netcdf roms { | netcdf his_20131024 { dimensions: dimensions: xi_rho = 121 ; | xi_rho = 440 ; xi_u = 120 ; | xi_u = 439 ; xi_v = 121 ; | xi_v = 440 ; xi_psi = 120 ; | xi_psi = 439 ; eta_rho = 81 ; | eta_rho = 320 ; eta_u = 81 ; | eta_u = 320 ; eta_v = 80 ; | eta_v = 319 ; eta_psi = 80 ; | eta_psi = 319 ; N = 32 ; | N = 36 ; s_rho = 32 ; | s_rho = 36 ; s_w = 33 ; | s_w = 37 ; tracer = 2 ; | tracer = 14 ; boundary = 4 ; boundary = 4 ; ocean_time = 5 ; | ocean_time = UNLIMITED ; // (40 currently) time = 5 ; < variables: variables: int ntimes ; int ntimes ; ntimes:long_name = "number of long time-steps ntimes:long_name = "number of long time-steps int ndtfast ; int ndtfast ; ndtfast:long_name = "number of short time-ste ndtfast:long_name = "number of short time-ste double dt ; double dt ; dt:units = "second" ; < dt:long_name = "size of long time-steps" ; dt:long_name = "size of long time-steps" ; > dt:units = "second" ; double dtfast ; double dtfast ; dtfast:units = "second" ; < dtfast:long_name = "size of short time-steps" dtfast:long_name = "size of short time-steps" > dtfast:units = "second" ; double dstart ; double dstart ; dstart:units = "days since 1858-11-17 00:00:0 < dstart:long_name = "time stamp assigned to mo dstart:long_name = "time stamp assigned to mo > dstart:units = "days since 1858-11-17 00:00:0 int nHIS ; int nHIS ; nHIS:long_name = "number of time-steps betwee nHIS:long_name = "number of time-steps betwee > int ndefHIS ; > ndefHIS:long_name = "number of time-steps bet int nRST ; int nRST ; nRST:long_name = "number of time-steps betwee nRST:long_name = "number of time-steps betwee nRST:cycle = "only latest two records are mai nRST:cycle = "only latest two records are mai int ntsAVG ; | int ntsDIA ; ntsAVG:long_name = "starting time-step for ac | ntsDIA:long_name = "starting time-step for ac int nAVG ; | int nDIA ; nAVG:long_name = "number of time-steps betwee | nDIA:long_name = "number of time-steps betwee > int ndefDIA ; > ndefDIA:long_name = "number of time-steps bet > int nSTA ; > nSTA:long_name = "number of time-steps betwee double Falpha ; double Falpha ; Falpha:long_name = "Power-law shape barotropi Falpha:long_name = "Power-law shape barotropi double Fbeta ; double Fbeta ; Fbeta:long_name = "Power-law shape barotropic Fbeta:long_name = "Power-law shape barotropic double Fgamma ; double Fgamma ; Fgamma:long_name = "Power-law shape barotropi Fgamma:long_name = "Power-law shape barotropi double visc2 ; | double nl_tnu2(tracer) ; visc2:units = "meter2 second-1" ; | nl_tnu2:long_name = "nonlinear model Laplacia visc2:long_name = "Laplacian mixing coefficie | nl_tnu2:units = "meter2 second-1" ; > double nl_visc2 ; > nl_visc2:long_name = "nonlinear model Laplaci > nl_visc2:units = "meter2 second-1" ; double Akt_bak(tracer) ; double Akt_bak(tracer) ; Akt_bak:units = "meter2 second-1" ; < Akt_bak:long_name = "background vertical mixi Akt_bak:long_name = "background vertical mixi > Akt_bak:units = "meter2 second-1" ; double Akv_bak ; double Akv_bak ; Akv_bak:units = "meter2 second-1" ; < Akv_bak:long_name = "background vertical mixi Akv_bak:long_name = "background vertical mixi > Akv_bak:units = "meter2 second-1" ; double Akk_bak ; double Akk_bak ; Akk_bak:units = "meter2 second-1" ; < Akk_bak:long_name = "background vertical mixi Akk_bak:long_name = "background vertical mixi > Akk_bak:units = "meter2 second-1" ; double Akp_bak ; double Akp_bak ; Akp_bak:units = "meter2 second-1" ; < Akp_bak:long_name = "background vertical mixi Akp_bak:long_name = "background vertical mixi > Akp_bak:units = "meter2 second-1" ; double rdrg ; double rdrg ; rdrg:units = "meter second-1" ; < rdrg:long_name = "linear drag coefficient" ; rdrg:long_name = "linear drag coefficient" ; > rdrg:units = "meter second-1" ; double rdrg2 ; double rdrg2 ; rdrg2:units = "nondimensional" ; < rdrg2:long_name = "quadratic drag coefficient rdrg2:long_name = "quadratic drag coefficient double Zob ; double Zob ; Zob:units = "meter" ; < Zob:long_name = "bottom roughness" ; Zob:long_name = "bottom roughness" ; > Zob:units = "meter" ; double Zos ; double Zos ; Zos:units = "meter" ; < Zos:long_name = "surface roughness" ; Zos:long_name = "surface roughness" ; > Zos:units = "meter" ; double Znudg ; double Znudg ; Znudg:units = "day-1" ; < Znudg:long_name = "free-surface nudging/relax Znudg:long_name = "free-surface nudging/relax > Znudg:units = "day-1" ; double M2nudg ; double M2nudg ; M2nudg:units = "day-1" ; < M2nudg:long_name = "2D momentum nudging/relax M2nudg:long_name = "2D momentum nudging/relax > M2nudg:units = "day-1" ; double M3nudg ; double M3nudg ; M3nudg:units = "day-1" ; < M3nudg:long_name = "3D momentum nudging/relax M3nudg:long_name = "3D momentum nudging/relax > M3nudg:units = "day-1" ; double Tnudg(tracer) ; double Tnudg(tracer) ; Tnudg:units = "day-1" ; < Tnudg:long_name = "Tracers nudging/relaxation Tnudg:long_name = "Tracers nudging/relaxation > Tnudg:units = "day-1" ; double FSobc_in(boundary) ; double FSobc_in(boundary) ; FSobc_in:units = "second-1" ; < FSobc_in:long_name = "free-surface inflow, nu FSobc_in:long_name = "free-surface inflow, nu > FSobc_in:units = "second-1" ; double FSobc_out(boundary) ; double FSobc_out(boundary) ; FSobc_out:units = "second-1" ; < FSobc_out:long_name = "free-surface outflow, FSobc_out:long_name = "free-surface outflow, > FSobc_out:units = "second-1" ; double M2obc_in(boundary) ; double M2obc_in(boundary) ; M2obc_in:units = "second-1" ; < M2obc_in:long_name = "2D momentum inflow, nud M2obc_in:long_name = "2D momentum inflow, nud > M2obc_in:units = "second-1" ; double M2obc_out(boundary) ; double M2obc_out(boundary) ; M2obc_out:units = "second-1" ; < M2obc_out:long_name = "2D momentum outflow, n M2obc_out:long_name = "2D momentum outflow, n double M3obc_in(boundary) ; | M2obc_out:units = "second-1" ; M3obc_in:units = "second-1" ; < M3obc_in:long_name = "3D momentum inflow, nud < double M3obc_out(boundary) ; < M3obc_out:units = "second-1" ; < M3obc_out:long_name = "3D momentum outflow, n < double Tobc_in(boundary, tracer) ; double Tobc_in(boundary, tracer) ; Tobc_in:units = "second-1" ; < Tobc_in:long_name = "tracers inflow, nudging Tobc_in:long_name = "tracers inflow, nudging > Tobc_in:units = "second-1" ; double Tobc_out(boundary, tracer) ; double Tobc_out(boundary, tracer) ; Tobc_out:units = "second-1" ; < Tobc_out:long_name = "tracers outflow, nudgin Tobc_out:long_name = "tracers outflow, nudgin > Tobc_out:units = "second-1" ; > double M3obc_in(boundary) ; > M3obc_in:long_name = "3D momentum inflow, nud > M3obc_in:units = "second-1" ; > double M3obc_out(boundary) ; > M3obc_out:long_name = "3D momentum outflow, n > M3obc_out:units = "second-1" ; double rho0 ; double rho0 ; rho0:units = "kilogram meter-3" ; < rho0:long_name = "mean density used in Boussi rho0:long_name = "mean density used in Boussi > rho0:units = "kilogram meter-3" ; double gamma2 ; double gamma2 ; gamma2:units = "nondimensional" ; | gamma2:long_name = "slipperiness parameter" ; gamma2:long_name = "Slipperiness parameter" ; | int LtracerSrc(tracer) ; > LtracerSrc:long_name = "tracer point sources > LtracerSrc:flag_values = 0, 1 ; > LtracerSrc:flag_meanings = ".FALSE. .TRUE." ; > int BioIter ; > BioIter:long_name = "number of iterations to > double AttSW ; > AttSW:long_name = "light attenuation by seawa > AttSW:units = "meter-1" ; > double AttChl ; > AttChl:long_name = "light attenuation by chlo > AttChl:units = "meter-2 milligram_Chl-1" ; > double PARfrac ; > PARfrac:long_name = "photosynthetically avail > double Vp0 ; > Vp0:long_name = "Eppley temperature-limited g > double I_thNH4 ; > I_thNH4:long_name = "radiation threshold for > I_thNH4:units = "watt meter-2" ; > double D_p5NH4 ; > D_p5NH4:long_name = "half-saturation radiatio > D_p5NH4:units = "watt meter-2" ; > double NitriR ; > NitriR:long_name = "nitrification rate" ; > NitriR:units = "day-1" ; > double K_NO3 ; > K_NO3:long_name = "inverse half-saturation fo > K_NO3:units = "meter3 millimole_N-1" ; > double K_NH4 ; > K_NH4:long_name = "inverse half-saturation fo > K_NH4:units = "meter3 millimole_N-1" ; > double K_Phy ; > K_Phy:long_name = "zooplankton half-saturatio > K_Phy:units = "day-1" ; > double Chl2C_m ; > Chl2C_m:long_name = "maximum chlorophyll to c > Chl2C_m:units = "milligram_chl milligram_carb > double ChlMin ; > ChlMin:long_name = "minimum chlorophyll thres > ChlMin:units = "milligram_chl meter-3" ; > double PhyCN ; > PhyCN:long_name = "phytoplankton Carbon:Nitro > PhyCN:units = "mole_C mole_N-1" ; > double PhyIP ; > PhyIP:long_name = "phytoplankton, NH4 inhibit > PhyIP:units = "millimole_N-1" ; > double PhyIS ; > PhyIS:long_name = "phytoplankton, initial slo > PhyIS:units = "milligram_C milligram_Chl-1 wa > double PhyMin ; > PhyMin:long_name = "minimum phytoplankton thr > PhyMin:units = "millimole_N meter-3" ; > double PhyMR ; > PhyMR:long_name = "phytoplankton mortality ra > PhyMR:units = "day-1" ; > double ZooAE_N ; > ZooAE_N:long_name = "zooplankton mitrogen ass > double ZooBM ; > ZooBM:long_name = "rate for zooplankton basal > ZooBM:units = "day-1" ; > double ZooCN ; > ZooCN:long_name = "zooplankton Carbon:Nitroge > ZooCN:units = "mole_C mole_N-1" ; > double ZooER ; > ZooER:long_name = "zooplankton specific excre > ZooER:units = "day-1" ; > double ZooGR ; > ZooGR:long_name = "zooplankton maximum growth > ZooGR:units = "day-1" ; > double ZooMin ; > ZooMin:long_name = "minimum zooplankton thres > ZooMin:units = "millimole_N meter-3" ; > double ZooMR ; > ZooMR:long_name = "zooplankton mortality rate > ZooMR:units = "day-1" ; > double LDeRRN ; > LDeRRN:long_name = "rate of large detritus ni > LDeRRN:units = "day-1" ; > double LDeRRC ; > LDeRRC:long_name = "rate of large detritus ca > LDeRRC:units = "day-1" ; > double CoagR ; > CoagR:long_name = "coagulation rate" ; > CoagR:units = "day-1" ; > double SDeRRN ; > SDeRRN:long_name = "remineralization rate for > SDeRRN:units = "day-1" ; > double SDeRRC ; > SDeRRC:long_name = "remineralization rate for > SDeRRC:units = "day-1" ; > double wPhy ; > wPhy:long_name = "vertical sinking velocity f > wPhy:units = "meter day-1" ; > double wLDet ; > wLDet:long_name = "vertical sinking velocity > wLDet:units = "meter day-1" ; > double wSDet ; > wSDet:long_name = "vertical sinking velocity > wSDet:units = "meter day-1" ; > double pCO2air ; > pCO2air:long_name = "partial pressure of CO2 > pCO2air:units = "parts per million by volume" char spherical ; char spherical ; spherical:long_name = "grid type logical swit spherical:long_name = "grid type logical swit spherical:flag_values = "T, F" ; spherical:flag_values = "T, F" ; spherical:flag_meanings = "spherical Cartesia spherical:flag_meanings = "spherical Cartesia double xl ; double xl ; xl:units = "meter" ; < xl:long_name = "domain length in the XI-direc xl:long_name = "domain length in the XI-direc > xl:units = "meter" ; double el ; double el ; > el:long_name = "domain length in the ETA-dire el:units = "meter" ; el:units = "meter" ; el:long_name = "domain length in the ETAI-dir | int Vtransform ; > Vtransform:long_name = "vertical terrain-foll > int Vstretching ; > Vstretching:long_name = "vertical terrain-fol double theta_s ; double theta_s ; theta_s:units = "nondimensional" ; < theta_s:long_name = "S-coordinate surface con theta_s:long_name = "S-coordinate surface con double theta_b ; double theta_b ; theta_b:units = "nondimensional" ; | theta_b:long_name = "S-coordinate bottom cont theta_b:long_name = "S-coordinate surface con < double Tcline ; double Tcline ; Tcline:units = "meter" ; < Tcline:long_name = "S-coordinate surface/bott Tcline:long_name = "S-coordinate surface/bott > Tcline:units = "meter" ; double hc ; double hc ; hc:units = "meter" ; < hc:long_name = "S-coordinate parameter, criti hc:long_name = "S-coordinate parameter, criti > hc:units = "meter" ; > double s_rho(s_rho) ; > s_rho:long_name = "S-coordinate at RHO-points > s_rho:valid_min = -1. ; > s_rho:valid_max = 0. ; > s_rho:positive = "up" ; > s_rho:standard_name = "ocean_s_coordinate_g1" > s_rho:formula_terms = "s: s_rho C: Cs_r eta: > s_rho:field = "s_rho, scalar" ; > double s_w(s_w) ; > s_w:long_name = "S-coordinate at W-points" ; > s_w:valid_min = -1. ; > s_w:valid_max = 0. ; > s_w:positive = "up" ; > s_w:standard_name = "ocean_s_coordinate_g1" ; > s_w:formula_terms = "s: s_w C: Cs_w eta: zeta > s_w:field = "s_w, scalar" ; double Cs_r(s_rho) ; double Cs_r(s_rho) ; Cs_r:units = "nondimensional" ; < Cs_r:long_name = "S-coordinate stretching cur Cs_r:long_name = "S-coordinate stretching cur Cs_r:valid_min = -1. ; Cs_r:valid_min = -1. ; Cs_r:valid_max = 0. ; Cs_r:valid_max = 0. ; Cs_r:field = "Cs_r, scalar" ; Cs_r:field = "Cs_r, scalar" ; double Cs_w(s_w) ; double Cs_w(s_w) ; Cs_w:units = "nondimensional" ; < Cs_w:long_name = "S-coordinate stretching cur Cs_w:long_name = "S-coordinate stretching cur Cs_w:valid_min = -1. ; Cs_w:valid_min = -1. ; Cs_w:valid_max = 0. ; Cs_w:valid_max = 0. ; Cs_w:field = "Cs_w, scalar" ; Cs_w:field = "Cs_w, scalar" ; double h(eta_rho, xi_rho) ; double h(eta_rho, xi_rho) ; h:units = "meter" ; < h:long_name = "bathymetry at RHO-points" ; h:long_name = "bathymetry at RHO-points" ; h:coordinates = "lat_rho lon_rho" ; | h:units = "meter" ; > h:coordinates = "lon_rho lat_rho" ; h:field = "bath, scalar" ; h:field = "bath, scalar" ; h:standard_name = "sea_floor_depth" ; < double f(eta_rho, xi_rho) ; double f(eta_rho, xi_rho) ; f:units = "second-1" ; < f:long_name = "Coriolis parameter at RHO-poin f:long_name = "Coriolis parameter at RHO-poin f:coordinates = "lat_rho lon_rho" ; | f:units = "second-1" ; > f:coordinates = "lon_rho lat_rho" ; f:field = "coriolis, scalar" ; f:field = "coriolis, scalar" ; double pm(eta_rho, xi_rho) ; double pm(eta_rho, xi_rho) ; pm:units = "meter-1" ; < pm:long_name = "curvilinear coordinate metric pm:long_name = "curvilinear coordinate metric pm:coordinates = "lat_rho lon_rho" ; | pm:units = "meter-1" ; > pm:coordinates = "lon_rho lat_rho" ; pm:field = "pm, scalar" ; pm:field = "pm, scalar" ; double pn(eta_rho, xi_rho) ; double pn(eta_rho, xi_rho) ; pn:units = "meter-1" ; < pn:long_name = "curvilinear coordinate metric pn:long_name = "curvilinear coordinate metric pn:coordinates = "lat_rho lon_rho" ; | pn:units = "meter-1" ; > pn:coordinates = "lon_rho lat_rho" ; pn:field = "pn, scalar" ; pn:field = "pn, scalar" ; double angle(eta_rho, xi_rho) ; < angle:units = "radians" ; < angle:long_name = "angle between XI-axis and < angle:coordinates = "lat_rho lon_rho " ; < angle:field = "angle, scalar" ; < double s_rho(s_rho) ; < s_rho:units = "nondimensional" ; < s_rho:long_name = "S-coordinate at RHO-points < s_rho:valid_min = -1. ; < s_rho:valid_max = 0. ; < s_rho:positive = "up" ; < s_rho:standard_name = "ocean_s_coordinate_g2" < s_rho:formula_terms = "s: s_rho C: Cs_r eta: < s_rho:field = "s_rho, scalar" ; < s_rho:CoordinateTransformType = "Vertical" ; < s_rho:CoordinateAxisType = "GeoZ" ; < s_rho:CoordinateZisPositive = "up" ; < s_rho:CoordinateAxes = "s_rho" ; < double s_w(s_w) ; < s_w:units = "nondimensional" ; < s_w:long_name = "S-coordinate at W-points" ; < s_w:valid_min = -1. ; < s_w:valid_max = 0. ; < s_w:field = "s_w, scalar" ; < double lon_rho(eta_rho, xi_rho) ; double lon_rho(eta_rho, xi_rho) ; lon_rho:units = "degree-east" ; < lon_rho:long_name = "longitude of RHO-points" lon_rho:long_name = "longitude of RHO-points" > lon_rho:units = "degree_east" ; lon_rho:standard_name = "longitude" ; lon_rho:standard_name = "longitude" ; lon_rho:field = "lon_rho, scalar" ; lon_rho:field = "lon_rho, scalar" ; lon_rho:CoordinateAxisType = "Lon" ; < double lat_rho(eta_rho, xi_rho) ; double lat_rho(eta_rho, xi_rho) ; lat_rho:units = "degree-north" ; < lat_rho:long_name = "latitude of RHO-points" lat_rho:long_name = "latitude of RHO-points" > lat_rho:units = "degree_north" ; lat_rho:standard_name = "latitude" ; lat_rho:standard_name = "latitude" ; lat_rho:field = "lat_rho, scalar" ; lat_rho:field = "lat_rho, scalar" ; lat_rho:CoordinateAxisType = "Lat" ; < double lon_u(eta_u, xi_u) ; double lon_u(eta_u, xi_u) ; lon_u:units = "degrees_east" ; < lon_u:long_name = "longitude of U-points" ; lon_u:long_name = "longitude of U-points" ; > lon_u:units = "degree_east" ; lon_u:standard_name = "longitude" ; lon_u:standard_name = "longitude" ; lon_u:field = "lon_u, scalar" ; lon_u:field = "lon_u, scalar" ; lon_u:CoordinateAxisType = "Lon" ; < double lat_u(eta_u, xi_u) ; double lat_u(eta_u, xi_u) ; lat_u:units = "degrees_north" ; < lat_u:long_name = "latitude of U-points" ; lat_u:long_name = "latitude of U-points" ; > lat_u:units = "degree_north" ; lat_u:standard_name = "latitude" ; lat_u:standard_name = "latitude" ; lat_u:field = "lat_u, scalar" ; lat_u:field = "lat_u, scalar" ; lat_u:CoordinateAxisType = "Lat" ; < double lon_v(eta_v, xi_v) ; double lon_v(eta_v, xi_v) ; lon_v:units = "degrees_east" ; < lon_v:long_name = "longitude of V-points" ; lon_v:long_name = "longitude of V-points" ; > lon_v:units = "degree_east" ; lon_v:standard_name = "longitude" ; lon_v:standard_name = "longitude" ; lon_v:field = "lon_v, scalar" ; lon_v:field = "lon_v, scalar" ; lon_v:CoordinateAxisType = "Lon" ; < double lat_v(eta_v, xi_v) ; double lat_v(eta_v, xi_v) ; lat_v:units = "degrees_north" ; < lat_v:long_name = "latitude of V-points" ; lat_v:long_name = "latitude of V-points" ; > lat_v:units = "degree_north" ; lat_v:standard_name = "latitude" ; lat_v:standard_name = "latitude" ; lat_v:field = "lat_v, scalar" ; lat_v:field = "lat_v, scalar" ; lat_v:CoordinateAxisType = "Lat" ; < double lon_psi(eta_psi, xi_psi) ; double lon_psi(eta_psi, xi_psi) ; lon_psi:units = "degrees_east" ; < lon_psi:long_name = "longitude of PSI-points" lon_psi:long_name = "longitude of PSI-points" > lon_psi:units = "degree_east" ; lon_psi:standard_name = "longitude" ; lon_psi:standard_name = "longitude" ; lon_psi:field = "lon_psi, scalar" ; lon_psi:field = "lon_psi, scalar" ; lon_psi:CoordinateAxisType = "Lon" ; < double lat_psi(eta_psi, xi_psi) ; double lat_psi(eta_psi, xi_psi) ; lat_psi:units = "degrees_north" ; < lat_psi:long_name = "latitude of PSI-points" lat_psi:long_name = "latitude of PSI-points" > lat_psi:units = "degree_north" ; lat_psi:standard_name = "latitude" ; lat_psi:standard_name = "latitude" ; lat_psi:field = "lat_psi, scalar" ; lat_psi:field = "lat_psi, scalar" ; lat_psi:CoordinateAxisType = "Lat" ; | double angle(eta_rho, xi_rho) ; > angle:long_name = "angle between XI-axis and > angle:units = "radians" ; > angle:coordinates = "lon_rho lat_rho" ; > angle:field = "angle, scalar" ; double mask_rho(eta_rho, xi_rho) ; double mask_rho(eta_rho, xi_rho) ; mask_rho:long_name = "mask on RHO-points" ; mask_rho:long_name = "mask on RHO-points" ; mask_rho:flag_values = "0.0, 1.0" ; | mask_rho:flag_values = 0., 1. ; mask_rho:flag_meanings = "land water" ; mask_rho:flag_meanings = "land water" ; mask_rho:coordinates = "lat_rho lon_rho " ; | mask_rho:coordinates = "lon_rho lat_rho" ; double mask_u(eta_u, xi_u) ; double mask_u(eta_u, xi_u) ; mask_u:long_name = "mask on U-points" ; mask_u:long_name = "mask on U-points" ; mask_u:flag_values = "0.0, 1.0" ; | mask_u:flag_values = 0., 1. ; mask_u:flag_meanings = "land water" ; mask_u:flag_meanings = "land water" ; mask_u:coordinates = "lat_u lon_u " ; | mask_u:coordinates = "lon_u lat_u" ; double mask_v(eta_v, xi_v) ; double mask_v(eta_v, xi_v) ; mask_v:long_name = "mask on V-points" ; mask_v:long_name = "mask on V-points" ; mask_v:flag_values = "0.0, 1.0" ; | mask_v:flag_values = 0., 1. ; mask_v:flag_meanings = "land water" ; mask_v:flag_meanings = "land water" ; mask_v:coordinates = "lat_v lon_v " ; | mask_v:coordinates = "lon_v lat_v" ; double mask_psi(eta_psi, xi_psi) ; double mask_psi(eta_psi, xi_psi) ; mask_psi:long_name = "mask on psi-points" ; mask_psi:long_name = "mask on psi-points" ; mask_psi:flag_values = "0.0, 1.0" ; | mask_psi:flag_values = 0., 1. ; mask_psi:flag_meanings = "land water" ; mask_psi:flag_meanings = "land water" ; mask_psi:coordinates = "lat_psi lon_psi " ; | mask_psi:coordinates = "lon_psi lat_psi" ; double ocean_time(ocean_time) ; double ocean_time(ocean_time) ; ocean_time:units = "seconds since 1858-11-17 < ocean_time:long_name = "time since initializa ocean_time:long_name = "time since initializa > ocean_time:units = "seconds since 1858-11-17 ocean_time:calendar = "gregorian" ; ocean_time:calendar = "gregorian" ; ocean_time:field = "time, scalar, series" ; ocean_time:field = "time, scalar, series" ; ocean_time:CoordinateAxisType = "Time" ; | float zeta(ocean_time, eta_rho, xi_rho) ; double time(time) ; < time:units = "days since 2010-12-01T00:00:00Z < time:long_name = "Forecast time for ForecastM < time:standard_name = "time" ; < time:CoordinateAxisType = "Time" ; < float zeta(time, eta_rho, xi_rho) ; < zeta:units = "meter" ; < zeta:long_name = "free-surface" ; zeta:long_name = "free-surface" ; > zeta:units = "meter" ; zeta:time = "ocean_time" ; zeta:time = "ocean_time" ; > zeta:coordinates = "lon_rho lat_rho ocean_tim zeta:field = "free-surface, scalar, series" ; zeta:field = "free-surface, scalar, series" ; zeta:coordinates = "time_run time lat_rho lon | zeta:_FillValue = 1.e+37f ; zeta:missing_value = -9999. ; | float ubar(ocean_time, eta_u, xi_u) ; zeta:standard_name = "sea_surface_height" ; < float ubar(time, eta_u, xi_u) ; < ubar:units = "meter second-1" ; < ubar:long_name = "vertically integrated u-mom ubar:long_name = "vertically integrated u-mom > ubar:units = "meter second-1" ; ubar:time = "ocean_time" ; ubar:time = "ocean_time" ; > ubar:coordinates = "lon_u lat_u ocean_time" ; ubar:field = "ubar-velocity, scalar, series" ubar:field = "ubar-velocity, scalar, series" ubar:coordinates = "time_run time lat_u lon_u | ubar:_FillValue = 1.e+37f ; ubar:missing_value = -9999. ; | float vbar(ocean_time, eta_v, xi_v) ; ubar:standard_name = "northward_sea_water_ver < float vbar(time, eta_v, xi_v) ; < vbar:units = "meter second-1" ; < vbar:long_name = "vertically integrated v-mom vbar:long_name = "vertically integrated v-mom > vbar:units = "meter second-1" ; vbar:time = "ocean_time" ; vbar:time = "ocean_time" ; > vbar:coordinates = "lon_v lat_v ocean_time" ; vbar:field = "vbar-velocity, scalar, series" vbar:field = "vbar-velocity, scalar, series" vbar:coordinates = "time_run time lat_v lon_v | vbar:_FillValue = 1.e+37f ; vbar:missing_value = -9999. ; | float u(ocean_time, s_rho, eta_u, xi_u) ; float u(time, s_rho, eta_u, xi_u) ; < u:units = "meter second-1" ; < u:long_name = "u-momentum component" ; u:long_name = "u-momentum component" ; > u:units = "meter second-1" ; u:time = "ocean_time" ; u:time = "ocean_time" ; > u:coordinates = "lon_u lat_u s_rho ocean_time u:field = "u-velocity, scalar, series" ; u:field = "u-velocity, scalar, series" ; u:coordinates = "time_run time s_rho lat_u lo | u:_FillValue = 1.e+37f ; u:missing_value = -9999. ; | float v(ocean_time, s_rho, eta_v, xi_v) ; u:standard_name = "eastward_sea_water_velocit < float v(time, s_rho, eta_v, xi_v) ; < v:units = "meter second-1" ; < v:long_name = "v-momentum component" ; v:long_name = "v-momentum component" ; > v:units = "meter second-1" ; v:time = "ocean_time" ; v:time = "ocean_time" ; > v:coordinates = "lon_v lat_v s_rho ocean_time v:field = "v-velocity, scalar, series" ; v:field = "v-velocity, scalar, series" ; v:coordinates = "time_run time s_rho lat_v lo | v:_FillValue = 1.e+37f ; v:missing_value = -9999. ; | float w(ocean_time, s_w, eta_rho, xi_rho) ; v:standard_name = "northward_sea_water_veloci < float w(time, s_w, eta_rho, xi_rho) ; < w:units = "meter second-1" ; < w:long_name = "vertical momentum component" ; w:long_name = "vertical momentum component" ; > w:units = "meter second-1" ; w:time = "ocean_time" ; w:time = "ocean_time" ; > w:coordinates = "lon_rho lat_rho s_w ocean_ti w:field = "w-velocity, scalar, series" ; w:field = "w-velocity, scalar, series" ; w:coordinates = "time_run time s_w lat_rho lo | w:_FillValue = 1.e+37f ; w:missing_value = -9999. ; | float temp(ocean_time, s_rho, eta_rho, xi_rho) ; w:standard_name = "upward_sea_water_velocity_ < float temp(time, s_rho, eta_rho, xi_rho) ; < temp:units = "Celsius" ; < temp:long_name = "potential temperature" ; temp:long_name = "potential temperature" ; > temp:units = "Celsius" ; temp:time = "ocean_time" ; temp:time = "ocean_time" ; > temp:coordinates = "lon_rho lat_rho s_rho oce temp:field = "temperature, scalar, series" ; temp:field = "temperature, scalar, series" ; temp:coordinates = "time_run time s_rho lat_r | temp:_FillValue = 1.e+37f ; temp:missing_value = -9999. ; | float salt(ocean_time, s_rho, eta_rho, xi_rho) ; temp:standard_name = "sea_water_potential_tem < float salt(time, s_rho, eta_rho, xi_rho) ; < salt:units = "PSU" ; < salt:long_name = "salinity" ; salt:long_name = "salinity" ; salt:time = "ocean_time" ; salt:time = "ocean_time" ; > salt:coordinates = "lon_rho lat_rho s_rho oce salt:field = "salinity, scalar, series" ; salt:field = "salinity, scalar, series" ; salt:coordinates = "time_run time s_rho lat_r | salt:_FillValue = 1.e+37f ; salt:missing_value = -9999. ; | float NO3(ocean_time, s_rho, eta_rho, xi_rho) ; salt:standard_name = "sea_water_salinity" ; | NO3:long_name = "nitrate concentration" ; > NO3:units = "millimole_N03 meter-3" ; > NO3:time = "ocean_time" ; > NO3:coordinates = "lon_rho lat_rho s_rho ocea > NO3:field = "NO3, scalar, series" ; > NO3:_FillValue = 1.e+37f ; > float NH4(ocean_time, s_rho, eta_rho, xi_rho) ; > NH4:long_name = "ammonium concentration" ; > NH4:units = "millimole_NH4 meter-3" ; > NH4:time = "ocean_time" ; > NH4:coordinates = "lon_rho lat_rho s_rho ocea > NH4:field = "NH4, scalar, series" ; > NH4:_FillValue = 1.e+37f ; > float chlorophyll(ocean_time, s_rho, eta_rho, xi_rho) > chlorophyll:long_name = "chlorophyll concentr > chlorophyll:units = "milligrams_chlorophyll m > chlorophyll:time = "ocean_time" ; > chlorophyll:coordinates = "lon_rho lat_rho s_ > chlorophyll:field = "chlorophyll, scalar, ser > chlorophyll:_FillValue = 1.e+37f ; > float phytoplankton(ocean_time, s_rho, eta_rho, xi_rh > phytoplankton:long_name = "phytoplankton conc > phytoplankton:units = "millimole_nitrogen met > phytoplankton:time = "ocean_time" ; > phytoplankton:coordinates = "lon_rho lat_rho > phytoplankton:field = "phytoplankton, scalar, > phytoplankton:_FillValue = 1.e+37f ; > float zooplankton(ocean_time, s_rho, eta_rho, xi_rho) > zooplankton:long_name = "zooplankton concentr > zooplankton:units = "millimole_nitrogen meter > zooplankton:time = "ocean_time" ; > zooplankton:coordinates = "lon_rho lat_rho s_ > zooplankton:field = "zooplankton, scalar, ser > zooplankton:_FillValue = 1.e+37f ; // global attributes: // global attributes: > :file = "/gpfs_share/omg/autosabgom/out/his_2 :format = "netCDF-3 classic file" ; :format = "netCDF-3 classic file" ; :Conventions = "CF-1.4, _Coordinates" ; | :Conventions = "CF-1.0" ; :type = "ROMS/TOMS history file" ; :type = "ROMS/TOMS history file" ; :title = "ROMS/TOMS 3.0 - New Floria Shelf Ap | :title = "ROMS/TOMS 3.0 - South-Atlantic Bigh :grd_file = "/usr2/Operational/Common/WFSbath | :rst_file = "/gpfs_share/omg/autosabgom/out/r :ini_file = "../IC/IC.nc" ; | :his_base = "/gpfs_share/omg/autosabgom/out/h :frc_file_01 = "/usr2/Operational/Common/rive | :dia_file = "/gpfs_share/omg/autosabgom/out/d :frc_file_02 = "../Atmo/oi_sst.nc" ; | :sta_file = "/gpfs_share/omg/autosabgom/out/s :frc_file_03 = "../Atmo/atm.nc" ; | :grd_file = "/he_data/he/omg/autosabgom/in/sa :clm_file = "../Ogcm/nest.nc" ; | :ini_file = "/he_data/he/omg/autosabgom/in/nc :geospatial_lat_min = 24.2711 ; | :frc_file_01 = "/he_data/he/omg/autosabgom/in :geospatial_lat_max = 30.8158 ; | :frc_file_02 = "/he_data/he/omg/autosabgom/in :geospatial_lon_min = -90.5187 ; | :frc_file_03 = "/he_data/he/omg/autosabgom/in :geospatial_lon_max = -80.397 ; | :bry_file = "/he_data/he/omg/autosabgom/in/nc :geospatial_vertical_min = -1. ; | :clm_file = "/he_data/he/omg/autosabgom/in/nc :geospatial_vertical_max = 0. ; | :script_file = "/home/omg/autosabgom/sabgom_2 :geospatial_vertical_positive = "up" ; | :bpar_file = "/home/omg/autosabgom/bioFasham_ :geospatial_lat_units = "degrees_north" ; | :spos_file = "/home/omg/autosabgom/stations.i :geospatial_lon_units = "degrees_east" ; | :svn_url = "https://www.myroms.org/svn/omlab/ :geospatial_vertical_units = "ocean_s_coordin | :svn_rev = "412M" ; :time_coverage_resolution = "PT24H" ; | :code_dir = "/he_data/he/zxue/COAWST411" ; :creator_email = "lzheng@marine.usf.edu" ; | :header_dir = "/he_data/he/zxue/Projects/SABG :creator_name = "Lianyuan Zheng" ; | :header_file = "mch_bio_nf.h" ; :institution = "University of South Florida" | :os = "Linux" ; :project = "West Florida Shelf Nowcast/Foreca | :cpu = "x86_64" ; :contributor_name = "Dr. Bob Weisberg" ; | :compiler_system = "pgi" ; :publisher_email = "weisberg@marine.usf.edu" | :compiler_command = "/usr/local/apps/mpich/x8 :publisher_name = "College of Marine Science, | :compiler_flags = "-fastsse -Kieee -fastsse :publisher_url = "http://ocgweb.marine.usf.ed | :tiling = "008x004" ; :license = "The data can be used for the rese | :history = "ROMS/TOMS, Version 3.4, Thursday :CPP_options = "ANA_BSFLUX, ANA_BTFLUX, ASSUM | :ana_file = "ROMS/Functionals/ana_btflux.h, R > :bio_file = "ROMS/Nonlinear/Biology/fennel.h" > :CPP_options = "SABGOM, ADD_FSOBC, ADD_M2OBC, } }