netcdf CXEU11IPIMr4000000WFXorog_1_848633450710896368 {
dimensions:
rlat = 412 ;
rlon = 424 ;
vertices = 4 ;
variables:
double lat(rlat, rlon) ;
lat:bounds = "lat_vertices" ;
lat:long_name = "latitude coordinate" ;
lat:standard_name = "latitude" ;
lat:units = "degrees_north" ;
double lat_vertices(rlat, rlon, vertices) ;
lat_vertices:units = "degrees_north" ;
double lon(rlat, rlon) ;
lon:bounds = "lon_vertices" ;
lon:long_name = "longitude coordinate" ;
lon:standard_name = "longitude" ;
lon:units = "degrees_east" ;
double lon_vertices(rlat, rlon, vertices) ;
lon_vertices:units = "degrees_east" ;
double rlat(rlat) ;
rlat:units = "degrees" ;
rlat:axis = "Y" ;
rlat:long_name = "latitude in rotated pole grid" ;
rlat:standard_name = "grid_latitude" ;
double rlon(rlon) ;
rlon:units = "degrees" ;
rlon:axis = "X" ;
rlon:long_name = "longitude in rotated pole grid" ;
rlon:standard_name = "grid_longitude" ;
float orog(rlat, rlon) ;
orog:standard_name = "surface_altitude" ;
orog:long_name = "Surface Altitude" ;
orog:comment = "height above the geoid; as defined here, \"\"the geoid\"\" is a surface of constant geopotential that, if the ocean were at rest, would coincide with mean sea level. Under this definition, the geoid changes as the mean volume of the ocean changes (e.g., due to glacial melt, or global warming of the ocean). Report here the height above the present-day geoid. Over ocean, report as 0.0" ;
orog:units = "m" ;
orog:original_name = "HGT_M" ;
orog:cell_measures = "area: areacella" ;
orog:missing_value = 1.e+20f ;
orog:_FillValue = 1.e+20f ;
orog:history = "2014-05-06T14:03:42Z altered by CMOR: Converted type from \'d\' to \'f\'." ;
orog:associated_files = "gridspecFile: gridspec_atmos_fx_IPSL-INERIS-WRF331F_rcp45_r0i0p0.nc areacella: areacella_fx_IPSL-INERIS-WRF331F_rcp45_r0i0p0.nc" ;
orog:grid_mapping = "rotated_latitude_longitude" ;
orog:coordinates = "lat lon" ;
int rotated_pole ;
rotated_pole:grid_mapping_name = "rotated_latitude_longitude" ;
rotated_pole:grid_north_pole_latitude = 39.25 ;
rotated_pole:grid_north_pole_longitude = -162. ;
// global attributes:
:CORDEX_domain = "EUR-11" ;
:driving_experiment = "IPSL-IPSL-CM5A-MR, rcp45, r1i1p1" ;
:driving_model_id = "IPSL-IPSL-CM5A-MR" ;
:driving_model_ensemble_member = "r1i1p1" ;
:driving_experiment_name = "rcp45" ;
:rcm_version_id = "v1" ;
:institution = "IPSL (Institut Pierre Simon Laplace) and INERIS (Institut National de l Environnement industriel et des RISques)" ;
:institute_id = "IPSL-INERIS" ;
:experiment_id = "rcp45" ;
:source = "WRF 3.3.1 F" ;
:model_id = "IPSL-INERIS-WRF331F" ;
:forcing = "N/A" ;
:contact = " robert.vautard@
nulllsce.ipsl.fr
Data manager : Robert Vautard - Thomas Noel" ;
:comment = "be careful : time: mean (interval: 3 hours)" ;
:references = "Vautard, R. et al., 2012 : The simulation of European heat waves from an ensemble of 1 regional climate models within the EURO-CORDEX project. Climate Dynamics, doi:10.1007/s00382-01-1714-z Jacob, D. et al., 2013, EURO-CORDEX: New high-resolution climate change projections for European impact research, Regional Environmental change, doi:10.1007/s10113-013-0499-2" ;
:initialization_method = 0 ;
:physics_version = 0 ;
:tracking_id = "b1b373e6-e536-4815-961b-a3d584a4ccc8" ;
:product = "output" ;
:experiment = "RCP4.5" ;
:frequency = "fx" ;
:creation_date = "2014-05-06T14:03:42Z" ;
:history = "2014-05-06T14:03:42Z CMOR rewrote data to comply with CF standards and CORDEX requirements." ;
:Conventions = "CF-1.4" ;
:project_id = "CORDEX" ;
:table_id = "Table fx (Sept 2013) 5eabf12e1a78bb8153c03b023a311691" ;
:title = "IPSL-INERIS-WRF331F model output prepared for CORDEX RCP4.5" ;
:modeling_realm = "atmos" ;
:realization = 0 ;
:cmor_version = "2.7.1" ;
}