Monthly averaged in-cloud coronas extracted from present-day (2000-2009) and projected (2091-2095) EMAC simulations (T42L90MA resolution)
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https://zenodo.org/record/7940216
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About Dataset
Unscaled monthly averaged in-cloud corona data extracted from present-day (2000-2010) and projected (2090-2095) EMAC simulations (T42L90MA resolution). Authors: Sergio Soler, Francisco J. Gordillo-Vazquez, Francisco J. Perez-Invernon, Patrick Jöckel, Torsten Neubert, Víctor Reglero, Nikolau Ostgaard.
Example:
netcdf BLUEs_10y_2l___20000201_0000_bluesbcl__\ _gp {dimensions: time = UNLIMITED ; // (1 currently) lon = 128 ; lat = 64 ; lev = 90 ; tbnds = 2 ;variables: double time(time) ; time:long_name = "time" ; time:bounds = "time_bnds" ; time:units = "day since 2000-01-01 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 bps(time, lat, lon) ; bps:long_name = "BJ flash frequency" ; bps:units = "1/s" ; bps:coordinates = "lon lat" ; bps:cell_methods = "time: point" ; float bps_ave(time, lat, lon) ; bps_ave:long_name = "BJ flash frequency" ; bps_ave:units = "1/s" ; bps_ave:coordinates = "lon lat" ; bps_ave:cell_methods = "time: mean" ; float bps_std(time, lat, lon) ; bps_std:long_name = "BJ flash frequency" ; bps_std:units = "1/s" ; bps_std:coordinates = "lon lat" ; bps_std:cell_methods = "time: standard_deviation" ; float bpsm2(time, lat, lon) ; bpsm2:long_name = "BJ flash density" ; bpsm2:units = "1/s/m2" ; bpsm2:coordinates = "lon lat" ; bpsm2:cell_methods = "time: point" ; float bpsm2_ave(time, lat, lon) ; bpsm2_ave:long_name = "BJ flash density" ; bpsm2_ave:units = "1/s/m2" ; bpsm2_ave:coordinates = "lon lat" ; bpsm2_ave:cell_methods = "time: mean" ; float bpsm2_std(time, lat, lon) ; bpsm2_std:long_name = "BJ flash density" ; bpsm2_std:units = "1/s/m2" ; bpsm2_std:coordinates = "lon lat" ; bpsm2_std:cell_methods = "time: standard_deviation" ; float npcanz(time, lat, lon) ; npcanz:long_name = "no. of BLUEs events" ; npcanz:units = "" ; npcanz:coordinates = "lon lat" ; npcanz:cell_methods = "time: point" ; float npcanz_ave(time, lat, lon) ; npcanz_ave:long_name = "no. of BLUEs events" ; npcanz_ave:units = "" ; npcanz_ave:coordinates = "lon lat" ; npcanz_ave:cell_methods = "time: mean" ; float npcanz_std(time, lat, lon) ; npcanz_std:long_name = "no. of BLUEs events" ; npcanz_std:units = "" ; npcanz_std:coordinates = "lon lat" ; npcanz_std:cell_methods = "time: standard_deviation" ; float N2Obj(time, lat, lon) ; N2Obj:long_name = "BJ N2O blue emission" ; N2Obj:units = "kg(N)" ; N2Obj:coordinates = "lon lat" ; N2Obj:cell_methods = "time: point" ; float N2Obj_ave(time, lat, lon) ; N2Obj_ave:long_name = "BJ N2O blue emission" ; N2Obj_ave:units = "kg(N)" ; N2Obj_ave:coordinates = "lon lat" ; N2Obj_ave:cell_methods = "time: mean" ; float N2Obj_std(time, lat, lon) ; N2Obj_std:long_name = "BJ N2O blue emission" ; N2Obj_std:units = "kg(N)" ; N2Obj_std:coordinates = "lon lat" ; N2Obj_std:cell_methods = "time: standard_deviation" ; float NObj(time, lat, lon) ; NObj:long_name = "BJ NO blue emission" ; NObj:units = "kg(N)" ; NObj:coordinates = "lon lat" ; NObj:cell_methods = "time: point" ; float NObj_ave(time, lat, lon) ; NObj_ave:long_name = "BJ NO blue emission" ; NObj_ave:units = "kg(N)" ; NObj_ave:coordinates = "lon lat" ; NObj_ave:cell_methods = "time: mean" ; float NObj_std(time, lat, lon) ; NObj_std:long_name = "BJ NO blue emission" ; NObj_std:units = "kg(N)" ; NObj_std:coordinates = "lon lat" ; NObj_std:cell_methods = "time: standard_deviation" ; float NO2bj(time, lat, lon) ; NO2bj:long_name = "BJ NO2 blue emission" ; NO2bj:units = "kg(N)" ; NO2bj:coordinates = "lon lat" ; NO2bj:cell_methods = "time: point" ; float NO2bj_ave(time, lat, lon) ; NO2bj_ave:long_name = "BJ NO2 blue emission" ; NO2bj_ave:units = "kg(N)" ; NO2bj_ave:coordinates = "lon lat" ; NO2bj_ave:cell_methods = "time: mean" ; float NO2bj_std(time, lat, lon) ; NO2bj_std:long_name = "BJ NO2 blue emission" ; NO2bj_std:units = "kg(N)" ; NO2bj_std:coordinates = "lon lat" ; NO2bj_std:cell_methods = "time: standard_deviation" ; float OHbj(time, lat, lon) ; OHbj:long_name = "BJ OH blue emission" ; OHbj:units = "kg(N)" ; OHbj:coordinates = "lon lat" ; OHbj:cell_methods = "time: point" ; float OHbj_ave(time, lat, lon) ; OHbj_ave:long_name = "BJ OH blue emission" ; OHbj_ave:units = "kg(N)" ; OHbj_ave:coordinates = "lon lat" ; OHbj_ave:cell_methods = "time: mean" ; float OHbj_std(time, lat, lon) ; OHbj_std:long_name = "BJ OH blue emission" ; OHbj_std:units = "kg(N)" ; OHbj_std:coordinates = "lon lat" ; OHbj_std:cell_methods = "time: standard_deviation" ; float HO2bj(time, lat, lon) ; HO2bj:long_name = "BJ HO2 blue emission" ; HO2bj:units = "kg(N)" ; HO2bj:coordinates = "lon lat" ; HO2bj:cell_methods = "time: point" ; float HO2bj_ave(time, lat, lon) ; HO2bj_ave:long_name = "BJ HO2 blue emission" ; HO2bj_ave:units = "kg(N)" ; HO2bj_ave:coordinates = "lon lat" ; HO2bj_ave:cell_methods = "time: mean" ; float HO2bj_std(time, lat, lon) ; HO2bj_std:long_name = "BJ HO2 blue emission" ; HO2bj_std:units = "kg(N)" ; HO2bj_std:coordinates = "lon lat" ; HO2bj_std:cell_methods = "time: standard_deviation" ; float O3bj(time, lat, lon) ; O3bj:long_name = "BJ O3 blue emission" ; O3bj:units = "kg(N)" ; O3bj:coordinates = "lon lat" ; O3bj:cell_methods = "time: point" ; float O3bj_ave(time, lat, lon) ; O3bj_ave:long_name = "BJ O3 blue emission" ; O3bj_ave:units = "kg(N)" ; O3bj_ave:coordinates = "lon lat" ; O3bj_ave:cell_methods = "time: mean" ; float O3bj_std(time, lat, lon) ; O3bj_std:long_name = "BJ O3 blue emission" ; O3bj_std:units = "kg(N)" ; O3bj_std:coordinates = "lon lat" ; O3bj_std:cell_methods = "time: standard_deviation" ; float cth(time, lat, lon) ; cth:long_name = "cloud top height" ; cth:units = "m" ; cth:coordinates = "lon lat" ; cth:cell_methods = "time: point" ; float cth_ave(time, lat, lon) ; cth_ave:long_name = "cloud top height" ; cth_ave:units = "m" ; cth_ave:coordinates = "lon lat" ; cth_ave:cell_methods = "time: mean" ; float cth_std(time, lat, lon) ; cth_std:long_name = "cloud top height" ; cth_std:units = "m" ; cth_std:coordinates = "lon lat" ; cth_std:cell_methods = "time: standard_deviation" ; float ctrop(time, lat, lon) ; ctrop:long_name = "tropopause height" ; ctrop:units = "m" ; ctrop:coordinates = "lon lat" ; ctrop:cell_methods = "time: point" ; float ctrop_ave(time, lat, lon) ; ctrop_ave:long_name = "tropopause height" ; ctrop_ave:units = "m" ; ctrop_ave:coordinates = "lon lat" ; ctrop_ave:cell_methods = "time: mean" ; float ctrop_std(time, lat, lon) ; ctrop_std:long_name = "tropopause height" ; ctrop_std:units = "m" ; ctrop_std:coordinates = "lon lat" ; ctrop_std:cell_methods = "time: standard_deviation" ; float cbh(time, lat, lon) ; cbh:long_name = "cloud bottom height" ; cbh:units = "m" ; cbh:coordinates = "lon lat" ; cbh:cell_methods = "time: point" ; float cbh_ave(time, lat, lon) ; cbh_ave:long_name = "cloud bottom height" ; cbh_ave:units = "m" ; cbh_ave:coordinates = "lon lat" ; cbh_ave:cell_methods = "time: mean" ; float cbh_std(time, lat, lon) ; cbh_std:long_name = "cloud bottom height" ; cbh_std:units = "m" ; cbh_std:coordinates = "lon lat" ; cbh_std:cell_methods = "time: standard_deviation" ; float cth_idx(time, lat, lon) ; cth_idx:long_name = "cloud top index" ; cth_idx:units = "" ; cth_idx:coordinates = "lon lat" ; cth_idx:cell_methods = "time: point" ; float cth_idx_ave(time, lat, lon) ; cth_idx_ave:long_name = "cloud top index" ; cth_idx_ave:units = "" ; cth_idx_ave:coordinates = "lon lat" ; cth_idx_ave:cell_methods = "time: mean" ; float cth_idx_std(time, lat, lon) ; cth_idx_std:long_name = "cloud top index" ; cth_idx_std:units = "" ; cth_idx_std:coordinates = "lon lat" ; cth_idx_std:cell_methods = "time: standard_deviation" ; float trop_idx(time, lat, lon) ; trop_idx:long_name = "tropopause index" ; trop_idx:units = "" ; trop_idx:coordinates = "lon lat" ; trop_idx:cell_methods = "time: point" ; float trop_idx_ave(time, lat, lon) ; trop_idx_ave:long_name = "tropopause index" ; trop_idx_ave:units = "" ; trop_idx_ave:coordinates = "lon lat" ; trop_idx_ave:cell_methods = "time: mean" ; float trop_idx_std(time, lat, lon) ; trop_idx_std:long_name = "tropopause index" ; trop_idx_std:units = "" ; trop_idx_std:coordinates = "lon lat" ; trop_idx_std:cell_methods = "time: standard_deviation" ; float xbjn2o(time, lev, lat, lon) ; xbjn2o:long_name = "blue N2O emission" ; xbjn2o:units = "kg(N)/s/m3" ; xbjn2o:coordinates = "lon lat" ; xbjn2o:cell_methods = "time: point" ; float xbjn2o_ave(time, lev, lat, lon) ; xbjn2o_ave:long_name = "blue N2O emission" ; xbjn2o_ave:units = "kg(N)/s/m3" ; xbjn2o_ave:coordinates = "lon lat" ; xbjn2o_ave:cell_methods = "time: mean" ; float xbjn2o_std(time, lev, lat, lon) ; xbjn2o_std:long_name = "blue N2O emission" ; xbjn2o_std:units = "kg(N)/s/m3" ; xbjn2o_std:coordinates = "lon lat" ; xbjn2o_std:cell_methods = "time: standard_deviation" ; float telbjn2o(time, lev, lat, lon) ; telbjn2o:long_name = "blue N2O emission tendency" ; telbjn2o:units = "mol/mol/s" ; telbjn2o:coordinates = "lon lat" ; telbjn2o:cell_methods = "time: point" ; float telbjn2o_ave(time, lev, lat, lon) ; telbjn2o_ave:long_name = "blue N2O emission tendency" ; telbjn2o_ave:units = "mol/mol/s" ; telbjn2o_ave:coordinates = "lon lat" ; telbjn2o_ave:cell_methods = "time: mean" ; float telbjn2o_std(time, lev, lat, lon) ; telbjn2o_std:long_name = "blue N2O emission tendency" ; telbjn2o_std:units = "mol/mol/s" ; telbjn2o_std:coordinates = "lon lat" ; telbjn2o_std:cell_methods = "time: standard_deviation" ; float xbjno(time, lev, lat, lon) ; xbjno:long_name = "blue NO emission" ; xbjno:units = "kg(N)/s/m3" ; xbjno:coordinates = "lon lat" ; xbjno:cell_methods = "time: point" ; float xbjno_ave(time, lev, lat, lon) ; xbjno_ave:long_name = "blue NO emission" ; xbjno_ave:units = "kg(N)/s/m3" ; xbjno_ave:coordinates = "lon lat" ; xbjno_ave:cell_methods = "time: mean" ; float xbjno_std(time, lev, lat, lon) ; xbjno_std:long_name = "blue NO emission" ; xbjno_std:units = "kg(N)/s/m3" ; xbjno_std:coordinates = "lon lat" ; xbjno_std:cell_methods = "time: standard_deviation" ; float telbjno(time, lev, lat, lon) ; telbjno:long_name = "blue NO emission tendency" ; telbjno:units = "mol/mol/s" ; telbjno:coordinates = "lon lat" ; telbjno:cell_methods = "time: point" ; float telbjno_ave(time, lev, lat, lon) ; telbjno_ave:long_name = "blue NO emission tendency" ; telbjno_ave:units = "mol/mol/s" ; telbjno_ave:coordinates = "lon lat" ; telbjno_ave:cell_methods = "time: mean" ; float telbjno_std(time, lev, lat, lon) ; telbjno_std:long_name = "blue NO emission tendency" ; telbjno_std:units = "mol/mol/s" ; telbjno_std:coordinates = "lon lat" ; telbjno_std:cell_methods = "time: standard_deviation" ; float xbjno2(time, lev, lat, lon) ; xbjno2:long_name = "blue no2 emission" ; xbjno2:units = "kg(N)/s/m3" ; xbjno2:coordinates = "lon lat" ; xbjno2:cell_methods = "time: point" ; float xbjno2_ave(time, lev, lat, lon) ; xbjno2_ave:long_name = "blue no2 emission" ; xbjno2_ave:units = "kg(N)/s/m3" ; xbjno2_ave:coordinates = "lon lat" ; xbjno2_ave:cell_methods = "time: mean" ; float xbjno2_std(time, lev, lat, lon) ; xbjno2_std:long_name = "blue no2 emission" ; xbjno2_std:units = "kg(N)/s/m3" ; xbjno2_std:coordinates = "lon lat" ; xbjno2_std:cell_methods = "time: standard_deviation" ; float telbjno2(time, lev, lat, lon) ; telbjno2:long_name = "blue no2 emission tendency" ; telbjno2:units = "mol/mol/s" ; telbjno2:coordinates = "lon lat" ; telbjno2:cell_methods = "time: point" ; float telbjno2_ave(time, lev, lat, lon) ; telbjno2_ave:long_name = "blue no2 emission tendency" ; telbjno2_ave:units = "mol/mol/s" ; telbjno2_ave:coordinates = "lon lat" ; telbjno2_ave:cell_methods = "time: mean" ; float telbjno2_std(time, lev, lat, lon) ; telbjno2_std:long_name = "blue no2 emission tendency" ; telbjno2_std:units = "mol/mol/s" ; telbjno2_std:coordinates = "lon lat" ; telbjno2_std:cell_methods = "time: standard_deviation" ; float xbjoh(time, lev, lat, lon) ; xbjoh:long_name = "blue oh emission" ; xbjoh:units = "kg(N)/s/m3" ; xbjoh:coordinates = "lon lat" ; xbjoh:cell_methods = "time: point" ; float xbjoh_ave(time, lev, lat, lon) ; xbjoh_ave:long_name = "blue oh emission" ; xbjoh_ave:units = "kg(N)/s/m3" ; xbjoh_ave:coordinates = "lon lat" ; xbjoh_ave:cell_methods = "time: mean" ; float xbjoh_std(time, lev, lat, lon) ; xbjoh_std:long_name = "blue oh emission" ; xbjoh_std:units = "kg(N)/s/m3" ; xbjoh_std:coordinates = "lon lat" ; xbjoh_std:cell_methods = "time: standard_deviation" ; float telbjoh(time, lev, lat, lon) ; telbjoh:long_name = "blue oh emission tendency" ; telbjoh:units = "mol/mol/s" ; telbjoh:coordinates = "lon lat" ; telbjoh:cell_methods = "time: point" ; float telbjoh_ave(time, lev, lat, lon) ; telbjoh_ave:long_name = "blue oh emission tendency" ; telbjoh_ave:units = "mol/mol/s" ; telbjoh_ave:coordinates = "lon lat" ; telbjoh_ave:cell_methods = "time: mean" ; float telbjoh_std(time, lev, lat, lon) ; telbjoh_std:long_name = "blue oh emission tendency" ; telbjoh_std:units = "mol/mol/s" ; telbjoh_std:coordinates = "lon lat" ; telbjoh_std:cell_methods = "time: standard_deviation" ; float xbjho2(time, lev, lat, lon) ; xbjho2:long_name = "blue ho2 emission" ; xbjho2:units = "kg(N)/s/m3" ; xbjho2:coordinates = "lon lat" ; xbjho2:cell_methods = "time: point" ; float xbjho2_ave(time, lev, lat, lon) ; xbjho2_ave:long_name = "blue ho2 emission" ; xbjho2_ave:units = "kg(N)/s/m3" ; xbjho2_ave:coordinates = "lon lat" ; xbjho2_ave:cell_methods = "time: mean" ; float xbjho2_std(time, lev, lat, lon) ; xbjho2_std:long_name = "blue ho2 emission" ; xbjho2_std:units = "kg(N)/s/m3" ; xbjho2_std:coordinates = "lon lat" ; xbjho2_std:cell_methods = "time: standard_deviation" ; float telbjho2(time, lev, lat, lon) ; telbjho2:long_name = "blue ho2 emission tendency" ; telbjho2:units = "mol/mol/s" ; telbjho2:coordinates = "lon lat" ; telbjho2:cell_methods = "time: point" ; float telbjho2_ave(time, lev, lat, lon) ; telbjho2_ave:long_name = "blue ho2 emission tendency" ; telbjho2_ave:units = "mol/mol/s" ; telbjho2_ave:coordinates = "lon lat" ; telbjho2_ave:cell_methods = "time: mean" ; float telbjho2_std(time, lev, lat, lon) ; telbjho2_std:long_name = "blue ho2 emission tendency" ; telbjho2_std:units = "mol/mol/s" ; telbjho2_std:coordinates = "lon lat" ; telbjho2_std:cell_methods = "time: standard_deviation" ; float xbjo3(time, lev, lat, lon) ; xbjo3:long_name = "blue o3 emission" ; xbjo3:units = "kg(N)/s/m3" ; xbjo3:coordinates = "lon lat" ; xbjo3:cell_methods = "time: point" ; float xbjo3_ave(time, lev, lat, lon) ; xbjo3_ave:long_name = "blue o3 emission" ; xbjo3_ave:units = "kg(N)/s/m3" ; xbjo3_ave:coordinates = "lon lat" ; xbjo3_ave:cell_methods = "time: mean" ; float xbjo3_std(time, lev, lat, lon) ; xbjo3_std:long_name = "blue o3 emission" ; xbjo3_std:units = "kg(N)/s/m3" ; xbjo3_std:coordinates = "lon lat" ; xbjo3_std:cell_methods = "time: standard_deviation" ; float telbjo3(time, lev, lat, lon) ; telbjo3:long_name = "blue o3 emission tendency" ; telbjo3:units = "mol/mol/s" ; telbjo3:coordinates = "lon lat" ; telbjo3:cell_methods = "time: point" ; float telbjo3_ave(time, lev, lat, lon) ; telbjo3_ave:long_name = "blue o3 emission tendency" ; telbjo3_ave:units = "mol/mol/s" ; telbjo3_ave:coordinates = "lon lat" ; telbjo3_ave:cell_methods = "time: mean" ; float telbjo3_std(time, lev, lat, lon) ; telbjo3_std:long_name = "blue o3 emission tendency" ; telbjo3_std:units = "mol/mol/s" ; telbjo3_std:coordinates = "lon lat" ; telbjo3_std:cell_methods = "time: standard_deviation" ; float precon(time, lat, lon) ; precon:long_name = "convective precipitation at ground" ; precon:units = "mm/s" ; precon:coordinates = "lon lat" ; precon:cell_methods = "time: point" ; float precon_ave(time, lat, lon) ; precon_ave:long_name = "convective precipitation at ground" ; precon_ave:units = "mm/s" ; precon_ave:coordinates = "lon lat" ; precon_ave:cell_methods = "time: mean" ; float precon_std(time, lat, lon) ; precon_std:long_name = "convective precipitation at ground" ; precon_std:units = "mm/s" ; precon_std:coordinates = "lon lat" ; precon_std:cell_methods = "time: standard_deviation" ; float capecon(time, lat, lon) ; capecon:long_name = "CAPE at ground" ; capecon:units = "mm/s" ; capecon:coordinates = "lon lat" ; capecon:cell_methods = "time: point" ; float capecon_ave(time, lat, lon) ; capecon_ave:long_name = "CAPE at ground" ; capecon_ave:units = "mm/s" ; capecon_ave:coordinates = "lon lat" ; capecon_ave:cell_methods = "time: mean" ; float capecon_std(time, lat, lon) ; capecon_std:long_name = "CAPE at ground" ; capecon_std:units = "mm/s" ; capecon_std:coordinates = "lon lat" ; capecon_std:cell_methods = "time: standard_deviation" ; float icecon(time, lat, lon) ; icecon:long_name = "convective ice" ; icecon:units = "kg/kg" ; icecon:coordinates = "lon lat" ; icecon:cell_methods = "time: point" ; float icecon_ave(time, lat, lon) ; icecon_ave:long_name = "convective ice" ; icecon_ave:units = "kg/kg" ; icecon_ave:coordinates = "lon lat" ; icecon_ave:cell_methods = "time: mean" ; float icecon_std(time, lat, lon) ; icecon_std:long_name = "convective ice" ; icecon_std:units = "kg/kg" ; icecon_std:coordinates = "lon lat" ; icecon_std:cell_methods = "time: standard_deviation" ; float liquidcon(time, lat, lon) ; liquidcon:long_name = "convective liquid" ; liquidcon:units = "kg/kg" ; liquidcon:coordinates = "lon lat" ; liquidcon:cell_methods = "time: point" ; float liquidcon_ave(time, lat, lon) ; liquidcon_ave:long_name = "convective liquid" ; liquidcon_ave:units = "kg/kg" ; liquidcon_ave:coordinates = "lon lat" ; liquidcon_ave:cell_methods = "time: mean" ; float liquidcon_std(time, lat, lon) ; liquidcon_std:long_name = "convective liquid" ; liquidcon_std:units = "kg/kg" ; liquidcon_std:coordinates = "lon lat" ; liquidcon_std:cell_methods = "time: standard_deviation" ; float snowcon(time, lat, lon) ; snowcon:long_name = "convective snow" ; snowcon:units = "kg/kg" ; snowcon:coordinates = "lon lat" ; snowcon:cell_methods = "time: point" ; float snowcon_ave(time, lat, lon) ; snowcon_ave:long_name = "convective snow" ; snowcon_ave:units = "kg/kg" ; snowcon_ave:coordinates = "lon lat" ; snowcon_ave:cell_methods = "time: mean" ; float snowcon_std(time, lat, lon) ; snowcon_std:long_name = "convective snow" ; snowcon_std:units = "kg/kg" ; snowcon_std:coordinates = "lon lat" ; snowcon_std:cell_methods = "time: standard_deviation" ; float preclarge(time, lat, lon) ; preclarge:long_name = "large scale precipitation at ground" ; preclarge:coordinates = "lon lat" ; preclarge:cell_methods = "time: point" ; float preclarge_ave(time, lat, lon) ; preclarge_ave:long_name = "large scale precipitation at ground" ; preclarge_ave:coordinates = "lon lat" ; preclarge_ave:cell_methods = "time: mean" ; float preclarge_std(time, lat, lon) ; preclarge_std:long_name = "large scale precipitation at ground" ; preclarge_std:coordinates = "lon lat" ; preclarge_std:cell_methods = "time: standard_deviation" ; 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" ; aps:coordinates = "lon lat" ; aps:cell_methods = "time: point" ; 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" ; aps_ave:coordinates = "lon lat" ; aps_ave:cell_methods = "time: mean" ; float aps_std(time, lat, lon) ; aps_std:long_name = "surface pressure" ; aps_std:units = "Pa" ; aps_std:representation = "GP_2D_HORIZONTAL" ; aps_std:grid_type = "gaussian" ; aps_std:table = 128 ; aps_std:code = 134 ; aps_std:REFERENCE_TO = "g3b: aps" ; aps_std:coordinates = "lon lat" ; aps_std:cell_methods = "time: standard_deviation" ; double time_bnds(time, tbnds) ; time_bnds:long_name = "time bounds" ; time_bnds:units = "days since 2000-01-01T00:00:00Z" ; time_bnds:cell_methods = "time: point" ;
// global attributes: :MESSy = "MESSy version d2.55.2, http://www.messy-interface.org" ; :MESSy_switch = "version 1.0" ; :MESSy_channel = "version 2.4.5" ; :MESSy_tracer = "version 2.7" ; :MESSy_timer = "version 0.1" ; :MESSy_qtimer = "version 4.0" ; :MESSy_import = "version 1.1" ; :MESSy_grid = "version 1.6" ; :MESSy_rnd = "version 1.2" ; :MESSy_tendency = "version 0.2" ; :MESSy_aeropt = "version 2.1.0" ; :MESSy_albedo = "version 1.4" ; :MESSy_ch4 = "version 1.6" ; :MESSy_cloud = "version 2.4" ; :MESSy_cloudopt = "version 2.5" ; :MESSy_convect = "version 2.1" ; :MESSy_cvtrans = "version 2.5" ; :MESSy_gwave = "version 1.1" ; :MESSy_jval = "version 14.4" ; :MESSy_lnox = "version 4.0" ; :MESSy_blues = "version 1.0" ; :MESSy_orbit = "version 0.9" ; :MESSy_orogw = "version 1.3" ; :MESSy_qbo = "version 2.3" ; :MESSy_rad = "version 3.0.1" ; :MESSy_e5vdiff = "version 1.3" ; :MESSy_surface = "version 1.3" ; :MESSy_tnudge = "version 3.2" ; :MESSy_tropop = "version 2.2" ; :MESSy_viso = "version 2.5" ; :MESSy_experiment = "BLUEs_10y_2l" ; :EXEC_CHECKSUM = "1e4e5004e03b26d8f74b729315612caa 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 = "20000101 000000" ; :GCM_timestep = 600.f ; :F95_COMPILER_VERSION = "GNU Fortran (GCC) 11.2.0" ; :F95_COMPILER_CALL = "/dragofs/sw/foss/0.2/software/OpenMPI/4.1.1-GCC-11.2.0/bin/mpif90" ; :F95_COMPILER_FLAGS = "-g -fbacktrace -cpp -D__linux__ -fno-second-underscore -ffree-line-length-none -fno-range-check -O2" ; :F95_PREPROC_DEFINITIONS = "-DMESSY -DLITTLE_ENDIAN -D_LINUX64 -DPNCREGRID -DMPIOM_13B" ; :F95_COMPILER_INCLUDES_01 = "-I../../mod -I/dragofs/sw/foss/0.2/software/netCDF-Fortran/4.5.3-gompi-2021b/include -I/dragofs/sw/foss/0.2/software/netCDF/4.8.1-gompi-2021b/include -DgFortran -I/dragofs/sw/foss/0.2/software/netCDF-Fortran/4.5.3-gompi-2021b/include -I/dragofs/sw/foss/0.2" ; :F95_COMPILER_INCLUDES_02 = "/software/netCDF-Fortran/4.5.3-gompi-2021b/include" ; :operating_date_time = "20240627 112437" ; :operating_system = "Linux 4.18.0-348.7.1.el8_5.x86_64 on x86_64" ; :operating_host = "drago31040118" ; :operating_user = "fjperez (fjperez)" ; :blues_mode = "production simulation" ; :blues_r_scal_bf = 1.f ; :blues_r_n2opbf = 0.f ; :blues_r_nopbf = 0.f ; :blues_r_no2pbf = 0.f ; :blues_r_ohpbf = 0.f ; :blues_r_ho2pbf = 0.f ; :blues_r_o3pbf = 0.f ; :channel_io_pe = 0 ; :channel_name = "bluesbcl__ _gp" ; :channel_file_type = "output" ; :channel_file_name = "BLUEs_10y_2l___20000201_0000_bluesbcl__ _gp.nc" ; :channel_netcdf_lib = "4.8.1 of May 6 2022 16:22:26 $" ;}
创建时间:
2024-07-03
