netcdf VIKING20XJRAshortmaskcell_1_14946196442372322283 { dimensions: y = 1021 ; x = 1442 ; z = 46 ; variables: double e1f(y, x) ; e1f:long_name = "grid cell size in x (delta(x)) on F-grid" ; e1f:units = "m" ; double e1t(y, x) ; e1t:long_name = "grid cell size in x (delta(x)) on T-grid" ; e1t:units = "m" ; double e1u(y, x) ; e1u:long_name = "grid cell size in x (delta(x)) on U-grid" ; e1u:units = "m" ; double e1v(y, x) ; e1v:long_name = "grid cell size in x (delta(x)) on V-grid" ; e1v:units = "m" ; double e2f(y, x) ; e2f:long_name = "grid cell size in y (delta(y)) on F-grid" ; e2f:units = "m" ; double e2t(y, x) ; e2t:long_name = "grid cell size in y (delta(y)) on T-grid" ; e2t:units = "m" ; double e2u(y, x) ; e2u:long_name = "grid cell size in y (delta(y)) on U-grid" ; e2u:units = "m" ; double e2v(y, x) ; e2v:long_name = "grid cell size in y (delta(y)) on V-grid" ; e2v:units = "m" ; double e3t_0(z, y, x) ; e3t_0:long_name = "grid cell size in z (delta(z)) on T-grid" ; e3t_0:units = "m" ; e3t_0:standard_name = "cell_thickness" ; double e3t_1d(z) ; e3t_1d:long_name = "size (height) of non-partial-cell boxes on T,U,V-grid" ; e3t_1d:units = "m" ; e3t_1d:standard_name = "cell_thickness" ; double e3u_0(z, y, x) ; e3u_0:long_name = "grid cell size in z (delta(z)) on U-grid" ; e3u_0:units = "m" ; e3u_0:standard_name = "cell_thickness" ; double e3v_0(z, y, x) ; e3v_0:long_name = "grid cell size in z (delta(z)) on V-grid" ; e3v_0:units = "m" ; e3v_0:standard_name = "cell_thickness" ; double e3w_0(z, y, x) ; e3w_0:long_name = "grid cell size in z (delta(z)) on W-grid" ; e3w_0:units = "m" ; e3w_0:standard_name = "cell_thickness" ; double e3w_1d(z) ; e3w_1d:long_name = "size (height) of non-partial-cell boxes on W-grid" ; e3w_1d:units = "m" ; e3w_1d:standard_name = "cell_thickness" ; double ff(y, x) ; ff:long_name = "coriolis_paramter" ; ff:units = "s-1" ; byte fmask(z, y, x) ; fmask:long_name = "ocean mask on F-grid" ; fmask:units = "1" ; fmask:standard_name = "sea_binary_mask" ; byte fmaskutil(y, x) ; fmaskutil:long_name = "surface ocean mask on F-grid" ; fmaskutil:units = "1" ; fmaskutil:standard_name = "sea_binary_mask" ; float gdept_0(z, y, x) ; gdept_0:long_name = "depth of grid cell (including partial cells) on T-grid" ; gdept_0:units = "m" ; double gdept_1d(z) ; gdept_1d:long_name = "depth of T,U,V levels" ; gdept_1d:units = "m" ; float gdepu(z, y, x) ; gdepu:long_name = "depth of grid cell (including partial cells) on U-grid" ; gdepu:units = "m" ; float gdepv(z, y, x) ; gdepv:long_name = "depth of grid cell (including partial cells) on V-grid" ; gdepv:units = "m" ; float gdepw_0(z, y, x) ; gdepw_0:long_name = "depth of grid cell (including partial cells) on W-grid" ; gdepw_0:units = "m" ; double gdepw_1d(z) ; gdepw_1d:long_name = "depth of W levels" ; gdepw_1d:units = "m" ; float glamf(y, x) ; glamf:long_name = "Lambda (Longitude) on F-grid" ; glamf:units = "degrees_east" ; float glamt(y, x) ; glamt:long_name = "Lambda (Longitude) on T-grid" ; glamt:units = "degrees_east" ; float glamu(y, x) ; glamu:long_name = "Lambda (Longitude) on U-grid" ; glamu:units = "degrees_east" ; float glamv(y, x) ; glamv:long_name = "Lambda (Longitude) on V-grid" ; glamv:units = "degrees_east" ; float gphif(y, x) ; gphif:long_name = "Phi (Latitude) on F-grid" ; gphif:units = "degrees_north" ; float gphit(y, x) ; gphit:long_name = "Phi (Latitude) on T-grid" ; gphit:units = "degrees_north" ; float gphiu(y, x) ; gphiu:long_name = "Phi (Latitude) on U-grid" ; gphiu:units = "degrees_north" ; float gphiv(y, x) ; gphiv:long_name = "Phi (Latitude) on V-grid" ; gphiv:units = "degrees_north" ; float isfdraft(y, x) ; isfdraft:long_name = "0 everywhere" ; isfdraft:units = "1" ; short mbathy(y, x) ; mbathy:long_name = "bottom level number" ; mbathy:units = "1" ; short misf(y, x) ; misf:long_name = "number of ocean grid points at model boundaries" ; misf:units = "1" ; float nav_lat(y, x) ; nav_lat:standard_name = "latitude" ; nav_lat:long_name = "Latitude" ; nav_lat:units = "degrees_north" ; float nav_lev(z) ; nav_lev:standard_name = "depth" ; nav_lev:long_name = "Depth of grid box" ; nav_lev:units = "m" ; float nav_lon(y, x) ; nav_lon:standard_name = "longitude" ; nav_lon:long_name = "Longitude" ; nav_lon:units = "degrees_east" ; byte tmask(z, y, x) ; tmask:long_name = "ocean mask on T-grid" ; tmask:units = "1" ; tmask:standard_name = "sea_binary_mask" ; byte tmaskutil(y, x) ; tmaskutil:long_name = "surface ocean mask on T-grid" ; tmaskutil:units = "1" ; tmaskutil:standard_name = "sea_binary_mask" ; byte umask(z, y, x) ; umask:long_name = "ocean mask on U-grid" ; umask:units = "1" ; umask:standard_name = "sea_binary_mask" ; byte umaskutil(y, x) ; umaskutil:long_name = "surface ocean mask on U-grid" ; umaskutil:units = "1" ; umaskutil:standard_name = "sea_binary_mask" ; byte vmask(z, y, x) ; vmask:long_name = "ocean mask on V-grid" ; vmask:units = "1" ; vmask:standard_name = "sea_binary_mask" ; byte vmaskutil(y, x) ; vmaskutil:long_name = "surface ocean mask on V-grid" ; vmaskutil:units = "1" ; vmaskutil:standard_name = "sea_binary_mask" ; // global attributes: :TimeStamp = "15/04/2020 07:38:51 +0200" ; :name = "VIKING20X.L46-KKG36107B_mask_cell_size_host.nc" ; :title = "VIKING20X-JRA-short: daily to multi-decadal ocean dynamics under JRA55-do atmospheric forcing" ; :cdm_data_type = "grid" ; :pi = "Klaus Getzlaff" ; :pi_contact = " :pi_url = "https://orcid.org/0000-0002-0347-7838 " ; :institution_id = "https://ror.org/02h2x0161 " ; :institution = "GEOMAR Helmholtz Centre for Ocean Research" ; :research_devision = "Ocean Circulation and Climate Dynamics" ; :research_unit = "Ocean Dynamics" ; :creator_name = "Klaus Getzlaff" ; :creator_email = " :creator_url = "https://orcid.org/0000-0002-0347-7838 " ; :project = "RACE, iAtlantic" ; :references = "Biastoch, A., Schwarzkopf, F. U., Getzlaff, K., Rühs, S., Martin, T., Scheinert, M., Schulzki, T., Handmann, P., Hummels, R., and Böning, C. W.: Regional imprints of changes in the Atlantic Meridional Overturning Circulation in the eddy-rich ocean model VIKING20X, Ocean Sci., 17, 1177-1211, https://doi.org/10.5194/os-17-1177-2021 , 2021." ; :metadata_link = "https://www.wdc-climate.de/ui/entry?acronym=VIKING20XJRAshort " ; :keywords = "OCEAN GENERAL CIRCULATION MODELS/(OGCM), REGIONAL OCEAN MODELS, ATMOSPHERIC/OCEAN INDICATORS, ATLANTIC OCEAN, WATER TEMPERATURE, THERMOHALINE CIRCULATION, OCEAN TEMPERATURE, OCEAN SALINITY, OCEAN OVERTURNING, OCEAN MIXED LAYER, OCEAN CURRENTS, OCEAN UPWELLING" ; :keywords_vocabulary = "GCMD:GCMD Keywords" ; :license = "CC BY 4.0 (https://creativecommons.org/licenses/by/4.0/deed.en )" ; :date_created = "2019-09-02" ; :date_modified = "2023-12-21" ; :contributor_name = "Franziska Schwarzkopf" ; :contributor_email = " fschwarzkopf@
null geomar.de
:contributor_url = "https://orcid.org/0000-0002-2747-8456 " ; :realm = "ocean seaIce" ; :source = "NEMO/releases/release-3.6 revision r6721" ; :source_type = "VIKING20X.L46-KKG36107B details here: https://git.geomar.de/NEMO/EXP/VIKING20X.L46-KKG36107B " ; :acknowledgment = "The ocean model simulation was performed at the North German Supercomputing Alliance (HLRN). We thank the NEMO system team for support" ; :summary = "VIKING20X aims at hindcast simulations of Atlantic Ocean circulation variability on monthly to multi-decadal timescales and with a spatial resolution sufficient to capture mesoscale processes well into subarctic latitudes. VIKING20X is an expanded and updated version of the original VIKING20 model configuration, now covering the Atlantic from the Nordic Seas towards the southern tip of Africa with a 1/20 degree grid, nested into a global ocean-sea-ice model at 1/4 degree resolution. The applied atmospheric forcing JRA55-do (with -do- for -driving the ocean-) builds on the Japanese reanalysis product JRA-55 with improvements through the implementation of satellite and several other reanalysis products. All atmospheric forcing fields are available on a 1/2 degree horizontal grid at 3-hourly temporal resolution covering the period 1958 to 2019. JRA55-do will be continuously extended into the present at least until 2023. Along with the atmospheric fields, JRA55-do also provides an interannually varying daily river runoff field at 1/4 degree horizontal resolution, which includes freshwater fluxes from ice sheets. For Greenland, this even includes the enhanced observed melting of the past decades." ; :Conventions = "CF-1.6" ; }