;
lat:units = "degrees_north" ;
float ilev(ilev) ;
ilev:long_name = "hybrid level at layer interfaces" ;
ilev:standard_name = "hybrid_sigma_pressure" ;
ilev:units = "level" ;
ilev:positive = "down" ;
ilev:formula = "hyai hybi (ilev=hyai+hybi*aps)" ;
ilev:formula_terms = "ap: hyai b: hybi ps: aps" ;
float hyai(ilev) ;
hyai:long_name = "hybrid A coefficient at layer interfaces" ;
hyai:units = "Pa" ;
float hybi(ilev) ;
hybi:long_name = "hybrid B coefficient at layer interfaces" ;
hybi:units = "1" ;
float dhyam(time, lev) ;
dhyam:long_name = "hybrid A coefficient at layer midpoints" ;
dhyam:units = "Pa" ;
float dhybm(time, lev) ;
dhybm:long_name = "hybrid B coefficient at layer midpoints" ;
dhybm:units = "Pa" ;
float slf(time, lat, lon) ;
slf:REFERENCE_TO = "g3b: slf" ;
slf:long_name = "land fraction" ;
slf:units = "-" ;
float alb(time, lat, lon) ;
alb:REFERENCE_TO = "g3b: alb" ;
alb:long_name = "surface background albedo" ;
alb:units = "-" ;
float tsw(time, lat, lon) ;
tsw:REFERENCE_TO = "g3b: tsw" ;
tsw:long_name = "surface temperature of water" ;
tsw:units = "K" ;
float glac(time, lat, lon) ;
glac:REFERENCE_TO = "g3b: glac" ;
glac:long_name = "fraction of land covered by glaciers" ;
glac:units = "-" ;
float alake(time, lat, lon) ;
alake:REFERENCE_TO = "g3b: alake" ;
alake:long_name = "lake fraction of grid box" ;
alake:units = "-" ;
float siced(time, lat, lon) ;
siced:REFERENCE_TO = "g3b: siced" ;
siced:long_name = "ice depth" ;
siced:units = "m" ;
float fluxres(time, lat, lon) ;
fluxres:REFERENCE_TO = "g3b: fluxres" ;
fluxres:long_name = "" ;
fluxres:units = "" ;
float ahfli(time, lat, lon) ;
ahfli:REFERENCE_TO = "g3b: ahfli" ;
ahfli:long_name = "latent heat flux over ice" ;
ahfli:units = "W m-2" ;
float ahflw(time, lat, lon) ;
ahflw:REFERENCE_TO = "g3b: ahflw" ;
ahflw:long_name = "latent heat flux over water" ;
ahflw:units = "W m-2" ;
float ahfice(time, lat, lon) ;
ahfice:REFERENCE_TO = "g3b: ahfice" ;
ahfice:long_name = "conductive heat flux" ;
ahfice:units = "W m-2" ;
float qres(time, lat, lon) ;
qres:REFERENCE_TO = "g3b: qres" ;
qres:long_name = "residual heat flux for melting sea ice" ;
qres:units = "W m-2" ;
float forest(time, lat, lon) ;
forest:REFERENCE_TO = "g3b: forest" ;
forest:long_name = "forest fraction" ;
forest:units = "-" ;
float vgrat(time, lat, lon) ;
vgrat:REFERENCE_TO = "g3b: vgrat" ;
vgrat:long_name = "vegetation fraction rel to land" ;
vgrat:units = "-" ;
float vlt(time, lat, lon) ;
vlt:REFERENCE_TO = "g3b: vlt" ;
vlt:long_name = "leaf area index (LAI)" ;
vlt:units = "-" ;
float az0(time, lat, lon) ;
az0:REFERENCE_TO = "g3b: az0" ;
az0:long_name = "roughness length" ;
az0:units = "m" ;
float cdnl(time, lat, lon) ;
cdnl:long_name = "neutral drag coeff., land" ;
cdnl:units = "-" ;
float cdnw(time, lat, lon) ;
cdnw:long_name = "neutral drag coeff., water" ;
cdnw:units = "-" ;
float cdni(time, lat, lon) ;
cdni:long_name = "neutral drag coeff., ice" ;
cdni:units = "-" ;
float cfml(time, lat, lon) ;
cfml:long_name = "momentum drag coeff., land" ;
cfml:units = "-" ;
float cfmw(time, lat, lon) ;
cfmw:long_name = "momentum drag coeff., water" ;
cfmw:units = "-" ;
float cfmi(time, lat, lon) ;
cfmi:long_name = "momentum drag coeff., ice" ;
cfmi:units = "-" ;
float cfncl(time, lat, lon) ;
cfncl:long_name = "exchange parameter, land" ;
cfncl:units = "kg m-2 s-1" ;
float cfncw(time, lat, lon) ;
cfncw:long_name = "exchange parameter, water" ;
cfncw:units = "kg m-2 s-1" ;
float cfnci(time, lat, lon) ;
cfnci:long_name = "exchange parameter, ice" ;
cfnci:units = "kg m-2 s-1" ;
float ril(time, lat, lon) ;
ril:long_name = "Richardson number (land)" ;
ril:units = "1" ;
float riw(time, lat, lon) ;
riw:long_name = "Richardson number (water)" ;
riw:units = "1" ;
float rii(time, lat, lon) ;
rii:long_name = "Richardson number (ice)" ;
rii:units = "1" ;
float tvir(time, lat, lon) ;
tvir:long_name = "surface virtual temperature" ;
tvir:units = "K" ;
float tvl(time, lat, lon) ;
tvl:long_name = "surface virtual temperature (land)" ;
tvl:units = "K" ;
float tvw(time, lat, lon) ;
tvw:long_name = "surface virtual temperature (water)" ;
tvw:units = "K" ;
float tvi(time, lat, lon) ;
tvi:long_name = "surface virtual temperature (ice)" ;
tvi:units = "K" ;
float srfl(time, lat, lon) ;
srfl:long_name = "net surface radiative flux" ;
srfl:units = "W m-2" ;
float fws(time, lat, lon) ;
fws:long_name = "soil moisture stress function" ;
fws:units = "-" ;
float rco_leaf(time, lat, lon) ;
rco_leaf:long_name = "leaf stomatal resistance" ;
rco_leaf:units = "s m-1" ;
float rh_2m(time, lat, lon) ;
rh_2m:long_name = "relative humidity at 2m" ;
rh_2m:units = "-" ;
float zust(time, lat, lon) ;
zust:long_name = "surface friction velocity" ;
zust:units = "m s-1" ;
float heat(time, lat, lon) ;
heat:long_name = "surface kinematic heat flux" ;
heat:units = "K m/s" ;
float qflx(time, lat, lon) ;
qflx:long_name = "surface kinematic moisture flux" ;
qflx:units = "m s-1" ;
float cdh(time, lat, lon) ;
cdh:long_name = "neutral drag for heat exchange" ;
cdh:units = "W m-2 s-1" ;
float wind10(time, lat, lon) ;
wind10:long_name = "10 m wind speed" ;
wind10:units = "m s-1" ;
float wind10w(time, lat, lon) ;
wind10w:long_name = "10 m wind speed over water" ;
wind10w:units = "m s-1" ;
float aros(time, lat, lon) ;
aros:long_name = "atmospheric runoff" ;
aros:units = "m" ;
float adrain(time, lat, lon) ;
adrain:long_name = "atmospheric drainage" ;
adrain:units = "m" ;
float apmecal(time, lat, lon) ;
apmecal:long_name = "(p - e) at glacier points" ;
apmecal:units = "m" ;
float apmebco(time, lat, lon) ;
apmebco:long_name = "vert.integr.tendencies of water for correction in hd" ;
apmebco:units = "m/s" ;
float awhea(time, lat, lon) ;
awhea:long_name = "net heat flux" ;
awhea:units = "W m-2" ;
float radflxw(time, lat, lon) ;
radflxw:long_name = "radiation flux (lw + sw) over water" ;
radflxw:units = "W m-2" ;
float aicon(time, lat, lon) ;
aicon:long_name = "surface downward heat flux on ice" ;
aicon:units = "W m-2" ;
float aiqre(time, lat, lon) ;
aiqre:long_name = "residual heat flux (sea-ice topmelt heat flux)" ;
aiqre:units = "W m-2" ;
float awfre(time, lat, lon) ;
awfre:long_name = "water flux into ocean" ;
awfre:units = "m s-1" ;
float aifre(time, lat, lon) ;
aifre:long_name = "downward snow flux where sea-ice" ;
aifre:units = "m s-1" ;
float awust(time, lat, lon) ;
awust:long_name = "surface eastward stress where water" ;
awust:units = "Pa" ;
float awvst(time, lat, lon) ;
awvst:long_name = "surface northward stress where water" ;
awvst:units = "Pa" ;
float aiust(time, lat, lon) ;
aiust:long_name = "surface eastward stress where sea ice" ;
aiust:units = "Pa" ;
float aivst(time, lat, lon) ;
aivst:long_name = "surface northward stress where sea ice" ;
aivst:units = "Pa" ;
float rsfl_2d(time, lat, lon) ;
rsfl_2d:long_name = "large-scale rain rate" ;
rsfl_2d:units = "kg m-2 s-1" ;
float rsfc_2d(time, lat, lon) ;
rsfc_2d:long_name = "convective rain rate" ;
rsfc_2d:units = "kg m-2 s-1" ;
float ssfl_2d(time, lat, lon) ;
ssfl_2d:long_name = "large-scale snow rate" ;
ssfl_2d:units = "kg m-2 s-1" ;
float ssfc_2d(time, lat, lon) ;
ssfc_2d:long_name = "convective snow rate" ;
ssfc_2d:units = "kg m-2 s-1" ;
float wlmx_2d(time, lat, lon) ;
wlmx_2d:long_name = "" ;
wlmx_2d:units = "" ;
float evapl_2d(time, lat, lon) ;
evapl_2d:long_name = "Total evaporation, including sublimation" ;
evapl_2d:units = "kg m-2 s-1" ;
float evapot_2d(time, lat, lon) ;
evapot_2d:long_name = "Potential evaporation/sublimation" ;
evapot_2d:units = "kg m-2 s-1" ;
float qflux(time, lat, lon) ;
qflux:long_name = "moisture flux at the surface" ;
qflux:units = "kg m-2 s-1" ;
float s_heatflux(time, lat, lon) ;
s_heatflux:long_name = "sensible heat flux at the surface" ;
s_heatflux:units = "W m-2" ;
float l_heatflux(time, lat, lon) ;
l_heatflux:long_name = "latent heat flux at the surface" ;
l_heatflux:units = "W m-2" ;
float tsurf(time, lat, lon) ;
tsurf:long_name = "surface temperature" ;
tsurf:units = "K" ;
float icecov(time, lat, lon) ;
icecov:long_name = "ice cover fraction" ;
icecov:units = "-" ;
float seacov(time, lat, lon) ;
seacov:long_name = "sea cover fraction" ;
seacov:units = "-" ;
float landcov(time, lat, lon) ;
landcov:long_name = "land cover fraction" ;
landcov:units = "-" ;
float cvs(time, lat, lon) ;
cvs:long_name = "snow cover" ;
cvs:units = "fraction" ;
float cvsc(time, lat, lon) ;
cvsc:long_name = "snow covered canopy" ;
cvsc:units = "fraction" ;
float cvw(time, lat, lon) ;
cvw:long_name = "wet skin fraction" ;
cvw:units = "fraction" ;
float tslnew(time, lat, lon) ;
tslnew:long_name = "land surface temperature for sensible heat flux" ;
tslnew:units = "K" ;
float srfl_physc(time, lat, lon) ;
srfl_physc:long_name = "solar surface flux" ;
srfl_physc:units = "W m-2" ;
float ahfsi(time, lat, lon) ;
ahfsi:long_name = "sensible heat flux over ice" ;
ahfsi:units = "W m-2" ;
float ahfsw(time, lat, lon) ;
ahfsw:long_name = "sensible heat flux over water" ;
ahfsw:units = "W m-2" ;
float evapi(time, lat, lon) ;
evapi:long_name = "evaporation over ice" ;
evapi:units = "" ;
float cvsi(time, lat, lon) ;
cvsi:long_name = "snow cover ice" ;
cvsi:units = "fraction" ;
float decomp_gp_jp(time, lat, lon) ;
decomp_gp_jp:long_name = "vector index (1...nproma)" ;
float decomp_gp_jr(time, lat, lon) ;
decomp_gp_jr:long_name = "vector index (1...ngpblks)" ;
float decomp_gp_pe(time, lat, lon) ;
decomp_gp_pe:long_name = "processor number" ;
float coslon(time, lat, lon) ;
coslon:long_name = "cos(longitude)" ;
float sinlon(time, lat, lon) ;
sinlon:long_name = "sin(longitude)" ;
float coslat(time, lat, lon) ;
coslat:long_name = "cos(latitude)" ;
float sinlat(time, lat, lon) ;
sinlat:long_name = "sin(latitude)" ;
float gboxarea(time, lat, lon) ;
gboxarea:REFERENCE_TO = "geoloc: gboxarea" ;
gboxarea:long_name = "grid box area" ;
gboxarea:units = "m2" ;
float um1(time, lev, lat, lon) ;
um1:REFERENCE_TO = "g2a: um1" ;
um1:long_name = "um1 * cos(lat)" ;
um1:units = "m s-1" ;
um1:positive = "eastward" ;
float vm1(time, lev, lat, lon) ;
vm1:REFERENCE_TO = "g2a: vm1" ;
vm1:long_name = "vm1 * cos(lat)" ;
vm1:units = "m s-1" ;
vm1:positive = "northward" ;
float press(time, lev, lat, lon) ;
press:long_name = "pressure" ;
press:units = "Pa" ;
float tpot(time, lev, lat, lon) ;
tpot:long_name = "potential temperature" ;
tpot:units = "K" ;
float rinum(time, lev, lat, lon) ;
rinum:long_name = "bulk Richardson number" ;
rinum:units = "-" ;
float tm1(time, lev, lat, lon) ;
tm1:long_name = "dry air temperature (tm1)" ;
tm1:units = "K" ;
float tte(time, lev, lat, lon) ;
tte:REFERENCE_TO = "scnbuf: tte" ;
tte:long_name = "dry air temperature tendency (tte)" ;
tte:units = "K s-1" ;
float geopot(time, lev, lat, lon) ;
geopot:long_name = "geopotential" ;
geopot:units = "m2 s-2" ;
float qm1(time, lev, lat, lon) ;
qm1:long_name = "specific humidity (qm1)" ;
qm1:units = "kg kg-1" ;
float qte(time, lev, lat, lon) ;
qte:REFERENCE_TO = "scnbuf: qte" ;
qte:long_name = "specific humidity tendency (qte)" ;
qte:units = "kg kg-1 s-1" ;
float xlm1(time, lev, lat, lon) ;
xlm1:long_name = "cloud water (xlm1)" ;
xlm1:units = "kg kg-1" ;
float xlte(time, lev, lat, lon) ;
xlte:REFERENCE_TO = "scnbuf: xlte" ;
xlte:long_name = "cloud water tendency (xlte)" ;
xlte:units = "kg kg-1 s-1" ;
float xim1(time, lev, lat, lon) ;
xim1:long_name = "cloud ice (xim1)" ;
xim1:units = "kg kg-1" ;
float xite(time, lev, lat, lon) ;
xite:REFERENCE_TO = "scnbuf: xite" ;
xite:long_name = "cloud ice tendency (xite)" ;
xite:units = "kg kg-1 s-1" ;
float grmass(time, lev, lat, lon) ;
grmass:long_name = "grid mass" ;
grmass:units = "kg" ;
float grmassdry(time, lev, lat, lon) ;
grmassdry:long_name = "mass of dry air" ;
grmassdry:units = "kg" ;
float grvol(time, lev, lat, lon) ;
grvol:long_name = "grid volume" ;
grvol:units = "m3" ;
float tvirt(time, lev, lat, lon) ;
tvirt:long_name = "virtual temperature" ;
tvirt:units = "degC" ;
float rhum(time, lev, lat, lon) ;
rhum:long_name = "relative humidity" ;
rhum:units = "%" ;
float rho_air_dry(time, lev, lat, lon) ;
rho_air_dry:long_name = "density of dry air" ;
rho_air_dry:units = "kg/m^3" ;
float pressi(time, ilev, lat, lon) ;
pressi:long_name = "interface pressure" ;
pressi:units = "Pa" ;
float geopoti(time, ilev, lat, lon) ;
geopoti:long_name = "interface geopotential" ;
geopoti:units = "m2 s-2" ;
float etadot(time, ilev, lat, lon) ;
etadot:long_name = "vertical wind velocity" ;
etadot:units = "1 s-1" ;
float sigmadot(time, ilev, lat, lon) ;
sigmadot:long_name = "vertical wind velocity in sigma vertical coordinate" ;
sigmadot:units = "1 s-1" ;
float aps(time, lat, lon) ;
aps:long_name = "surface pressure" ;
aps:units = "Pa" ;
aps:representation = "GP_2D_HORIZONTAL" ;
aps:grid_type = "gaussian" ;
aps:table = 128 ;
aps:code = 134 ;
aps: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-07" ;
: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 = "20140619 092221" ;
:operating_system = "AIX 1 on 00C83DF24C00" ;
: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 = "ECHAM5" ;
:channel_file_type = "output" ;
:channel_file_name = "RC1SD-base-07__19790101_0200_ECHAM5.nc" ;
:channel_netcdf_lib = "\"3.6.3\" of Apr 23 2009 17:24:40 $" ;
:history = "Fri Jun 20 10:06:00 2014: ncrcat --overwrite ./RC1SD-base-07__19790101_0200_ECHAM5.nc /work/id0853/b302019/RC1SD-base-07/./ECHAM5/RC1SD-base-07__197901_ECHAM5.nc" ;
:nco_openmp_thread_number = 1 ;
}