netcdf NSSP585frc2_f09_tn14_20191105.micom.hm.2017-06 { dimensions: x = 360 ; y = 385 ; sigma = 53 ; depth = 70 ; region = 4 ; bounds = 2 ; slenmax = 50 ; time = UNLIMITED ; // (1 currently) section = 17 ; lat = 171 ; variables: double time(time) ; time:long_name = "time" ; time:units = "days since 1800-01-01 00:00" ; time:calendar = "noleap" ; double sigma(sigma) ; sigma:_FillValue = 9.96920996838687e+36 ; sigma:long_name = "Potential density" ; sigma:standard_name = "sea_water_sigma_theta" ; sigma:units = "kg m-3" ; sigma:positive = "down" ; double depth(depth) ; depth:_FillValue = 9.96920996838687e+36 ; depth:long_name = "z level" ; depth:units = "m" ; depth:positive = "down" ; depth:bounds = "depth_bnds" ; double depth_bnds(depth, bounds) ; depth_bnds:_FillValue = 9.96920996838687e+36 ; double lat(lat) ; lat:_FillValue = 9.96920996838687e+36 ; lat:long_name = "Latitude" ; lat:standard_name = "latitude" ; lat:units = "degree_north" ; char region(region, slenmax) ; region:long_name = "Region name" ; char section(section, slenmax) ; section:long_name = "Section name" ; float sigmx(time, y, x) ; sigmx:_FillValue = 9.96921e+36f ; sigmx:units = "kg m-3" ; sigmx:long_name = "Mixed layer density" ; sigmx:coordinates = "plon plat" ; sigmx:cell_measures = "area: parea" ; float ubaro(time, y, x) ; ubaro:_FillValue = 9.96921e+36f ; ubaro:units = "m s-1" ; ubaro:long_name = "Barotropic velocity x-component" ; ubaro:coordinates = "ulon ulat" ; ubaro:cell_measures = "area: uarea" ; float vbaro(time, y, x) ; vbaro:_FillValue = 9.96921e+36f ; vbaro:units = "m s-1" ; vbaro:long_name = "Barotropic velocity y-component" ; vbaro:coordinates = "vlon vlat" ; vbaro:cell_measures = "area: varea" ; float psrf(time, y, x) ; psrf:_FillValue = 9.96921e+36f ; psrf:units = "Pa" ; psrf:long_name = "Surface pressure" ; psrf:coordinates = "plon plat" ; psrf:cell_measures = "area: parea" ; float pbot(time, y, x) ; pbot:_FillValue = 9.96921e+36f ; pbot:units = "Pa" ; pbot:long_name = "Bottom pressure" ; pbot:coordinates = "plon plat" ; pbot:cell_measures = "area: parea" ; float sealv(time, y, x) ; sealv:_FillValue = 9.96921e+36f ; sealv:units = "m" ; sealv:long_name = "Sea level" ; sealv:coordinates = "plon plat" ; sealv:cell_measures = "area: parea" ; float slvsq(time, y, x) ; slvsq:_FillValue = 9.96921e+36f ; slvsq:units = "m2" ; slvsq:long_name = "Sea level squared" ; slvsq:coordinates = "plon plat" ; slvsq:cell_measures = "area: parea" ; float btmstr(time, y, x) ; btmstr:_FillValue = 9.96921e+36f ; btmstr:units = "kg s-1" ; btmstr:long_name = "Barotropic mass streamfunction" ; btmstr:coordinates = "plon plat" ; btmstr:cell_measures = "area: parea" ; float fice(time, y, x) ; fice:_FillValue = 9.96921e+36f ; fice:units = "%" ; fice:long_name = "Ice concentration" ; fice:coordinates = "plon plat" ; fice:cell_measures = "area: parea" ; float swa(time, y, x) ; swa:_FillValue = 9.96921e+36f ; swa:units = "W m-2" ; swa:long_name = "Short-wave heat flux" ; swa:coordinates = "plon plat" ; swa:cell_measures = "area: parea" ; float nsf(time, y, x) ; nsf:_FillValue = 9.96921e+36f ; nsf:units = "W m-2" ; nsf:long_name = "Non-solar heat flux" ; nsf:coordinates = "plon plat" ; nsf:cell_measures = "area: parea" ; float hmltfz(time, y, x) ; hmltfz:_FillValue = 9.96921e+36f ; hmltfz:units = "W m-2" ; hmltfz:long_name = "Heat flux due to melting/freezing" ; hmltfz:coordinates = "plon plat" ; hmltfz:cell_measures = "area: parea" ; float hflx(time, y, x) ; hflx:_FillValue = 9.96921e+36f ; hflx:units = "W m-2" ; hflx:long_name = "Heat flux received by ocean" ; hflx:coordinates = "plon plat" ; hflx:cell_measures = "area: parea" ; float lip(time, y, x) ; lip:_FillValue = 9.96921e+36f ; lip:units = "kg m-2 s-1" ; lip:long_name = "Liquid precipitation" ; lip:coordinates = "plon plat" ; lip:cell_measures = "area: parea" ; float sop(time, y, x) ; sop:_FillValue = 9.96921e+36f ; sop:units = "kg m-2 s-1" ; sop:long_name = "Solid precipitation" ; sop:coordinates = "plon plat" ; sop:cell_measures = "area: parea" ; float eva(time, y, x) ; eva:_FillValue = 9.96921e+36f ; eva:units = "kg m-2 s-1" ; eva:long_name = "Evaporation" ; eva:coordinates = "plon plat" ; eva:cell_measures = "area: parea" ; float fmltfz(time, y, x) ; fmltfz:_FillValue = 9.96921e+36f ; fmltfz:units = "kg m-2 s-1" ; fmltfz:long_name = "Fresh water flux due to melting/freezing" ; fmltfz:coordinates = "plon plat" ; fmltfz:cell_measures = "area: parea" ; float rnf(time, y, x) ; rnf:_FillValue = 9.96921e+36f ; rnf:units = "kg m-2 s-1" ; rnf:long_name = "Liquid runoff" ; rnf:coordinates = "plon plat" ; rnf:cell_measures = "area: parea" ; float rfi(time, y, x) ; rfi:_FillValue = 9.96921e+36f ; rfi:units = "kg m-2 s-1" ; rfi:long_name = "Frozen runoff" ; rfi:coordinates = "plon plat" ; rfi:cell_measures = "area: parea" ; float sflx(time, y, x) ; sflx:_FillValue = 9.96921e+36f ; sflx:units = "kg m-2 s-1" ; sflx:long_name = "Salt flux received by ocean" ; sflx:coordinates = "plon plat" ; sflx:cell_measures = "area: parea" ; float bflx(time, y, x) ; bflx:_FillValue = 9.96921e+36f ; bflx:units = "kg m-2 s-1" ; bflx:long_name = "Brine flux" ; bflx:coordinates = "plon plat" ; bflx:cell_measures = "area: parea" ; float ztx(time, y, x) ; ztx:_FillValue = 9.96921e+36f ; ztx:units = "N m-2" ; ztx:long_name = "Wind stress x-component" ; ztx:coordinates = "ulon ulat" ; ztx:cell_measures = "area: uarea" ; float mty(time, y, x) ; mty:_FillValue = 9.96921e+36f ; mty:units = "N m-2" ; mty:long_name = "Wind stress y-component" ; mty:coordinates = "vlon vlat" ; mty:cell_measures = "area: varea" ; float taux(time, y, x) ; taux:_FillValue = 9.96921e+36f ; taux:units = "N m-2" ; taux:long_name = "Momentum flux received by ocean x-component" ; taux:coordinates = "ulon ulat" ; taux:cell_measures = "area: uarea" ; float tauy(time, y, x) ; tauy:_FillValue = 9.96921e+36f ; tauy:units = "N m-2" ; tauy:long_name = "Momentum flux received by ocean y-component" ; tauy:coordinates = "vlon vlat" ; tauy:cell_measures = "area: varea" ; float idkedt(time, y, x) ; idkedt:_FillValue = 9.96921e+36f ; idkedt:units = "kg s-3" ; idkedt:long_name = "Mixed layer inertial kinetic energy tendency per unit area" ; idkedt:coordinates = "plon plat" ; idkedt:cell_measures = "area: parea" ; float ustar(time, y, x) ; ustar:_FillValue = 9.96921e+36f ; ustar:units = "m s-1" ; ustar:long_name = "Friction velocity" ; ustar:coordinates = "plon plat" ; ustar:cell_measures = "area: parea" ; float ustar3(time, y, x) ; ustar3:_FillValue = 9.96921e+36f ; ustar3:units = "m3 s-3" ; ustar3:long_name = "Friction velocity cubed" ; ustar3:coordinates = "plon plat" ; ustar3:cell_measures = "area: parea" ; float abswnd(time, y, x) ; abswnd:_FillValue = 9.96921e+36f ; abswnd:units = "m s-1" ; abswnd:long_name = "Absolute wind speed" ; abswnd:coordinates = "plon plat" ; abswnd:cell_measures = "area: parea" ; float mtkeus(time, y, x) ; mtkeus:_FillValue = 9.96921e+36f ; mtkeus:units = "kg s-3" ; mtkeus:long_name = "Mixed layer turbulent kinetic energy tendency per unit area related to friction velocity" ; mtkeus:coordinates = "plon plat" ; mtkeus:cell_measures = "area: parea" ; float mtkeni(time, y, x) ; mtkeni:_FillValue = 9.96921e+36f ; mtkeni:units = "kg s-3" ; mtkeni:long_name = "Mixed layer turbulent kinetic energy tendency per unit area related to near inertial motions" ; mtkeni:coordinates = "plon plat" ; mtkeni:cell_measures = "area: parea" ; float mtkebf(time, y, x) ; mtkebf:_FillValue = 9.96921e+36f ; mtkebf:units = "kg s-3" ; mtkebf:long_name = "Mixed layer turbulent kinetic energy tendency per unit area related to buoyancy forcing" ; mtkebf:coordinates = "plon plat" ; mtkebf:cell_measures = "area: parea" ; float mtkers(time, y, x) ; mtkers:_FillValue = 9.96921e+36f ; mtkers:units = "kg s-3" ; mtkers:long_name = "Mixed layer turbulent kinetic energy tendency per unit area related to eddy restratification" ; mtkers:coordinates = "plon plat" ; mtkers:cell_measures = "area: parea" ; float mtkepe(time, y, x) ; mtkepe:_FillValue = 9.96921e+36f ; mtkepe:units = "kg s-3" ; mtkepe:long_name = "Mixed layer turbulent kinetic energy tendency per unit area related to potential energy change" ; mtkepe:coordinates = "plon plat" ; mtkepe:cell_measures = "area: parea" ; float mtkeke(time, y, x) ; mtkeke:_FillValue = 9.96921e+36f ; mtkeke:units = "kg s-3" ; mtkeke:long_name = "Mixed layer turbulent kinetic energy tendency per unit area related to kinetic energy change" ; mtkeke:coordinates = "plon plat" ; mtkeke:cell_measures = "area: parea" ; float sfl(time, y, x) ; sfl:_FillValue = 9.96921e+36f ; sfl:units = "kg m-2 s-1" ; sfl:long_name = "Salt flux" ; sfl:coordinates = "plon plat" ; sfl:cell_measures = "area: parea" ; float mld(time, y, x) ; mld:_FillValue = 9.96921e+36f ; mld:units = "m" ; mld:long_name = "Mixed layer depth" ; mld:coordinates = "plon plat" ; mld:cell_measures = "area: parea" ; float maxmld(time, y, x) ; maxmld:_FillValue = 9.96921e+36f ; maxmld:units = "m" ; maxmld:long_name = "Maximum mixed layer depth" ; maxmld:coordinates = "plon plat" ; maxmld:cell_measures = "area: parea" ; float mlts(time, y, x) ; mlts:_FillValue = 9.96921e+36f ; mlts:units = "m" ; mlts:long_name = "Mixed layer thickness defined by sigma t" ; mlts:coordinates = "plon plat" ; mlts:cell_measures = "area: parea" ; float mltsmn(time, y, x) ; mltsmn:_FillValue = 9.96921e+36f ; mltsmn:units = "m" ; mltsmn:long_name = "Minimum mixed layer thickness defined by sigma t" ; mltsmn:coordinates = "plon plat" ; mltsmn:cell_measures = "area: parea" ; float mltsmx(time, y, x) ; mltsmx:_FillValue = 9.96921e+36f ; mltsmx:units = "m" ; mltsmx:long_name = "Maximum mixed layer thickness defined by sigma t" ; mltsmx:coordinates = "plon plat" ; mltsmx:cell_measures = "area: parea" ; float mltssq(time, y, x) ; mltssq:_FillValue = 9.96921e+36f ; mltssq:units = "m2" ; mltssq:long_name = "Maximum mixed layer thickness squared defined by sigma t" ; mltssq:coordinates = "plon plat" ; mltssq:cell_measures = "area: parea" ; float t20d(time, y, x) ; t20d:_FillValue = 9.96921e+36f ; t20d:units = "m" ; t20d:long_name = "20C isoterm depth" ; t20d:coordinates = "plon plat" ; t20d:cell_measures = "area: parea" ; float brnpd(time, y, x) ; brnpd:_FillValue = 9.96921e+36f ; brnpd:units = "m" ; brnpd:long_name = "Brine plume depth" ; brnpd:coordinates = "plon plat" ; brnpd:cell_measures = "area: parea" ; float sss(time, y, x) ; sss:_FillValue = 9.96921e+36f ; sss:units = "g kg-1" ; sss:long_name = "Ocean surface salinity" ; sss:coordinates = "plon plat" ; sss:cell_measures = "area: parea" ; float ssssq(time, y, x) ; ssssq:_FillValue = 9.96921e+36f ; ssssq:units = "g2 kg-2" ; ssssq:long_name = "Ocean surface salinity squared" ; ssssq:coordinates = "plon plat" ; ssssq:cell_measures = "area: parea" ; float sbot(time, y, x) ; sbot:_FillValue = 9.96921e+36f ; sbot:units = "g kg-1" ; sbot:long_name = "Bottom salinity" ; sbot:coordinates = "plon plat" ; sbot:cell_measures = "area: parea" ; float sst(time, y, x) ; sst:_FillValue = 9.96921e+36f ; sst:units = "degC" ; sst:long_name = "Ocean surface temperature" ; sst:coordinates = "plon plat" ; sst:cell_measures = "area: parea" ; float sstsq(time, y, x) ; sstsq:_FillValue = 9.96921e+36f ; sstsq:units = "degC2" ; sstsq:long_name = "Ocean surface temperature squared" ; sstsq:coordinates = "plon plat" ; sstsq:cell_measures = "area: parea" ; float tbot(time, y, x) ; tbot:_FillValue = 9.96921e+36f ; tbot:units = "degC" ; tbot:long_name = "Bottom temperature" ; tbot:coordinates = "plon plat" ; tbot:cell_measures = "area: parea" ; float mxlu(time, y, x) ; mxlu:_FillValue = 9.96921e+36f ; mxlu:units = "m s-1" ; mxlu:long_name = "Mixed layer velocity x-component" ; mxlu:coordinates = "ulon ulat" ; mxlu:cell_measures = "area: uarea" ; float mxlv(time, y, x) ; mxlv:_FillValue = 9.96921e+36f ; mxlv:units = "m s-1" ; mxlv:long_name = "Mixed layer velocity y-component" ; mxlv:coordinates = "vlon vlat" ; mxlv:cell_measures = "area: varea" ; float dp(time, sigma, y, x) ; dp:_FillValue = 9.96921e+36f ; dp:units = "Pa" ; dp:long_name = "Layer pressure thickness" ; dp:coordinates = "plon plat" ; dp:cell_measures = "area: parea" ; float dz(time, sigma, y, x) ; dz:_FillValue = 9.96921e+36f ; dz:units = "m" ; dz:long_name = "Layer thickness" ; dz:coordinates = "plon plat" ; dz:cell_measures = "area: parea" ; float temp(time, sigma, y, x) ; temp:_FillValue = 9.96921e+36f ; temp:units = "degC" ; temp:long_name = "Temperature" ; temp:standard_name = "Ocean temperature" ; temp:coordinates = "plon plat" ; temp:cell_measures = "area: parea" ; float saln(time, sigma, y, x) ; saln:_FillValue = 9.96921e+36f ; saln:units = "g kg-1" ; saln:long_name = "Salinity" ; saln:standard_name = "Ocean salinity" ; saln:coordinates = "plon plat" ; saln:cell_measures = "area: parea" ; float uvel(time, sigma, y, x) ; uvel:_FillValue = 9.96921e+36f ; uvel:units = "m s-1" ; uvel:long_name = "Velocity x-component" ; uvel:coordinates = "ulon ulat" ; uvel:cell_measures = "area: uarea" ; float vvel(time, sigma, y, x) ; vvel:_FillValue = 9.96921e+36f ; vvel:units = "m s-1" ; vvel:long_name = "Velocity y-component" ; vvel:coordinates = "vlon vlat" ; vvel:cell_measures = "area: varea" ; float uflx(time, sigma, y, x) ; uflx:_FillValue = 9.96921e+36f ; uflx:units = "kg s-1" ; uflx:long_name = "Mass flux in x-direction" ; uflx:coordinates = "ulon ulat" ; uflx:cell_measures = "area: uarea" ; float vflx(time, sigma, y, x) ; vflx:_FillValue = 9.96921e+36f ; vflx:units = "kg s-1" ; vflx:long_name = "Mass flux in y-direction" ; vflx:coordinates = "vlon vlat" ; vflx:cell_measures = "area: varea" ; float uhflx(time, sigma, y, x) ; uhflx:_FillValue = 9.96921e+36f ; uhflx:units = "W" ; uhflx:long_name = "Heat flux in x-direction" ; uhflx:coordinates = "ulon ulat" ; uhflx:cell_measures = "area: uarea" ; float vhflx(time, sigma, y, x) ; vhflx:_FillValue = 9.96921e+36f ; vhflx:units = "W" ; vhflx:long_name = "Heat flux in y-direction" ; vhflx:coordinates = "vlon vlat" ; vhflx:cell_measures = "area: varea" ; float usflx(time, sigma, y, x) ; usflx:_FillValue = 9.96921e+36f ; usflx:units = "kg s-1" ; usflx:long_name = "Salt flux in x-direction" ; usflx:coordinates = "ulon ulat" ; usflx:cell_measures = "area: uarea" ; float vsflx(time, sigma, y, x) ; vsflx:_FillValue = 9.96921e+36f ; vsflx:units = "kg s-1" ; vsflx:long_name = "Salt flux in y-direction" ; vsflx:coordinates = "vlon vlat" ; vsflx:cell_measures = "area: varea" ; float vmfltd(time, sigma, y, x) ; vmfltd:_FillValue = 9.96921e+36f ; vmfltd:units = "kg s-1" ; vmfltd:long_name = "Mass flux due to thickness diffusion in y-direction" ; vmfltd:coordinates = "vlon vlat" ; vmfltd:cell_measures = "area: varea" ; float vhfltd(time, sigma, y, x) ; vhfltd:_FillValue = 9.96921e+36f ; vhfltd:units = "W" ; vhfltd:long_name = "Heat flux due to thickness diffusion in y-direction" ; vhfltd:coordinates = "vlon vlat" ; vhfltd:cell_measures = "area: varea" ; float vhflld(time, sigma, y, x) ; vhflld:_FillValue = 9.96921e+36f ; vhflld:units = "W" ; vhflld:long_name = "Heat flux due to lateral diffusion in y-direction" ; vhflld:coordinates = "vlon vlat" ; vhflld:cell_measures = "area: varea" ; float vsfltd(time, sigma, y, x) ; vsfltd:_FillValue = 9.96921e+36f ; vsfltd:units = "W" ; vsfltd:long_name = "Salt flux due to thickness diffusion in y-direction" ; vsfltd:coordinates = "vlon vlat" ; vsfltd:cell_measures = "area: varea" ; float vsflld(time, sigma, y, x) ; vsflld:_FillValue = 9.96921e+36f ; vsflld:units = "W" ; vsflld:long_name = "Salt flux due to lateral diffusion in y-direction" ; vsflld:coordinates = "vlon vlat" ; vsflld:cell_measures = "area: varea" ; float wflx(time, sigma, y, x) ; wflx:_FillValue = 9.96921e+36f ; wflx:units = "kg s-1" ; wflx:long_name = "Vertical mass flux" ; wflx:coordinates = "plon plat" ; wflx:cell_measures = "area: parea" ; float wflx2(time, sigma, y, x) ; wflx2:_FillValue = 9.96921e+36f ; wflx2:units = "kg2 s-2" ; wflx2:long_name = "Vertical mass flux squared" ; wflx2:coordinates = "plon plat" ; wflx2:cell_measures = "area: parea" ; float bfsq(time, sigma, y, x) ; bfsq:_FillValue = 9.96921e+36f ; bfsq:units = "s-1" ; bfsq:long_name = "Squared buoyancy frequency" ; bfsq:coordinates = "plon plat" ; bfsq:cell_measures = "area: parea" ; float pv(time, sigma, y, x) ; pv:_FillValue = 9.96921e+36f ; pv:units = "m-1 s-1" ; pv:long_name = "Potential vorticity" ; pv:coordinates = "plon plat" ; pv:cell_measures = "area: parea" ; float difint(time, sigma, y, x) ; difint:_FillValue = 9.96921e+36f ; difint:units = "m2 s-1" ; difint:long_name = "Layer interface diffusivity" ; difint:coordinates = "plon plat" ; difint:cell_measures = "area: parea" ; float difiso(time, sigma, y, x) ; difiso:_FillValue = 9.96921e+36f ; difiso:units = "m2 s-1" ; difiso:long_name = "Isopycnal diffusivity" ; difiso:coordinates = "plon plat" ; difiso:cell_measures = "area: parea" ; float difdia(time, sigma, y, x) ; difdia:_FillValue = 9.96921e+36f ; difdia:units = "m2 s-1" ; difdia:long_name = "Diapycnal diffusivity" ; difdia:coordinates = "plon plat" ; difdia:cell_measures = "area: parea" ; float tke(time, sigma, y, x) ; tke:_FillValue = 9.96921e+36f ; tke:units = "m2 s-2" ; tke:long_name = "TKE" ; tke:standard_name = "Turbulent kinetic energy" ; tke:coordinates = "plon plat" ; tke:cell_measures = "area: parea" ; float gls_psi(time, sigma, y, x) ; gls_psi:_FillValue = 9.96921e+36f ; gls_psi:units = "m2 s-3" ; gls_psi:long_name = "GLS_PSI" ; gls_psi:standard_name = "Generic length scale" ; gls_psi:coordinates = "plon plat" ; gls_psi:cell_measures = "area: parea" ; float dzlvl(time, depth, y, x) ; dzlvl:_FillValue = 9.96921e+36f ; dzlvl:units = "m" ; dzlvl:long_name = "Layer thickness" ; dzlvl:coordinates = "plon plat" ; dzlvl:cell_measures = "area: parea" ; float templvl(time, depth, y, x) ; templvl:_FillValue = 9.96921e+36f ; templvl:units = "degC" ; templvl:long_name = "Temperature" ; templvl:standard_name = "Ocean temperature" ; templvl:coordinates = "plon plat" ; templvl:cell_measures = "area: parea" ; float salnlvl(time, depth, y, x) ; salnlvl:_FillValue = 9.96921e+36f ; salnlvl:units = "g kg-1" ; salnlvl:long_name = "Salinity" ; salnlvl:standard_name = "Ocean salinity" ; salnlvl:coordinates = "plon plat" ; salnlvl:cell_measures = "area: parea" ; float uvellvl(time, depth, y, x) ; uvellvl:_FillValue = 9.96921e+36f ; uvellvl:units = "m s-1" ; uvellvl:long_name = "Velocity x-component" ; uvellvl:coordinates = "ulon ulat" ; uvellvl:cell_measures = "area: uarea" ; float vvellvl(time, depth, y, x) ; vvellvl:_FillValue = 9.96921e+36f ; vvellvl:units = "m s-1" ; vvellvl:long_name = "Velocity y-component" ; vvellvl:coordinates = "vlon vlat" ; vvellvl:cell_measures = "area: varea" ; float uflxlvl(time, depth, y, x) ; uflxlvl:_FillValue = 9.96921e+36f ; uflxlvl:units = "kg s-1" ; uflxlvl:long_name = "Mass flux in x-direction" ; uflxlvl:coordinates = "ulon ulat" ; uflxlvl:cell_measures = "area: uarea" ; float vflxlvl(time, depth, y, x) ; vflxlvl:_FillValue = 9.96921e+36f ; vflxlvl:units = "kg s-1" ; vflxlvl:long_name = "Mass flux in y-direction" ; vflxlvl:coordinates = "vlon vlat" ; vflxlvl:cell_measures = "area: varea" ; float uhflxlvl(time, depth, y, x) ; uhflxlvl:_FillValue = 9.96921e+36f ; uhflxlvl:units = "W" ; uhflxlvl:long_name = "Heat flux in x-direction" ; uhflxlvl:coordinates = "ulon ulat" ; uhflxlvl:cell_measures = "area: uarea" ; float vhflxlvl(time, depth, y, x) ; vhflxlvl:_FillValue = 9.96921e+36f ; vhflxlvl:units = "W" ; vhflxlvl:long_name = "Heat flux in y-direction" ; vhflxlvl:coordinates = "vlon vlat" ; vhflxlvl:cell_measures = "area: varea" ; float usflxlvl(time, depth, y, x) ; usflxlvl:_FillValue = 9.96921e+36f ; usflxlvl:units = "kg s-1" ; usflxlvl:long_name = "Salt flux in x-direction" ; usflxlvl:coordinates = "ulon ulat" ; usflxlvl:cell_measures = "area: uarea" ; float vsflxlvl(time, depth, y, x) ; vsflxlvl:_FillValue = 9.96921e+36f ; vsflxlvl:units = "kg s-1" ; vsflxlvl:long_name = "Salt flux in y-direction" ; vsflxlvl:coordinates = "vlon vlat" ; vsflxlvl:cell_measures = "area: varea" ; float wflxlvl(time, depth, y, x) ; wflxlvl:_FillValue = 9.96921e+36f ; wflxlvl:units = "kg s-1" ; wflxlvl:long_name = "Vertical mass flux" ; wflxlvl:coordinates = "plon plat" ; wflxlvl:cell_measures = "area: parea" ; float wflx2lvl(time, depth, y, x) ; wflx2lvl:_FillValue = 9.96921e+36f ; wflx2lvl:units = "kg2 s-2" ; wflx2lvl:long_name = "Vertical mass flux squared" ; wflx2lvl:coordinates = "plon plat" ; wflx2lvl:cell_measures = "area: parea" ; float bfsqlvl(time, depth, y, x) ; bfsqlvl:_FillValue = 9.96921e+36f ; bfsqlvl:units = "s-1" ; bfsqlvl:long_name = "Squared buoyancy frequancy" ; bfsqlvl:coordinates = "plon plat" ; bfsqlvl:cell_measures = "area: parea" ; float pvlvl(time, depth, y, x) ; pvlvl:_FillValue = 9.96921e+36f ; pvlvl:units = "m-1 s-1" ; pvlvl:long_name = "Potential vorticity" ; pvlvl:coordinates = "plon plat" ; pvlvl:cell_measures = "area: parea" ; float difintlvl(time, depth, y, x) ; difintlvl:_FillValue = 9.96921e+36f ; difintlvl:units = "m2 s-1" ; difintlvl:long_name = "Layer interface diffusivity" ; difintlvl:coordinates = "plon plat" ; difintlvl:cell_measures = "area: parea" ; float difisolvl(time, depth, y, x) ; difisolvl:_FillValue = 9.96921e+36f ; difisolvl:units = "m2 s-1" ; difisolvl:long_name = "Isopycnal diffusivity" ; difisolvl:coordinates = "plon plat" ; difisolvl:cell_measures = "area: parea" ; float difdialvl(time, depth, y, x) ; difdialvl:_FillValue = 9.96921e+36f ; difdialvl:units = "m2 s-1" ; difdialvl:long_name = "Diapycnal diffusivity" ; difdialvl:coordinates = "plon plat" ; difdialvl:cell_measures = "area: parea" ; float tkelvl(time, depth, y, x) ; tkelvl:_FillValue = 9.96921e+36f ; tkelvl:units = "m2 s-2" ; tkelvl:long_name = "Turbulent Kinetic Energy" ; tkelvl:coordinates = "plon plat" ; tkelvl:cell_measures = "area: parea" ; float gls_psilvl(time, depth, y, x) ; gls_psilvl:_FillValue = 9.96921e+36f ; gls_psilvl:units = "m2 s-3" ; gls_psilvl:long_name = "Generic length scale" ; gls_psilvl:coordinates = "plon plat" ; gls_psilvl:cell_measures = "area: parea" ; double mmflxl(time, region, sigma, lat) ; mmflxl:_FillValue = 9.96920996838687e+36 ; mmflxl:long_name = "Overturning stream-function on isopycnic layers" ; mmflxl:units = "kg s-1" ; double mmflxd(time, region, depth, lat) ; mmflxd:_FillValue = 9.96920996838687e+36 ; mmflxd:long_name = "Overturning stream-function on z-levels" ; mmflxd:units = "kg s-1" ; double mmftdl(time, region, sigma, lat) ; mmftdl:_FillValue = 9.96920996838687e+36 ; mmftdl:long_name = "Overturning stream-function due to thickness diffusion on isopycnic layers" ; mmftdl:units = "kg s-1" ; double mmftdd(time, region, depth, lat) ; mmftdd:_FillValue = 9.96920996838687e+36 ; mmftdd:long_name = "Overturning stream-function due to thickness diffusion on z-levels" ; mmftdd:units = "kg s-1" ; double mhflx(time, region, lat) ; mhflx:_FillValue = 9.96920996838687e+36 ; mhflx:long_name = "Meridional heat flux" ; mhflx:units = "W" ; double mhftd(time, region, lat) ; mhftd:_FillValue = 9.96920996838687e+36 ; mhftd:long_name = "Meridional heat flux due to thickness diffusion" ; mhftd:units = "W" ; double mhfld(time, region, lat) ; mhfld:_FillValue = 9.96920996838687e+36 ; mhfld:long_name = "Meridional heat flux due to lateral diffusion" ; mhfld:units = "W" ; double msflx(time, region, lat) ; msflx:_FillValue = 9.96920996838687e+36 ; msflx:long_name = "Meridional salt flux" ; msflx:units = "kg s-1" ; double msftd(time, region, lat) ; msftd:_FillValue = 9.96920996838687e+36 ; msftd:long_name = "Meridional salt flux due to thickness diffusion" ; msftd:units = "kg s-1" ; double msfld(time, region, lat) ; msfld:_FillValue = 9.96920996838687e+36 ; msfld:long_name = "Meridional salt flux due to lateral diffusion" ; msfld:units = "kg s-1" ; double voltr(time, section) ; voltr:_FillValue = 9.96920996838687e+36 ; voltr:long_name = "Section transports" ; voltr:units = "kg s-1" ; double massgs(time) ; massgs:_FillValue = 9.96920996838687e+36 ; massgs:long_name = "Sea water mass" ; massgs:units = "kg" ; double volgs(time) ; volgs:_FillValue = 9.96920996838687e+36 ; volgs:long_name = "Sea water volume" ; volgs:units = "m3" ; double salnga(time) ; salnga:_FillValue = 9.96920996838687e+36 ; salnga:long_name = "Global average salinity" ; salnga:units = "g kg-1" ; double tempga(time) ; tempga:_FillValue = 9.96920996838687e+36 ; tempga:long_name = "Global average temperature" ; tempga:units = "degC" ; double sssga(time) ; sssga:_FillValue = 9.96920996838687e+36 ; sssga:long_name = "Global average sea surface salinity" ; sssga:units = "g kg-1" ; double sstga(time) ; sstga:_FillValue = 9.96920996838687e+36 ; sstga:long_name = "Global average sea surface temperature" ; sstga:units = "degC" ; float dp_trc(time, sigma, y, x) ; dp_trc:_FillValue = 9.96921e+36f ; dp_trc:units = "Pa" ; dp_trc:long_name = "Layer pressure thickness" ; dp_trc:coordinates = "plon plat" ; dp_trc:cell_measures = "area: parea" ; float idlage(time, sigma, y, x) ; idlage:_FillValue = 9.96921e+36f ; idlage:units = "year" ; idlage:long_name = "Ideal age" ; idlage:standard_name = "sea_water_age_since_surface_contact" ; idlage:coordinates = "plon plat" ; idlage:cell_measures = "area: parea" ; float idlagelvl(time, depth, y, x) ; idlagelvl:_FillValue = 9.96921e+36f ; idlagelvl:units = "year" ; idlagelvl:long_name = "Ideal age" ; idlagelvl:standard_name = "sea_water_age_since_surface_contact" ; idlagelvl:coordinates = "plon plat" ; idlagelvl:cell_measures = "area: parea" ; }