netcdf ECB_ROMS/files/chesroms_ECB_his_20190303.nc { dimensions: xi_rho = 100; xi_u = 99; xi_v = 100; xi_psi = 99; eta_rho = 150; eta_u = 150; eta_v = 149; eta_psi = 149; N = 20; s_rho = 20; s_w = 21; tracer = 19; boundary = 4; ocean_time = UNLIMITED; // (13 currently) variables: int ntimes; :long_name = "number of long time-steps"; int ndtfast; :long_name = "number of short time-steps"; double dt; :long_name = "size of long time-steps"; :units = "second"; double dtfast; :long_name = "size of short time-steps"; :units = "second"; double dstart; :long_name = "time stamp assigned to model initilization"; :units = "days since 2009-01-01 00:00:00"; int nHIS; :long_name = "number of time-steps between history records"; int ndefHIS; :long_name = "number of time-steps between the creation of history files"; int nRST; :long_name = "number of time-steps between restart records"; int ntsAVG; :long_name = "starting time-step for accumulation of time-averaged fields"; int nAVG; :long_name = "number of time-steps between time-averaged records"; int ndefAVG; :long_name = "number of time-steps between the creation of average files"; int nSTA; :long_name = "number of time-steps between stations records"; double Falpha; :long_name = "Power-law shape barotropic filter parameter"; double Fbeta; :long_name = "Power-law shape barotropic filter parameter"; double Fgamma; :long_name = "Power-law shape barotropic filter parameter"; double Akt_bak(tracer=19); :long_name = "background vertical mixing coefficient for tracers"; :units = "meter2 second-1"; double Akv_bak; :long_name = "background vertical mixing coefficient for momentum"; :units = "meter2 second-1"; double Akk_bak; :long_name = "background vertical mixing coefficient for turbulent energy"; :units = "meter2 second-1"; double Akp_bak; :long_name = "background vertical mixing coefficient for length scale"; :units = "meter2 second-1"; double rdrg; :long_name = "linear drag coefficient"; :units = "meter second-1"; double rdrg2; :long_name = "quadratic drag coefficient"; double Zob; :long_name = "bottom roughness"; :units = "meter"; double Zos; :long_name = "surface roughness"; :units = "meter"; double gls_p; :long_name = "stability exponent"; double gls_m; :long_name = "turbulent kinetic energy exponent"; double gls_n; :long_name = "turbulent length scale exponent"; double gls_cmu0; :long_name = "stability coefficient"; double gls_c1; :long_name = "shear production coefficient"; double gls_c2; :long_name = "dissipation coefficient"; double gls_c3m; :long_name = "buoyancy production coefficient (minus)"; double gls_c3p; :long_name = "buoyancy production coefficient (plus)"; double gls_sigk; :long_name = "constant Schmidt number for TKE"; double gls_sigp; :long_name = "constant Schmidt number for PSI"; double gls_Kmin; :long_name = "minimum value of specific turbulent kinetic energy"; double gls_Pmin; :long_name = "minimum Value of dissipation"; double Charnok_alpha; :long_name = "Charnok factor for surface roughness"; double Zos_hsig_alpha; :long_name = "wave amplitude factor for surface roughness"; double sz_alpha; :long_name = "surface flux from wave dissipation"; double CrgBan_cw; :long_name = "surface flux due to Craig and Banner wave breaking"; double Znudg; :long_name = "free-surface nudging/relaxation inverse time scale"; :units = "day-1"; double M2nudg; :long_name = "2D momentum nudging/relaxation inverse time scale"; :units = "day-1"; double M3nudg; :long_name = "3D momentum nudging/relaxation inverse time scale"; :units = "day-1"; double Tnudg(tracer=19); :long_name = "Tracers nudging/relaxation inverse time scale"; :units = "day-1"; double FSobc_in(boundary=4); :long_name = "free-surface inflow, nudging inverse time scale"; :units = "second-1"; double FSobc_out(boundary=4); :long_name = "free-surface outflow, nudging inverse time scale"; :units = "second-1"; double M2obc_in(boundary=4); :long_name = "2D momentum inflow, nudging inverse time scale"; :units = "second-1"; double M2obc_out(boundary=4); :long_name = "2D momentum outflow, nudging inverse time scale"; :units = "second-1"; double Tobc_in(boundary=4, tracer=19); :long_name = "tracers inflow, nudging inverse time scale"; :units = "second-1"; double Tobc_out(boundary=4, tracer=19); :long_name = "tracers outflow, nudging inverse time scale"; :units = "second-1"; double M3obc_in(boundary=4); :long_name = "3D momentum inflow, nudging inverse time scale"; :units = "second-1"; double M3obc_out(boundary=4); :long_name = "3D momentum outflow, nudging inverse time scale"; :units = "second-1"; double rho0; :long_name = "mean density used in Boussinesq approximation"; :units = "kilogram meter-3"; double gamma2; :long_name = "slipperiness parameter"; int LuvSrc; :long_name = "momentum point sources and sink activation switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int LwSrc; :long_name = "mass point sources and sink activation switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int LtracerSrc(tracer=19); :long_name = "tracer point sources and sink activation switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int LsshCLM; :long_name = "sea surface height climatology processing switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int Lm2CLM; :long_name = "2D momentum climatology processing switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int Lm3CLM; :long_name = "3D momentum climatology processing switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int LtracerCLM(tracer=19); :long_name = "tracer climatology processing switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int LnudgeM2CLM; :long_name = "2D momentum climatology nudging activation switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int LnudgeM3CLM; :long_name = "3D momentum climatology nudging activation switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int LnudgeTCLM(tracer=19); :long_name = "tracer climatology nudging activation switch"; :flag_values = 0, 1; // int :flag_meanings = ".FALSE. .TRUE."; int BioIter; :long_name = "number of iterations to achieve convergence"; double AttSW; :long_name = "light attenuation by seawater"; :units = "meter-1"; double AttChl; :long_name = "light attenuation by chlorophyll"; :units = "meter-2 milligram_Chl-1"; double PARfrac; :long_name = "photosynthetically available radiation fraction"; double Vp0; :long_name = "Eppley temperature-limited growth parameter"; double I_thNH4; :long_name = "radiation threshold for nitrification"; :units = "watt meter-2"; double D_p5NH4; :long_name = "half-saturation radiation for nitrification"; :units = "watt meter-2"; double NitriR; :long_name = "nitrification rate"; :units = "day-1"; double K_NO3; :long_name = "inverse half-saturation for phytoplankton NO3 uptake"; :units = "meter3 millimole_N-1"; double K_NH4; :long_name = "inverse half-saturation for phytoplankton NH4 uptake"; :units = "meter3 millimole_N-1"; double K_Phy; :long_name = "zooplankton half-saturation constant for ingestion"; :units = "day-1"; double Chl2C_m; :long_name = "maximum chlorophyll to carbon ratio"; :units = "milligram_chl milligram_carbon-1"; double ChlMin; :long_name = "minimum chlorophyll threshold"; :units = "milligram_chl meter-3"; double PhyCN; :long_name = "phytoplankton Carbon:Nitrogen ratio"; :units = "mole_C mole_N-1"; double PhyIP; :long_name = "phytoplankton, NH4 inhibition parameter"; :units = "millimole_N-1"; double PhyIS; :long_name = "phytoplankton, initial slope of P-I curve"; :units = "milligram_C milligram_Chl-1 watt-1 meter2 day-1"; double PhyMin; :long_name = "minimum phytoplankton threshold"; :units = "millimole_N meter-3"; double PhyMR; :long_name = "phytoplankton mortality rate"; :units = "day-1"; double ZooAE_N; :long_name = "zooplankton mitrogen assimilation efficiency"; double ZooBM; :long_name = "rate for zooplankton basal metabolism"; :units = "day-1"; double ZooCN; :long_name = "zooplankton Carbon:Nitrogen ratio"; :units = "mole_C mole_N-1"; double ZooER; :long_name = "zooplankton specific excretion rate"; :units = "day-1"; double ZooGR; :long_name = "zooplankton maximum growth rate"; :units = "day-1"; double ZooMin; :long_name = "minimum zooplankton threshold"; :units = "millimole_N meter-3"; double ZooMR; :long_name = "zooplankton mortality rate"; :units = "day-1"; double LDeRRN; :long_name = "rate of large detritus nitrogen re-mineralization"; :units = "day-1"; double LDeRRC; :long_name = "rate of large detritus carbon re-mineralization"; :units = "day-1"; double CoagR; :long_name = "coagulation rate"; :units = "day-1"; double SDeRRN; :long_name = "remineralization rate for small detritus nitrogen"; :units = "day-1"; double SDeRRC; :long_name = "remineralization rate for small detritus carbon"; :units = "day-1"; double wPhy; :long_name = "vertical sinking velocity for phytoplankton"; :units = "meter day-1"; double wLDet; :long_name = "vertical sinking velocity for large detritus"; :units = "meter day-1"; double wSDet; :long_name = "vertical sinking velocity for small detritus"; :units = "meter day-1"; double wISS; :long_name = "vertical sinking velocity for Inorg. Susp. Solids"; :units = "meter day-1"; double tau_c; :long_name = "critical stress for Inorg. Susp. Solids"; :units = "Pa"; double Merosion; :long_name = "vertical erosion rate for Inorg. Susp. Solids"; :units = "g m-2 day-1 Pa-1"; double rkd1; :long_name = "light attenuation by low salinity seawater in Chespeake Bay"; :units = "meter-1"; double rkd2; :long_name = "light attenuation by high salinity seawater in Chespeake Bay"; :units = "meter-1"; double rkdChl1; :long_name = "light attenuation by chlorophyll at low salinity seawater in Chespeake Bay"; :units = "meter^2 milligram_Chl-1"; double rkdChl2; :long_name = "light attenuation by chlorophyll at high salinity seawater in Chespeake Bay"; :units = "meter^2 milligram_Chl-1"; double rkdTSS1; :long_name = "light attenuation by TSS at low salinity seawater in Chespeake Bay"; :units = "meter^2 g-1"; double rkdTSS2; :long_name = "light attenuation by TSS at high salinity seawater in Chespeake Bay"; :units = "meter^2 g-1"; double rkdS1; :long_name = "light attenuation by CDOM (use salinity instead) at low salinity seawater in Chespeake Bay"; :units = "meter-1 PSU-1"; double rkdS2; :long_name = "light attenuation by CDOM (use salinity instead) at high salinity seawater in Chespeake Bay"; :units = "meter-1 PSU-1"; double pCO2air; :long_name = "partial pressure of CO2 in the air"; :units = "parts per million by volume"; double ElDON; :long_name = "phytoplankton exudation rate of labile DON"; :units = "day-1"; double EsDON; :long_name = "phytoplankton exudation rate of semilabile DON"; :units = "day-1"; double deltN; :long_name = "ratio of semilabile DON to total DON in cell"; double deltC; :long_name = "ratio of semilabile DOC to total DOC in cell"; double gammaC; :long_name = "parameter of carbon excess-based DOC exudation"; double slCexc; :long_name = "fraction of semilabile DOC produced by C excess uptake"; double a0N; :long_name = "Remineralization rate of DON at 0 deg.C [1/day]"; :units = "day-1"; double a0C; :long_name = "Remineralization rate of DOC at 0 deg.C [1/day]"; :units = "day-1"; double LDeNSR; :long_name = "Large detritus solubilization rate of N [1/day]"; :units = "day-1"; double LDeCSR; :long_name = "Large detritus solubilization rate of C [1/day]"; :units = "day-1"; double SDeNSR; :long_name = "Small detritus solubilization rate of N [1/day]"; :units = "day-1"; double SDeCSR; :long_name = "Small detritus solubilization rate of C [1/day]"; :units = "day-1"; double AttDOC; :long_name = "light attenuation by semilabile and refractory DOC"; :units = "meter2 milligram_Chl-1"; double DOCatt_m; :long_name = "offset to light attenuation by DOC"; :units = "millimole_C meter-3"; int spherical; :long_name = "grid type logical switch"; :flag_values = 0, 1; // int :flag_meanings = "Cartesian spherical"; double xl; :long_name = "domain length in the XI-direction"; :units = "meter"; double el; :long_name = "domain length in the ETA-direction"; :units = "meter"; int Vtransform; :long_name = "vertical terrain-following transformation equation"; int Vstretching; :long_name = "vertical terrain-following stretching function"; double theta_s; :long_name = "S-coordinate surface control parameter"; double theta_b; :long_name = "S-coordinate bottom control parameter"; double Tcline; :long_name = "S-coordinate surface/bottom layer width"; :units = "meter"; double hc; :long_name = "S-coordinate parameter, critical depth"; :units = "meter"; double s_rho(s_rho=20); :long_name = "S-coordinate at RHO-points"; :valid_min = -1.0; // double :valid_max = 0.0; // double :positive = "up"; :standard_name = "ocean_s_coordinate_g2"; :formula_terms = "s: s_rho C: Cs_r eta: zeta depth: h depth_c: hc"; :field = "s_rho, scalar"; double s_w(s_w=21); :long_name = "S-coordinate at W-points"; :valid_min = -1.0; // double :valid_max = 0.0; // double :positive = "up"; :standard_name = "ocean_s_coordinate_g2"; :formula_terms = "s: s_w C: Cs_w eta: zeta depth: h depth_c: hc"; :field = "s_w, scalar"; double Cs_r(s_rho=20); :long_name = "S-coordinate stretching curves at RHO-points"; :valid_min = -1.0; // double :valid_max = 0.0; // double :field = "Cs_r, scalar"; double Cs_w(s_w=21); :long_name = "S-coordinate stretching curves at W-points"; :valid_min = -1.0; // double :valid_max = 0.0; // double :field = "Cs_w, scalar"; double h(eta_rho=150, xi_rho=100); :long_name = "bathymetry at RHO-points"; :units = "meter"; :coordinates = "lon_rho lat_rho"; :field = "bath, scalar"; double f(eta_rho=150, xi_rho=100); :long_name = "Coriolis parameter at RHO-points"; :units = "second-1"; :coordinates = "lon_rho lat_rho"; :field = "coriolis, scalar"; double pm(eta_rho=150, xi_rho=100); :long_name = "curvilinear coordinate metric in XI"; :units = "meter-1"; :coordinates = "lon_rho lat_rho"; :field = "pm, scalar"; double pn(eta_rho=150, xi_rho=100); :long_name = "curvilinear coordinate metric in ETA"; :units = "meter-1"; :coordinates = "lon_rho lat_rho"; :field = "pn, scalar"; double lon_rho(eta_rho=150, xi_rho=100); :long_name = "longitude of RHO-points"; :units = "degree_east"; :standard_name = "longitude"; :field = "lon_rho, scalar"; double lat_rho(eta_rho=150, xi_rho=100); :long_name = "latitude of RHO-points"; :units = "degree_north"; :standard_name = "latitude"; :field = "lat_rho, scalar"; double lon_u(eta_u=150, xi_u=99); :long_name = "longitude of U-points"; :units = "degree_east"; :standard_name = "longitude"; :field = "lon_u, scalar"; double lat_u(eta_u=150, xi_u=99); :long_name = "latitude of U-points"; :units = "degree_north"; :standard_name = "latitude"; :field = "lat_u, scalar"; double lon_v(eta_v=149, xi_v=100); :long_name = "longitude of V-points"; :units = "degree_east"; :standard_name = "longitude"; :field = "lon_v, scalar"; double lat_v(eta_v=149, xi_v=100); :long_name = "latitude of V-points"; :units = "degree_north"; :standard_name = "latitude"; :field = "lat_v, scalar"; double lon_psi(eta_psi=149, xi_psi=99); :long_name = "longitude of PSI-points"; :units = "degree_east"; :standard_name = "longitude"; :field = "lon_psi, scalar"; double lat_psi(eta_psi=149, xi_psi=99); :long_name = "latitude of PSI-points"; :units = "degree_north"; :standard_name = "latitude"; :field = "lat_psi, scalar"; double angle(eta_rho=150, xi_rho=100); :long_name = "angle between XI-axis and EAST"; :units = "radians"; :coordinates = "lon_rho lat_rho"; :field = "angle, scalar"; double mask_rho(eta_rho=150, xi_rho=100); :long_name = "mask on RHO-points"; :flag_values = 0.0, 1.0; // double :flag_meanings = "land water"; :coordinates = "lon_rho lat_rho"; double mask_u(eta_u=150, xi_u=99); :long_name = "mask on U-points"; :flag_values = 0.0, 1.0; // double :flag_meanings = "land water"; :coordinates = "lon_u lat_u"; double mask_v(eta_v=149, xi_v=100); :long_name = "mask on V-points"; :flag_values = 0.0, 1.0; // double :flag_meanings = "land water"; :coordinates = "lon_v lat_v"; double mask_psi(eta_psi=149, xi_psi=99); :long_name = "mask on psi-points"; :flag_values = 0.0, 1.0; // double :flag_meanings = "land water"; :coordinates = "lon_psi lat_psi"; double ocean_time(ocean_time=13); :long_name = "time since initialization"; :units = "seconds since 2009-01-01 00:00:00"; :calendar = "gregorian"; :field = "time, scalar, series"; float zeta(ocean_time=13, eta_rho=150, xi_rho=100); :long_name = "free-surface"; :units = "meter"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho ocean_time"; :field = "free-surface, scalar, series"; :_FillValue = 1.0E37f; // float float ubar(ocean_time=13, eta_u=150, xi_u=99); :long_name = "vertically integrated u-momentum component"; :units = "meter second-1"; :time = "ocean_time"; :coordinates = "lon_u lat_u ocean_time"; :field = "ubar-velocity, scalar, series"; :_FillValue = 1.0E37f; // float float vbar(ocean_time=13, eta_v=149, xi_v=100); :long_name = "vertically integrated v-momentum component"; :units = "meter second-1"; :time = "ocean_time"; :coordinates = "lon_v lat_v ocean_time"; :field = "vbar-velocity, scalar, series"; :_FillValue = 1.0E37f; // float float temp(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "potential temperature"; :units = "Celsius"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "temperature, scalar, series"; :_FillValue = 1.0E37f; // float float salt(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "salinity"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "salinity, scalar, series"; :_FillValue = 1.0E37f; // float float NO3(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "nitrate concentration"; :units = "millimole_N03 meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "NO3, scalar, series"; :_FillValue = 1.0E37f; // float float NH4(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "ammonium concentration"; :units = "millimole_NH4 meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "NH4, scalar, series"; :_FillValue = 1.0E37f; // float float chlorophyll(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "chlorophyll concentration"; :units = "milligrams_chlorophyll meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "chlorophyll, scalar, series"; :_FillValue = 1.0E37f; // float float phytoplankton(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "phytoplankton concentration"; :units = "millimole_nitrogen meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "phytoplankton, scalar, series"; :_FillValue = 1.0E37f; // float float zooplankton(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "zooplankton concentration"; :units = "millimole_nitrogen meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "zooplankton, scalar, series"; :_FillValue = 1.0E37f; // float float LdetritusN(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "large fraction nitrogen detritus concentration"; :units = "millimole_nitrogen meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "LdetritusN, scalar, series"; :_FillValue = 1.0E37f; // float float SdetritusN(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "small fraction nitrogen detritus concentration"; :units = "millimole_nitrogen meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "SdetritusN, scalar, series"; :_FillValue = 1.0E37f; // float float LdetritusC(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "large fraction carbon detritus concentration"; :units = "millimole_carbon meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "LdetritusC, scalar, series"; :_FillValue = 1.0E37f; // float float SdetritusC(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "small fraction carbon detritus concentration"; :units = "millimole_carbon meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "SdetritusC, scalar, series"; :_FillValue = 1.0E37f; // float float TIC(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "total inorganic carbon"; :units = "millimole_carbon meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "TIC, scalar, series"; :_FillValue = 1.0E37f; // float float alkalinity(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "total alkalinity"; :units = "milliequivalents meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "alkalinity, scalar, series"; :_FillValue = 1.0E37f; // float float oxygen(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "dissolved oxygen concentration"; :units = "millimole_oxygen meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "Oxygen, scalar, series"; :_FillValue = 1.0E37f; // float float ISS(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "inorganic suspended solids"; :units = "milligram per litre"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "ISS, scalar, series"; :_FillValue = 1.0E37f; // float float semilabileDON(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "semilabile dissolved organic nitrogen concentration"; :units = "millimole_nitrogen meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "semilabileDON, scalar, series"; :_FillValue = 1.0E37f; // float float refractoryDON(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "refractory dissolved organic nitrogen concentration"; :units = "millimole_nitrogen meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "refractoryDON, scalar, series"; :_FillValue = 1.0E37f; // float float semilabileDOC(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "semilabile dissolved organic carbon concentration"; :units = "millimole_carbon meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "semilabileDOC, scalar, series"; :_FillValue = 1.0E37f; // float float refractoryDOC(ocean_time=13, s_rho=20, eta_rho=150, xi_rho=100); :long_name = "refractory dissolved organic carbon concentration"; :units = "millimole_carbon meter-3"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho s_rho ocean_time"; :field = "refractoryDOC, scalar, series"; :_FillValue = 1.0E37f; // float float shflux(ocean_time=13, eta_rho=150, xi_rho=100); :long_name = "surface net heat flux"; :units = "watt meter-2"; :negative_value = "upward flux, cooling"; :positive_value = "downward flux, heating"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho ocean_time"; :field = "surface heat flux, scalar, series"; :_FillValue = 1.0E37f; // float float ssflux(ocean_time=13, eta_rho=150, xi_rho=100); :long_name = "surface net salt flux, (E-P)*SALT"; :units = "meter second-1"; :negative_value = "upward flux, freshening (net precipitation)"; :positive_value = "downward flux, salting (net evaporation)"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho ocean_time"; :field = "surface net salt flux, scalar, series"; :_FillValue = 1.0E37f; // float float latent(ocean_time=13, eta_rho=150, xi_rho=100); :long_name = "net latent heat flux"; :units = "watt meter-2"; :negative_value = "upward flux, cooling"; :positive_value = "downward flux, heating"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho ocean_time"; :field = "latent heat flux, scalar, series"; :_FillValue = 1.0E37f; // float float sensible(ocean_time=13, eta_rho=150, xi_rho=100); :long_name = "net sensible heat flux"; :units = "watt meter-2"; :negative_value = "upward flux, cooling"; :positive_value = "downward flux, heating"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho ocean_time"; :field = "sensible heat flux, scalar, series"; :_FillValue = 1.0E37f; // float float lwrad(ocean_time=13, eta_rho=150, xi_rho=100); :long_name = "net longwave radiation flux"; :units = "watt meter-2"; :negative_value = "upward flux, cooling"; :positive_value = "downward flux, heating"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho ocean_time"; :field = "longwave radiation, scalar, series"; :_FillValue = 1.0E37f; // float float swrad(ocean_time=13, eta_rho=150, xi_rho=100); :long_name = "solar shortwave radiation flux"; :units = "watt meter-2"; :negative_value = "upward flux, cooling"; :positive_value = "downward flux, heating"; :time = "ocean_time"; :coordinates = "lon_rho lat_rho ocean_time"; :field = "shortwave radiation, scalar, series"; :_FillValue = 1.0E37f; // float // global attributes: :file = "chesroms_ECB_his.nc"; :format = "netCDF-3 64bit offset file"; :Conventions = "CF-1.4"; :type = "ROMS/TOMS history file"; :title = "ChesROMS ECB Coupled Physical-Biogeochemical Model"; :rst_file = "chesroms_ECB_rst.nc"; :his_file = "chesroms_ECB_his.nc"; :avg_file = "chesroms_ECB_avg.nc"; :sta_file = "chesroms_ECB_sta.nc"; :grd_file = "/ches/data10/abever/WORK/FORECAST/ECB/GENERAL_FORCING/chesroms_grd_smoother_msl_mes.nc"; :ini_file = "chesroms_ECB_ini.nc"; :frc_file_01 = "/ches/data10/abever/WORK/FORECAST/ECB/GENERAL_FORCING/ChesROMS_frc_tides_COMTEHYear3_2015_062016.nc"; :frc_file_02 = "chesroms_met_NF.nc"; :frc_file_03 = "/ches/data10/abever/WORK/FORECAST/ECB/GENERAL_FORCING/chesroms_ATM_NitFlux_Forecast_ECB.nc"; :bry_file = "chesroms_ECB_obc.nc"; :script_file = ""; :bpar_file = "bio_ECB.in"; :spos_file = "stations_ECB_100417.in"; :NLM_LBC = "\nEDGE: WEST SOUTH EAST NORTH \nzeta: Clo Clo Cha Clo \nubar: Clo Clo Fla Clo \nvbar: Clo Clo Fla Clo \nu: Clo Clo Rad Clo \nv: Clo Clo Rad Clo \ntemp: Clo Clo RadNud Clo \nsalt: Clo Clo RadNud Clo \nNO3: Clo Clo RadNud Clo \nNH4: Clo Clo RadNud Clo \nchlorophyll: Clo Clo Rad Clo \nphytoplankton: Clo Clo Rad Clo \nzooplankton: Clo Clo Rad Clo \nLdetritusN: Clo Clo Rad Clo \nSdetritusN: Clo Clo Rad Clo \nLdetritusC: Clo Clo Rad Clo \nSdetritusC: Clo Clo Rad Clo \nTIC: Clo Clo RadNud Clo \nalkalinity: Clo Clo RadNud Clo \noxygen: Clo Clo RadNud Clo \nISS: Clo Clo Rad Clo \nsemilabileDON: Clo Clo RadNud Clo \nrefractoryDON: Clo Clo RadNud Clo \nsemilabileDOC: Clo Clo RadNud Clo \nrefractoryDOC: Clo Clo RadNud Clo \ntke: Clo Clo Rad Clo"; :svn_url = "https://www.myroms.org/svn/src/trunk"; :svn_rev = "exported"; :code_dir = "/ches/data10/abever/WORK/FORECAST/ECB/EXECUTABLE/CODE/SOURCE"; :header_dir = "/ches/data10/abever/WORK/FORECAST/ECB/EXECUTABLE/COMPILE"; :header_file = "ecb_forecast.h"; :os = "Linux"; :cpu = "x86_64"; :compiler_system = "pgi"; :compiler_command = "/usr/local/amd64/seoul/pgi-14.3/mvapich2-1.9-ib/bin/mpif90"; :compiler_flags = "-tp piledriver -m64 -Kieee -O3 -Mfree"; :tiling = "002x012"; :history = "ROMS/TOMS, Version 3.7, Sunday - March 3, 2019 - 3:51:54 AM"; :ana_file = "ROMS/Functionals/ana_btflux.h, ROMS/Functionals/ana_rain.h, ROMS/Functionals/ana_stflux.h"; :bio_file = "ROMS/Nonlinear/Biology/fennel.h"; :CPP_options = "ChesROMS_ECB, ADD_FSOBC, ADD_M2OBC, ANA_BPFLUX, ANA_BSFLUX, ANA_BTFLUX, ANA_RAIN, ANA_SPFLUX, ANA_SSFLUX, ASSUMED_SHAPE, AVERAGES, BIO_FENNEL, BIO_SEDIMENT, BULK_FLUXES, CARBON, CURVGRID, DENITRIFICATION, DJ_GRADPS, DOUBLE_PRECISION, GLS_MIXING, LIMIT_STFLX_COOLING, KANTHA_CLAYSON, LONGWAVE_OUT, MASKING, MPI, NONLINEAR, NONLIN_EOS, N2S2_HORAVG, !OCMIP_OXYGEN_SC, OXYGEN, PERFECT_RESTART, POWER_LAW, PROFILE, K_GSCHEME, !RST_SINGLE, SALINITY, SOLAR_SOURCE, SOLVE3D, SSH_TIDES, STATIONS, TALK_NONCONSERV, TS_MPDATA, UV_ADV, UV_COR, UV_U3HADVECTION, UV_C4VADVECTION, UV_QDRAG, UV_TIDES, VAR_RHO_2D"; }