netcdf b30.040b.ES01.cam2.h0.2000 {
dimensions:
lat = 128 ;
lon = 256 ;
lev = 26 ;
ilev = 27 ;
isccp_prs = 7 ;
isccp_tau = 7 ;
isccp_prstau = 49 ;
time = UNLIMITED ; // (1 currently)
tbnd = 2 ;
variables:
double P0 ;
P0:long_name = "reference pressure" ;
P0:units = "Pa" ;
double lat(lat) ;
lat:long_name = "latitude" ;
lat:units = "degrees_north" ;
double lon(lon) ;
lon:long_name = "longitude" ;
lon:units = "degrees_east" ;
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 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 isccp_prs(isccp_prs) ;
isccp_prs:long_name = "Mean ISCCP pressure" ;
isccp_prs:units = "mb" ;
isccp_prs:isccp_prs_bnds = 0., 180., 310., 440., 560., 680., 800., 1000. ;
double isccp_tau(isccp_tau) ;
isccp_tau:long_name = "Mean ISCCP optical depth" ;
isccp_tau:units = "unitless" ;
isccp_tau:isccp_tau_bnds = 0., 0.3, 1.3, 3.6, 9.4, 23., 60., 379. ;
double isccp_prstau(isccp_prstau) ;
isccp_prstau:long_name = "Mean pressure (mb).mean optical depth (unitless)/1000" ;
isccp_prstau:units = "mixed" ;
double time(time) ;
time:long_name = "time" ;
time:units = "days since 1870-01-01 00:00:00" ;
time:calendar = "noleap" ;
time:bounds = "time_bnds" ;
double time_bnds(time, tbnd) ;
time_bnds:long_name = "time interval endpoints" ;
int ntrm ;
ntrm:long_name = "spectral truncation parameter M" ;
int ntrn ;
ntrn:long_name = "spectral truncation parameter N" ;
int ntrk ;
ntrk:long_name = "spectral truncation parameter K" ;
int ndbase ;
ndbase:long_name = "base day" ;
int nsbase ;
nsbase:long_name = "seconds of base day" ;
int nbdate ;
nbdate:long_name = "base date (YYYYMMDD)" ;
int nbsec ;
nbsec:long_name = "seconds of base date" ;
int mdt ;
mdt:long_name = "timestep" ;
mdt:units = "s" ;
int nlon(lat) ;
nlon:long_name = "number of longitudes" ;
int wnummax(lat) ;
wnummax:long_name = "cutoff Fourier wavenumber" ;
double hyai(ilev) ;
hyai:long_name = "hybrid A coefficient at layer interfaces" ;
double hybi(ilev) ;
hybi:long_name = "hybrid B coefficient at layer interfaces" ;
double hyam(lev) ;
hyam:long_name = "hybrid A coefficient at layer midpoints" ;
double hybm(lev) ;
hybm:long_name = "hybrid B coefficient at layer midpoints" ;
double gw(lat) ;
gw:long_name = "gauss weights" ;
int ndcur(time) ;
ndcur:long_name = "current day (from base day)" ;
int nscur(time) ;
nscur:long_name = "current seconds of current day" ;
int date(time) ;
date:long_name = "current date (YYYYMMDD)" ;
int datesec(time) ;
datesec:long_name = "current seconds of current date" ;
int nsteph(time) ;
nsteph:long_name = "current timestep" ;
float AEROD_v(time, lat, lon) ;
AEROD_v:units = "None" ;
AEROD_v:long_name = "Total Aerosol Optical Depth in visible" ;
AEROD_v:cell_method = "time: mean" ;
float CAROD_v(time, lat, lon) ;
CAROD_v:units = "None" ;
CAROD_v:long_name = "Carbon Optical Depth in visible" ;
CAROD_v:cell_method = "time: mean" ;
float CFC11(time, lev, lat, lon) ;
CFC11:units = "kg/kg" ;
CFC11:long_name = "CFC11" ;
CFC11:cell_method = "time: mean" ;
float CFC12(time, lev, lat, lon) ;
CFC12:units = "kg/kg" ;
CFC12:long_name = "CFC12" ;
CFC12:cell_method = "time: mean" ;
float CH4(time, lev, lat, lon) ;
CH4:units = "kg/kg" ;
CH4:long_name = "Methane" ;
CH4:cell_method = "time: mean" ;
float CLDHGH(time, lat, lon) ;
CLDHGH:units = "fraction" ;
CLDHGH:long_name = "Vertically-integrated high cloud" ;
CLDHGH:cell_method = "time: mean" ;
float CLDICE(time, lev, lat, lon) ;
CLDICE:units = "kg/kg" ;
CLDICE:long_name = "Grid box averaged ice condensate amount" ;
CLDICE:cell_method = "time: mean" ;
float CLDLIQ(time, lev, lat, lon) ;
CLDLIQ:units = "kg/kg" ;
CLDLIQ:long_name = "Grid box averaged liquid condensate amount" ;
CLDLIQ:cell_method = "time: mean" ;
float CLDLOW(time, lat, lon) ;
CLDLOW:units = "fraction" ;
CLDLOW:long_name = "Vertically-integrated low cloud" ;
CLDLOW:cell_method = "time: mean" ;
float CLDMED(time, lat, lon) ;
CLDMED:units = "fraction" ;
CLDMED:long_name = "Vertically-integrated mid-level cloud" ;
CLDMED:cell_method = "time: mean" ;
float CLDTOT(time, lat, lon) ;
CLDTOT:units = "fraction" ;
CLDTOT:long_name = "Vertically-integrated total cloud" ;
CLDTOT:cell_method = "time: mean" ;
float CLOUD(time, lev, lat, lon) ;
CLOUD:units = "fraction" ;
CLOUD:long_name = "Cloud fraction" ;
CLOUD:cell_method = "time: mean" ;
float CMFDQ(time, lev, lat, lon) ;
CMFDQ:units = "kg/kg/s" ;
CMFDQ:long_name = "Q tendency - Hack convection" ;
CMFDQ:cell_method = "time: mean" ;
float CMFDQR(time, lev, lat, lon) ;
CMFDQR:units = "kg/kg/s" ;
CMFDQR:long_name = "Q tendency - shallow convection rainout" ;
CMFDQR:cell_method = "time: mean" ;
float CMFDT(time, lev, lat, lon) ;
CMFDT:units = "K/s" ;
CMFDT:long_name = "T tendency - Hack convection" ;
CMFDT:cell_method = "time: mean" ;
float CMFMC(time, ilev, lat, lon) ;
CMFMC:units = "kg/m2/s" ;
CMFMC:long_name = "Moist convection mass flux" ;
CMFMC:cell_method = "time: mean" ;
float CONCLD(time, lev, lat, lon) ;
CONCLD:units = "fraction" ;
CONCLD:long_name = "Convective cloud cover" ;
CONCLD:cell_method = "time: mean" ;
float DCQ(time, lev, lat, lon) ;
DCQ:units = "kg/kg/s" ;
DCQ:long_name = "Q tendency due to moist processes" ;
DCQ:cell_method = "time: mean" ;
float DMS(time, lev, lat, lon) ;
DMS:units = "kg/kg" ;
DMS:long_name = "DMS" ;
DMS:cell_method = "time: mean" ;
float DTCOND(time, lev, lat, lon) ;
DTCOND:units = "K/s" ;
DTCOND:long_name = "T tendency - moist processes" ;
DTCOND:cell_method = "time: mean" ;
float DTH(time, lev, lat, lon) ;
DTH:units = "K/s" ;
DTH:long_name = "T horizontal diffusive heating" ;
DTH:cell_method = "time: mean" ;
float DTV(time, lev, lat, lon) ;
DTV:units = "K/s" ;
DTV:long_name = "T vertical diffusion" ;
DTV:cell_method = "time: mean" ;
float DUSTOD_v(time, lat, lon) ;
DUSTOD_v:units = "None" ;
DUSTOD_v:long_name = "Dust Optical Depth in visible" ;
DUSTOD_v:cell_method = "time: mean" ;
float FICE(time, lev, lat, lon) ;
FICE:units = "fraction" ;
FICE:long_name = "Fractional ice content within cloud" ;
FICE:cell_method = "time: mean" ;
float FLN200(time, lat, lon) ;
FLN200:units = "W/m2" ;
FLN200:long_name = "Net longwave flux at 200 mb" ;
FLN200:cell_method = "time: mean" ;
float FLN200C(time, lat, lon) ;
FLN200C:units = "W/m2" ;
FLN200C:long_name = "Clearsky net longwave flux at 200 mb" ;
FLN200C:cell_method = "time: mean" ;
float FLNS(time, lat, lon) ;
FLNS:units = "W/m2" ;
FLNS:long_name = "Net longwave flux at surface" ;
FLNS:cell_method = "time: mean" ;
float FLNSC(time, lat, lon) ;
FLNSC:units = "W/m2" ;
FLNSC:long_name = "Clearsky net longwave flux at surface" ;
FLNSC:cell_method = "time: mean" ;
float FLNSOI(time, lat, lon) ;
FLNSOI:units = "W/m2" ;
FLNSOI:long_name = "FLNS over open ocn and ice" ;
FLNSOI:cell_method = "time: mean" ;
float FLNT(time, lat, lon) ;
FLNT:units = "W/m2" ;
FLNT:long_name = "Net longwave flux at top of model" ;
FLNT:cell_method = "time: mean" ;
float FLNTC(time, lat, lon) ;
FLNTC:units = "W/m2" ;
FLNTC:long_name = "Clearsky net longwave flux at top of model" ;
FLNTC:cell_method = "time: mean" ;
float FLUT(time, lat, lon) ;
FLUT:units = "W/m2" ;
FLUT:long_name = "Upwelling longwave flux at top of model" ;
FLUT:cell_method = "time: mean" ;
float FLUTC(time, lat, lon) ;
FLUTC:units = "W/m2" ;
FLUTC:long_name = "Clearsky upwelling longwave flux at top of model" ;
FLUTC:cell_method = "time: mean" ;
float FSDS(time, lat, lon) ;
FSDS:units = "W/m2" ;
FSDS:long_name = "Downwelling solar flux at surface" ;
FSDS:cell_method = "time: mean" ;
float FSDSC(time, lat, lon) ;
FSDSC:units = "W/m2" ;
FSDSC:long_name = "Clearsky downwelling solar flux at surface" ;
FSDSC:cell_method = "time: mean" ;
float FSN200(time, lat, lon) ;
FSN200:units = "W/m2" ;
FSN200:long_name = "Net shortwave flux at 200 mb" ;
FSN200:cell_method = "time: mean" ;
float FSN200C(time, lat, lon) ;
FSN200C:units = "W/m2" ;
FSN200C:long_name = "Clearsky net shortwave flux at 200 mb" ;
FSN200C:cell_method = "time: mean" ;
float FSNS(time, lat, lon) ;
FSNS:units = "W/m2" ;
FSNS:long_name = "Net solar flux at surface" ;
FSNS:cell_method = "time: mean" ;
float FSNSC(time, lat, lon) ;
FSNSC:units = "W/m2" ;
FSNSC:long_name = "Clearsky net solar flux at surface" ;
FSNSC:cell_method = "time: mean" ;
float FSNSOI(time, lat, lon) ;
FSNSOI:units = "W/m2" ;
FSNSOI:long_name = "FSNS over open ocn and ice" ;
FSNSOI:cell_method = "time: mean" ;
float FSNT(time, lat, lon) ;
FSNT:units = "W/m2" ;
FSNT:long_name = "Net solar flux at top of model" ;
FSNT:cell_method = "time: mean" ;
float FSNTC(time, lat, lon) ;
FSNTC:units = "W/m2" ;
FSNTC:long_name = "Clearsky net solar flux at top of model" ;
FSNTC:cell_method = "time: mean" ;
float FSNTOA(time, lat, lon) ;
FSNTOA:units = "W/m2" ;
FSNTOA:long_name = "Net solar flux at top of atmosphere" ;
FSNTOA:cell_method = "time: mean" ;
float FSNTOAC(time, lat, lon) ;
FSNTOAC:units = "W/m2" ;
FSNTOAC:long_name = "Clearsky net solar flux at top of atmosphere" ;
FSNTOAC:cell_method = "time: mean" ;
float GCLDLWP(time, lev, lat, lon) ;
GCLDLWP:units = "gram/m2" ;
GCLDLWP:long_name = "Grid-box cloud water path" ;
GCLDLWP:cell_method = "time: mean" ;
float ICEFRAC(time, lat, lon) ;
ICEFRAC:units = "fraction" ;
ICEFRAC:long_name = "Fraction of sfc area covered by sea-ice" ;
ICEFRAC:cell_method = "time: mean" ;
float ICLDLWP(time, lev, lat, lon) ;
ICLDLWP:units = "gram/m2" ;
ICLDLWP:long_name = "In-cloud cloud water path" ;
ICLDLWP:cell_method = "time: mean" ;
float LANDFRAC(time, lat, lon) ;
LANDFRAC:units = "fraction" ;
LANDFRAC:long_name = "Fraction of sfc area covered by land" ;
LANDFRAC:cell_method = "time: mean" ;
float LHFLX(time, lat, lon) ;
LHFLX:units = "W/m2" ;
LHFLX:long_name = "Surface latent heat flux" ;
LHFLX:cell_method = "time: mean" ;
float LWCF(time, lat, lon) ;
LWCF:units = "W/m2" ;
LWCF:long_name = "Longwave cloud forcing" ;
LWCF:cell_method = "time: mean" ;
float N2O(time, lev, lat, lon) ;
N2O:units = "kg/kg" ;
N2O:long_name = "Nitrous Oxide" ;
N2O:cell_method = "time: mean" ;
float O3(time, lev, lat, lon) ;
O3:units = "mol/mol" ;
O3:long_name = "Ozone" ;
O3:cell_method = "time: mean" ;
float OCNFRAC(time, lat, lon) ;
OCNFRAC:units = "fraction" ;
OCNFRAC:long_name = "Fraction of sfc area covered by ocean" ;
OCNFRAC:cell_method = "time: mean" ;
float OMEGA(time, lev, lat, lon) ;
OMEGA:units = "Pa/s" ;
OMEGA:long_name = "Vertical velocity (pressure)" ;
OMEGA:cell_method = "time: mean" ;
float OMEGAT(time, lev, lat, lon) ;
OMEGAT:units = "K Pa/s" ;
OMEGAT:long_name = "Vertical heat flux" ;
OMEGAT:cell_method = "time: mean" ;
float PBLH(time, lat, lon) ;
PBLH:units = "m" ;
PBLH:long_name = "PBL height" ;
PBLH:cell_method = "time: mean" ;
float PHIS(time, lat, lon) ;
PHIS:units = "m2/s2" ;
PHIS:long_name = "Surface geopotential" ;
PHIS:cell_method = "time: mean" ;
float PRECC(time, lat, lon) ;
PRECC:units = "m/s" ;
PRECC:long_name = "Convective precipitation rate" ;
PRECC:cell_method = "time: mean" ;
float PRECL(time, lat, lon) ;
PRECL:units = "m/s" ;
PRECL:long_name = "Large-scale (stable) precipitation rate" ;
PRECL:cell_method = "time: mean" ;
float PRECSC(time, lat, lon) ;
PRECSC:units = "m/s" ;
PRECSC:long_name = "Convective snow rate (water equivalent)" ;
PRECSC:cell_method = "time: mean" ;
float PRECSH(time, lat, lon) ;
PRECSH:units = "m/s" ;
PRECSH:long_name = "Shallow Convection precipitation rate" ;
PRECSH:cell_method = "time: mean" ;
float PRECSL(time, lat, lon) ;
PRECSL:units = "m/s" ;
PRECSL:long_name = "Large-scale (stable) snow rate (water equivalent)" ;
PRECSL:cell_method = "time: mean" ;
float PRECTMX(time, lat, lon) ;
PRECTMX:units = "m/s" ;
PRECTMX:long_name = "Maximum (convective and large-scale) precipitation rate" ;
PRECTMX:cell_method = "time: mean" ;
float PS(time, lat, lon) ;
PS:units = "Pa" ;
PS:long_name = "Surface pressure" ;
PS:cell_method = "time: mean" ;
float PSL(time, lat, lon) ;
PSL:units = "Pa" ;
PSL:long_name = "Sea level pressure" ;
PSL:cell_method = "time: mean" ;
float Q(time, lev, lat, lon) ;
Q:units = "kg/kg" ;
Q:long_name = "Specific humidity" ;
Q:cell_method = "time: mean" ;
float QC(time, lev, lat, lon) ;
QC:units = "kg/kg/s" ;
QC:long_name = "Q tendency - shallow convection LW export" ;
QC:cell_method = "time: mean" ;
float QFLX(time, lat, lon) ;
QFLX:units = "kg/m2/s" ;
QFLX:long_name = "Surface water flux" ;
QFLX:cell_method = "time: mean" ;
float QREFHT(time, lat, lon) ;
QREFHT:units = "kg/kg" ;
QREFHT:long_name = "Reference height humidity" ;
QREFHT:cell_method = "time: mean" ;
float QRL(time, lev, lat, lon) ;
QRL:units = "K/s" ;
QRL:long_name = "Longwave heating rate" ;
QRL:cell_method = "time: mean" ;
float QRS(time, lev, lat, lon) ;
QRS:units = "K/s" ;
QRS:long_name = "Solar heating rate" ;
QRS:cell_method = "time: mean" ;
float RELHUM(time, lev, lat, lon) ;
RELHUM:units = "percent" ;
RELHUM:long_name = "Relative humidity" ;
RELHUM:cell_method = "time: mean" ;
float SHFLX(time, lat, lon) ;
SHFLX:units = "W/m2" ;
SHFLX:long_name = "Surface sensible heat flux" ;
SHFLX:cell_method = "time: mean" ;
float SNOWHLND(time, lat, lon) ;
SNOWHLND:units = "m" ;
SNOWHLND:long_name = "Water equivalent snow depth" ;
SNOWHLND:cell_method = "time: mean" ;
float SO4(time, lev, lat, lon) ;
SO4:units = "kg/kg" ;
SO4:long_name = "SO4" ;
SO4:cell_method = "time: mean" ;
float SOLIN(time, lat, lon) ;
SOLIN:units = "W/m2" ;
SOLIN:long_name = "Solar insolation" ;
SOLIN:cell_method = "time: mean" ;
float SRFRAD(time, lat, lon) ;
SRFRAD:units = "W/m2" ;
SRFRAD:long_name = "Net radiative flux at surface" ;
SRFRAD:cell_method = "time: mean" ;
float SSLTOD_v(time, lat, lon) ;
SSLTOD_v:units = "None" ;
SSLTOD_v:long_name = "Sea Salt Optical Depth in visible" ;
SSLTOD_v:cell_method = "time: mean" ;
float SULOD_v(time, lat, lon) ;
SULOD_v:units = "None" ;
SULOD_v:long_name = "Sulfate Optical Depth in visible" ;
SULOD_v:cell_method = "time: mean" ;
float SWCF(time, lat, lon) ;
SWCF:units = "W/m2" ;
SWCF:long_name = "Shortwave cloud forcing" ;
SWCF:cell_method = "time: mean" ;
float T(time, lev, lat, lon) ;
T:units = "K" ;
T:long_name = "Temperature" ;
T:cell_method = "time: mean" ;
float TAUX(time, lat, lon) ;
TAUX:units = "N/m2" ;
TAUX:long_name = "Zonal surface stress" ;
TAUX:cell_method = "time: mean" ;
float TAUY(time, lat, lon) ;
TAUY:units = "N/m2" ;
TAUY:long_name = "Meridional surface stress" ;
TAUY:cell_method = "time: mean" ;
float TGCLDIWP(time, lat, lon) ;
TGCLDIWP:units = "gram/m2" ;
TGCLDIWP:long_name = "Total grid-box cloud ice water path" ;
TGCLDIWP:cell_method = "time: mean" ;
float TGCLDLWP(time, lat, lon) ;
TGCLDLWP:units = "gram/m2" ;
TGCLDLWP:long_name = "Total grid-box cloud liquid water path" ;
TGCLDLWP:cell_method = "time: mean" ;
float TMQ(time, lat, lon) ;
TMQ:units = "kg/m2" ;
TMQ:long_name = "Total (vertically integrated) precipitatable water" ;
TMQ:cell_method = "time: mean" ;
float TREFHT(time, lat, lon) ;
TREFHT:units = "K" ;
TREFHT:long_name = "Reference height temperature" ;
TREFHT:cell_method = "time: mean" ;
float TREFMNAV(time, lat, lon) ;
TREFMNAV:units = "K" ;
TREFMNAV:long_name = "Average of TREFHT daily minimum" ;
TREFMNAV:cell_method = "time: mean" ;
float TREFMXAV(time, lat, lon) ;
TREFMXAV:units = "K" ;
TREFMXAV:long_name = "Average of TREFHT daily maximum" ;
TREFMXAV:cell_method = "time: mean" ;
float TS(time, lat, lon) ;
TS:units = "K" ;
TS:long_name = "Surface temperature (radiative)" ;
TS:cell_method = "time: mean" ;
float TSMN(time, lat, lon) ;
TSMN:units = "K" ;
TSMN:long_name = "Minimum surface temperature over output period" ;
TSMN:cell_method = "time: mean" ;
float TSMX(time, lat, lon) ;
TSMX:units = "K" ;
TSMX:long_name = "Maximum surface temperature over output period" ;
TSMX:cell_method = "time: mean" ;
float U(time, lev, lat, lon) ;
U:units = "m/s" ;
U:long_name = "Zonal wind" ;
U:cell_method = "time: mean" ;
float UU(time, lev, lat, lon) ;
UU:units = "m2/s2" ;
UU:long_name = "Zonal velocity squared" ;
UU:cell_method = "time: mean" ;
float V(time, lev, lat, lon) ;
V:units = "m/s" ;
V:long_name = "Meridional wind" ;
V:cell_method = "time: mean" ;
float VD01(time, lev, lat, lon) ;
VD01:units = "kg/kg/s" ;
VD01:long_name = "Vertical diffusion of Q" ;
VD01:cell_method = "time: mean" ;
float VOLCOD_v(time, lat, lon) ;
VOLCOD_v:units = "None" ;
VOLCOD_v:long_name = "Volcanic Aerosol Optical Depth in visible" ;
VOLCOD_v:cell_method = "time: mean" ;
float VQ(time, lev, lat, lon) ;
VQ:units = "m/skg/kg" ;
VQ:long_name = "Meridional water transport" ;
VQ:cell_method = "time: mean" ;
float VT(time, lev, lat, lon) ;
VT:units = "K m/s" ;
VT:long_name = "Meridional heat transport" ;
VT:cell_method = "time: mean" ;
float VU(time, lev, lat, lon) ;
VU:units = "m2/s2" ;
VU:long_name = "Meridional flux of zonal momentum" ;
VU:cell_method = "time: mean" ;
float VV(time, lev, lat, lon) ;
VV:units = "m2/s2" ;
VV:long_name = "Meridional velocity squared" ;
VV:cell_method = "time: mean" ;
float Z3(time, lev, lat, lon) ;
Z3:units = "m" ;
Z3:long_name = "Geopotential Height (above sea level)" ;
Z3:cell_method = "time: mean" ;
float frc_day(time, lat, lon) ;
frc_day:units = "None" ;
frc_day:long_name = "Portion of time column is lit" ;
frc_day:cell_method = "time: mean" ;
// global attributes:
:Conventions = "CF-1.0" ;
:source = "CAM" ;
:case = "b30.040b.ES01" ;
:title = "b30.040b.ES01 T85_gx1v3 FUTURE_A1 from b30.030b.ES01 year 2000-01-01" ;
:logname = "d0301" ;
:host = "" ;
:Version = "$Name: ccsm3_0_vector06 $" ;
:revision_Id = "$Id: history.F90,v 1.26.2.40.2.2 2004/02/26 18:14:03 eaton Exp $" ;
:history = "Sun Dec 19 07:58:13 2004: ncra -x -v date_written,time_written ./mdps/b30.040b.ES01.cam2.h0.2000-01.nc ./mdps/b30.040b.ES01.cam2.h0.2000-02.nc ./mdps/b30.040b.ES01.cam2.h0.2000-03.nc ./mdps/b30.040b.ES01.cam2.h0.2000-04.nc ./mdps/b30.040b.ES01.cam2.h0.2000-05.nc ./mdps/b30.040b.ES01.cam2.h0.2000-06.nc ./mdps/b30.040b.ES01.cam2.h0.2000-07.nc ./mdps/b30.040b.ES01.cam2.h0.2000-08.nc ./mdps/b30.040b.ES01.cam2.h0.2000-09.nc ./mdps/b30.040b.ES01.cam2.h0.2000-10.nc ./mdps/b30.040b.ES01.cam2.h0.2000-11.nc ./mdps/b30.040b.ES01.cam2.h0.2000-12.nc ./hist/b30.040b.ES01.cam2.h0.2000.nc" ;