CDO

netcdf his_bts_0_2021_new_bat_new_rug_0002 {

dimensions:

tracer = 2 ;

s_rho = 30 ;

s_w = 31 ;

ocean_time = UNLIMITED ; // (720 currently)

eta_rho = 315 ;

xi_rho = 212 ;

boundary = 4 ;

eta_psi = 314 ;

xi_psi = 211 ;

eta_u = 315 ;

xi_u = 211 ;

eta_v = 314 ;

xi_v = 212 ;

variables:

double Akk_bak ;

Akk_bak:long_name = "background vertical mixing coefficient for turbulent energy" ;

Akk_bak:units = "meter2 second-1" ;

double Akp_bak ;

Akp_bak:long_name = "background vertical mixing coefficient for length scale" ;

Akp_bak:units = "meter2 second-1" ;

double Akt_bak(tracer) ;

Akt_bak:long_name = "background vertical mixing coefficient for tracers" ;

Akt_bak:units = "meter2 second-1" ;

double Akv_bak ;

Akv_bak:long_name = "background vertical mixing coefficient for momentum" ;

Akv_bak:units = "meter2 second-1" ;

double Charnok_alpha ;

Charnok_alpha:long_name = "Charnock factor for surface roughness" ;

double CrgBan_cw ;

CrgBan_cw:long_name = "surface flux due to Craig and Banner wave breaking" ;

double Cs_r(s_rho) ;

Cs_r:long_name = "S-coordinate stretching curves at RHO-points" ;

Cs_r:valid_min = -1. ;

Cs_r:valid_max = 0. ;

double Cs_w(s_w) ;

Cs_w:long_name = "S-coordinate stretching curves at W-points" ;

Cs_w:valid_min = -1. ;

Cs_w:valid_max = 0. ;

float EminusP(ocean_time, eta_rho, xi_rho) ;

EminusP:standard_name = "surface_upward_water_flux" ;

EminusP:long_name = "modeled surface net freshwater flux, (E-P)/rhow" ;

EminusP:units = "meter second-1" ;

EminusP:negative_value = "upward flux, freshening (net precipitation)" ;

EminusP:positive_value = "downward flux, salting (net evaporation)" ;

EminusP:time = "ocean_time" ;

EminusP:cell_methods = "ocean_time: point" ;

EminusP:grid = "grid" ;

EminusP:location = "face" ;

EminusP:coordinates = "lon_rho lat_rho ocean_time" ;

EminusP:field = "E-P" ;

EminusP:_FillValue = 1.e+37f ;

double FSobc_in(boundary) ;

FSobc_in:long_name = "free-surface inflow, nudging inverse time scale" ;

FSobc_in:units = "second-1" ;

double FSobc_out(boundary) ;

FSobc_out:long_name = "free-surface outflow, nudging inverse time scale" ;

FSobc_out:units = "second-1" ;

double Falpha ;

Falpha:long_name = "Power-law shape barotropic filter parameter" ;

double Fbeta ;

Fbeta:long_name = "Power-law shape barotropic filter parameter" ;

double Fgamma ;

Fgamma:long_name = "Power-law shape barotropic filter parameter" ;

int Lm2CLM ;

Lm2CLM:long_name = "2D momentum climatology processing switch" ;

Lm2CLM:flag_values = 0, 1 ;

Lm2CLM:flag_meanings = ".FALSE. .TRUE." ;

int Lm3CLM ;

Lm3CLM:long_name = "3D momentum climatology processing switch" ;

Lm3CLM:flag_values = 0, 1 ;

Lm3CLM:flag_meanings = ".FALSE. .TRUE." ;

int LnudgeM2CLM ;

LnudgeM2CLM:long_name = "2D momentum climatology nudging activation switch" ;

LnudgeM2CLM:flag_values = 0, 1 ;

LnudgeM2CLM:flag_meanings = ".FALSE. .TRUE." ;

int LnudgeM3CLM ;

LnudgeM3CLM:long_name = "3D momentum climatology nudging activation switch" ;

LnudgeM3CLM:flag_values = 0, 1 ;

LnudgeM3CLM:flag_meanings = ".FALSE. .TRUE." ;

int LnudgeTCLM(tracer) ;

LnudgeTCLM:long_name = "tracer climatology nudging activation switch" ;

LnudgeTCLM:flag_values = 0, 1 ;

LnudgeTCLM:flag_meanings = ".FALSE. .TRUE." ;

int LsshCLM ;

LsshCLM:long_name = "sea surface height climatology processing switch" ;

LsshCLM:flag_values = 0, 1 ;

LsshCLM:flag_meanings = ".FALSE. .TRUE." ;

int LtracerCLM(tracer) ;

LtracerCLM:long_name = "tracer climatology processing switch" ;

LtracerCLM:flag_values = 0, 1 ;

LtracerCLM:flag_meanings = ".FALSE. .TRUE." ;

int LtracerSponge(tracer) ;

LtracerSponge:long_name = "horizontal diffusivity sponge activation switch" ;

LtracerSponge:flag_values = 0, 1 ;

LtracerSponge:flag_meanings = ".FALSE. .TRUE." ;

int LtracerSrc(tracer) ;

LtracerSrc:long_name = "tracer point sources and sink activation switch" ;

LtracerSrc:flag_values = 0, 1 ;

LtracerSrc:flag_meanings = ".FALSE. .TRUE." ;

int LuvSponge ;

LuvSponge:long_name = "horizontal viscosity sponge activation switch" ;

LuvSponge:flag_values = 0, 1 ;

LuvSponge:flag_meanings = ".FALSE. .TRUE." ;

int LuvSrc ;

LuvSrc:long_name = "momentum point sources and sink activation switch" ;

LuvSrc:flag_values = 0, 1 ;

LuvSrc:flag_meanings = ".FALSE. .TRUE." ;

int LwSrc ;

LwSrc:long_name = "mass point sources and sink activation switch" ;

LwSrc:flag_values = 0, 1 ;

LwSrc:flag_meanings = ".FALSE. .TRUE." ;

double M2nudg ;

M2nudg:long_name = "2D momentum nudging/relaxation inverse time scale" ;

M2nudg:units = "day-1" ;

double M2obc_in(boundary) ;

M2obc_in:long_name = "2D momentum inflow, nudging inverse time scale" ;

M2obc_in:units = "second-1" ;

double M2obc_out(boundary) ;

M2obc_out:long_name = "2D momentum outflow, nudging inverse time scale" ;

M2obc_out:units = "second-1" ;

double M3nudg ;

M3nudg:long_name = "3D momentum nudging/relaxation inverse time scale" ;

M3nudg:units = "day-1" ;

double M3obc_in(boundary) ;

M3obc_in:long_name = "3D momentum inflow, nudging inverse time scale" ;

M3obc_in:units = "second-1" ;

double M3obc_out(boundary) ;

M3obc_out:long_name = "3D momentum outflow, nudging inverse time scale" ;

M3obc_out:units = "second-1" ;

double Tcline ;

Tcline:long_name = "S-coordinate surface/bottom layer width" ;

Tcline:units = "meter" ;

double Tnudg(tracer) ;

Tnudg:long_name = "Tracers nudging/relaxation inverse time scale" ;

Tnudg:units = "day-1" ;

double Tobc_in(boundary, tracer) ;

Tobc_in:long_name = "tracers inflow, nudging inverse time scale" ;

Tobc_in:units = "second-1" ;

double Tobc_out(boundary, tracer) ;

Tobc_out:long_name = "tracers outflow, nudging inverse time scale" ;

Tobc_out:units = "second-1" ;

int Vstretching ;

Vstretching:long_name = "vertical terrain-following stretching function" ;

int Vtransform ;

Vtransform:long_name = "vertical terrain-following transformation equation" ;

double Znudg ;

Znudg:long_name = "free-surface nudging/relaxation inverse time scale" ;

Znudg:units = "day-1" ;

double ZoBot(eta_rho, xi_rho) ;

ZoBot:standard_name = "sea_bottom_roughness_length_scale" ;

ZoBot:long_name = "time invariant, bottom roughness length" ;

ZoBot:units = "meter" ;

ZoBot:grid = "grid" ;

ZoBot:location = "face" ;

ZoBot:coordinates = "lon_rho lat_rho" ;

ZoBot:field = "bottom roughness length" ;

double Zob ;

Zob:long_name = "bottom roughness" ;

Zob:units = "meter" ;

double Zos ;

Zos:long_name = "surface roughness" ;

Zos:units = "meter" ;

double Zos_hsig_alpha ;

Zos_hsig_alpha:long_name = "wave amplitude factor for surface roughness" ;

double angle(eta_rho, xi_rho) ;

angle:standard_name = "grid_angle_of_rotation_from_east_to_y" ;

angle:long_name = "angle between XI-axis and EAST" ;

angle:units = "radians" ;

angle:grid = "grid" ;

angle:location = "face" ;

angle:coordinates = "lon_rho lat_rho" ;

angle:field = "angle" ;

double dstart ;

dstart:long_name = "time stamp assigned to model initilization" ;

dstart:units = "days since 1970-01-01 00:00:00" ;

dstart:calendar = "proleptic_gregorian" ;

double dt ;

dt:long_name = "size of long time-steps" ;

dt:units = "second" ;

double dtfast ;

dtfast:long_name = "size of short time-steps" ;

dtfast:units = "second" ;

double el ;

el:long_name = "domain length in the ETA-direction" ;

el:units = "meter" ;

double f(eta_rho, xi_rho) ;

f:standard_name = "coriolis_parameter" ;

f:long_name = "Coriolis parameter" ;

f:units = "second-1" ;

f:grid = "grid" ;

f:location = "face" ;

f:coordinates = "lon_rho lat_rho" ;

f:field = "coriolis" ;

double gamma2 ;

gamma2:long_name = "slipperiness parameter" ;

double gls_Kmin ;

gls_Kmin:long_name = "minimum value of specific turbulent kinetic energy" ;

double gls_Pmin ;

gls_Pmin:long_name = "minimum Value of dissipation" ;

double gls_c1 ;

gls_c1:long_name = "shear production coefficient" ;

double gls_c2 ;

gls_c2:long_name = "dissipation coefficient" ;

double gls_c3m ;

gls_c3m:long_name = "buoyancy production coefficient (minus)" ;

double gls_c3p ;

gls_c3p:long_name = "buoyancy production coefficient (plus)" ;

double gls_cmu0 ;

gls_cmu0:long_name = "stability coefficient" ;

double gls_m ;

gls_m:long_name = "turbulent kinetic energy exponent" ;

double gls_n ;

gls_n:long_name = "turbulent length scale exponent" ;

double gls_p ;

gls_p:long_name = "stability exponent" ;

double gls_sigk ;

gls_sigk:long_name = "constant Schmidt number for TKE" ;

double gls_sigp ;

gls_sigp:long_name = "constant Schmidt number for PSI" ;

int grid ;

grid:cf_role = "grid_topology" ;

grid:topology_dimension = 2 ;

grid:node_dimensions = "xi_psi eta_psi" ;

grid:face_dimensions = "xi_rho: xi_psi (padding: both) eta_rho: eta_psi (padding: both)" ;

grid:edge1_dimensions = "xi_u: xi_psi eta_u: eta_psi (padding: both)" ;

grid:edge2_dimensions = "xi_v: xi_psi (padding: both) eta_v: eta_psi" ;

grid:node_coordinates = "lon_psi lat_psi" ;

grid:face_coordinates = "lon_rho lat_rho" ;

grid:edge1_coordinates = "lon_u lat_u" ;

grid:edge2_coordinates = "lon_v lat_v" ;

grid:vertical_dimensions = "s_rho: s_w (padding: none)" ;

double h(eta_rho, xi_rho) ;

h:standard_name = "sea_floor_depth" ;

h:long_name = "time-independent bathymetry" ;

h:units = "meter" ;

h:grid = "grid" ;

h:location = "face" ;

h:coordinates = "lon_rho lat_rho" ;

h:field = "bathymetry" ;

double hc ;

hc:long_name = "S-coordinate parameter, critical depth" ;

hc:units = "meter" ;

double lat_psi(eta_psi, xi_psi) ;

lat_psi:standard_name = "grid_latitude_at_cell_corners" ;

lat_psi:long_name = "latitude of PSI-points" ;

lat_psi:units = "degree_north" ;

lat_psi:field = "lat_psi" ;

double lat_rho(eta_rho, xi_rho) ;

lat_rho:standard_name = "grid_latitude_at_cell_center" ;

lat_rho:long_name = "latitude of RHO-points" ;

lat_rho:units = "degree_north" ;

lat_rho:field = "lat_rho" ;

double lat_u(eta_u, xi_u) ;

lat_u:standard_name = "grid_latitude_at_cell_y_edges" ;

lat_u:long_name = "latitude of U-points" ;

lat_u:units = "degree_north" ;

lat_u:field = "lat_u" ;

double lat_v(eta_v, xi_v) ;

lat_v:standard_name = "grid_latitude_at_cell_x_edges" ;

lat_v:long_name = "latitude of V-points" ;

lat_v:units = "degree_north" ;

lat_v:field = "lat_v" ;

double lon_psi(eta_psi, xi_psi) ;

lon_psi:standard_name = "grid_longitude_at_cell_corners" ;

lon_psi:long_name = "longitude of PSI-points" ;

lon_psi:units = "degree_east" ;

lon_psi:field = "lon_psi" ;

double lon_rho(eta_rho, xi_rho) ;

lon_rho:standard_name = "grid_longitude_at_cell_center" ;

lon_rho:long_name = "longitude of RHO-points" ;

lon_rho:units = "degree_east" ;

lon_rho:field = "lon_rho" ;

double lon_u(eta_u, xi_u) ;

lon_u:standard_name = "grid_longitude_at_cell_y_edges" ;

lon_u:long_name = "longitude of U-points" ;

lon_u:units = "degree_east" ;

lon_u:field = "lon_u" ;

double lon_v(eta_v, xi_v) ;

lon_v:standard_name = "grid_longitude_at_cell_x_edges" ;

lon_v:long_name = "longitude of V-points" ;

lon_v:units = "degree_east" ;

lon_v:field = "lon_v" ;

double mask_psi(eta_psi, xi_psi) ;

mask_psi:standard_name = "land_sea_mask_at_cell_corners" ;

mask_psi:long_name = "mask on PSI-points" ;

mask_psi:flag_values = 0., 1. ;

mask_psi:flag_meanings = "land water" ;

mask_psi:grid = "grid" ;

mask_psi:location = "node" ;

mask_psi:coordinates = "lon_psi lat_psi" ;

double mask_rho(eta_rho, xi_rho) ;

mask_rho:standard_name = "land_sea_mask_at_cell_center" ;

mask_rho:long_name = "mask on RHO-points" ;

mask_rho:flag_values = 0., 1. ;

mask_rho:flag_meanings = "land water" ;

mask_rho:grid = "grid" ;

mask_rho:location = "face" ;

mask_rho:coordinates = "lon_rho lat_rho" ;

double mask_u(eta_u, xi_u) ;

mask_u:standard_name = "land_sea_mask_at_cell_y_edges" ;

mask_u:long_name = "mask on U-points" ;

mask_u:flag_values = 0., 1. ;

mask_u:flag_meanings = "land water" ;

mask_u:grid = "grid" ;

mask_u:location = "edge1" ;

mask_u:coordinates = "lon_u lat_u" ;

double mask_v(eta_v, xi_v) ;

mask_v:standard_name = "land_sea_mask_at_cell_x_edges" ;

mask_v:long_name = "mask on V-points" ;

mask_v:flag_values = 0., 1. ;

mask_v:flag_meanings = "land water" ;

mask_v:grid = "grid" ;

mask_v:location = "edge2" ;

mask_v:coordinates = "lon_v lat_v" ;

int nHIS ;

nHIS:long_name = "number of time-steps between history records" ;

int nRST ;

nRST:long_name = "number of time-steps between restart records" ;

nRST:cycle = "only latest two records are maintained" ;

int ndefHIS ;

ndefHIS:long_name = "number of time-steps between the creation of history files" ;

int ndtfast ;

ndtfast:long_name = "number of short time-steps" ;

double nl_tnu2(tracer) ;

nl_tnu2:long_name = "nonlinear model Laplacian mixing coefficient for tracers" ;

nl_tnu2:units = "meter2 second-1" ;

double nl_visc2 ;

nl_visc2:long_name = "nonlinear model Laplacian mixing coefficient for momentum" ;

nl_visc2:units = "meter2 second-1" ;

int ntimes ;

ntimes:long_name = "number of long time-steps" ;

double ocean_time(ocean_time) ;

ocean_time:standard_name = "time" ;

ocean_time:long_name = "time since initialization" ;

ocean_time:units = "seconds since 1970-01-01 00:00:00" ;

ocean_time:calendar = "proleptic_gregorian" ;

ocean_time:field = "time" ;

double pm(eta_rho, xi_rho) ;

pm:standard_name = "inverse_grid_x_spacing" ;

pm:long_name = "curvilinear coordinate metric in XI" ;

pm:units = "meter-1" ;

pm:grid = "grid" ;

pm:location = "face" ;

pm:coordinates = "lon_rho lat_rho" ;

pm:field = "pm" ;

double pn(eta_rho, xi_rho) ;

pn:standard_name = "inverse_grid_y_spacing" ;

pn:long_name = "curvilinear coordinate metric in ETA" ;

pn:units = "meter-1" ;

pn:grid = "grid" ;

pn:location = "face" ;

pn:coordinates = "lon_rho lat_rho" ;

pn:field = "pn" ;

double rdrg ;

rdrg:long_name = "linear drag coefficient" ;

rdrg:units = "meter second-1" ;

double rdrg2 ;

rdrg2:long_name = "quadratic drag coefficient" ;

float rho(ocean_time, s_rho, eta_rho, xi_rho) ;

rho:standard_name = "sea_water_density_anomaly" ;

rho:long_name = "density anomaly" ;

rho:units = "kilogram meter-3" ;

rho:time = "ocean_time" ;

rho:cell_methods = "ocean_time: point" ;

rho:grid = "grid" ;

rho:location = "face" ;

rho:coordinates = "lon_rho lat_rho s_rho ocean_time" ;

rho:field = "density" ;

rho:_FillValue = 1.e+37f ;

double rho0 ;

rho0:long_name = "mean density used in Boussinesq approximation" ;

rho0:units = "kilogram meter-3" ;

double s_rho(s_rho) ;

s_rho:standard_name = "ocean_s_coordinate_g2" ;

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:formula_terms = "s: s_rho C: Cs_r eta: zeta depth: h depth_c: hc" ;

double s_w(s_w) ;

s_w:standard_name = "ocean_s_coordinate_g2" ;

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:formula_terms = "s: s_w C: Cs_w eta: zeta depth: h depth_c: hc" ;

float salt(ocean_time, s_rho, eta_rho, xi_rho) ;

salt:standard_name = "sea_water_practical_salinity" ;

salt:long_name = "salinity" ;

salt:time = "ocean_time" ;

salt:cell_methods = "ocean_time: point" ;

salt:grid = "grid" ;

salt:location = "face" ;

salt:coordinates = "lon_rho lat_rho s_rho ocean_time" ;

salt:field = "salinity" ;

salt:_FillValue = 1.e+37f ;

int spherical ;

spherical:long_name = "grid type logical switch" ;

spherical:flag_values = 0, 1 ;

spherical:flag_meanings = "Cartesian spherical" ;

double sz_alpha ;

sz_alpha:long_name = "surface flux from wave dissipation" ;

float temp(ocean_time, s_rho, eta_rho, xi_rho) ;

temp:standard_name = "sea_water_potential_temperature" ;

temp:long_name = "potential temperature" ;

temp:units = "Celsius" ;

temp:time = "ocean_time" ;

temp:cell_methods = "ocean_time: point" ;

temp:grid = "grid" ;

temp:location = "face" ;

temp:coordinates = "lon_rho lat_rho s_rho ocean_time" ;

temp:field = "temperature" ;

temp:_FillValue = 1.e+37f ;

double theta_b ;

theta_b:long_name = "S-coordinate bottom control parameter" ;

double theta_s ;

theta_s:long_name = "S-coordinate surface control parameter" ;

float u(ocean_time, s_rho, eta_u, xi_u) ;

u:standard_name = "sea_water_x_velocity" ;

u:long_name = "u-momentum component" ;

u:units = "meter second-1" ;

u:time = "ocean_time" ;

u:cell_methods = "ocean_time: point" ;

u:grid = "grid" ;

u:location = "edge1" ;

u:coordinates = "lon_u lat_u s_rho ocean_time" ;

u:field = "u-velocity" ;

u:_FillValue = 1.e+37f ;

float ubar(ocean_time, eta_u, xi_u) ;

ubar:standard_name = "barotropic_sea_water_x_velocity" ;

ubar:long_name = "vertically integrated u-momentum component" ;

ubar:units = "meter second-1" ;

ubar:time = "ocean_time" ;

ubar:cell_methods = "ocean_time: point" ;

ubar:grid = "grid" ;

ubar:location = "edge1" ;

ubar:coordinates = "lon_u lat_u ocean_time" ;

ubar:field = "u-barotropic" ;

ubar:_FillValue = 1.e+37f ;

float v(ocean_time, s_rho, eta_v, xi_v) ;

v:standard_name = "sea_water_y_velocity" ;

v:long_name = "v-momentum component" ;

v:units = "meter second-1" ;

v:time = "ocean_time" ;

v:cell_methods = "ocean_time: point" ;

v:grid = "grid" ;

v:location = "edge2" ;

v:coordinates = "lon_v lat_v s_rho ocean_time" ;

v:field = "v-velocity" ;

v:_FillValue = 1.e+37f ;

float vbar(ocean_time, eta_v, xi_v) ;

vbar:standard_name = "barotropic_sea_water_y_velocity" ;

vbar:long_name = "vertically integrated v-momentum component" ;

vbar:units = "meter second-1" ;

vbar:time = "ocean_time" ;

vbar:cell_methods = "ocean_time: point" ;

vbar:grid = "grid" ;

vbar:location = "edge2" ;

vbar:coordinates = "lon_v lat_v ocean_time" ;

vbar:field = "v-barotropic" ;

vbar:_FillValue = 1.e+37f ;

float w(ocean_time, s_w, eta_rho, xi_rho) ;

w:standard_name = "upward_sea_water_velocity" ;

w:long_name = "vertical momentum component" ;

w:units = "meter second-1" ;

w:time = "ocean_time" ;

w:cell_methods = "ocean_time: point" ;

w:grid = "grid" ;

w:location = "face" ;

w:coordinates = "lon_rho lat_rho s_w ocean_time" ;

w:field = "w-velocity" ;

w:_FillValue = 1.e+37f ;

float wetdry_mask_psi(ocean_time, eta_psi, xi_psi) ;

wetdry_mask_psi:standard_name = "wet_dry_mask_at_cell_corners" ;

wetdry_mask_psi:long_name = "wet/dry mask on PSI-points" ;

wetdry_mask_psi:flag_values = 0.f, 1.f ;

wetdry_mask_psi:flag_meanings = "land water" ;

wetdry_mask_psi:time = "ocean_time" ;

wetdry_mask_psi:cell_methods = "ocean_time: point" ;

wetdry_mask_psi:grid = "grid" ;

wetdry_mask_psi:location = "node" ;

wetdry_mask_psi:coordinates = "lon_psi lat_psi ocean_time" ;

wetdry_mask_psi:field = "wet-dry psi-mask" ;

float wetdry_mask_rho(ocean_time, eta_rho, xi_rho) ;

wetdry_mask_rho:standard_name = "wet_dry_mask_at_cell_center" ;

wetdry_mask_rho:long_name = "wet/dry mask on RHO-points" ;

wetdry_mask_rho:flag_values = 0.f, 1.f ;

wetdry_mask_rho:flag_meanings = "land water" ;

wetdry_mask_rho:time = "ocean_time" ;

wetdry_mask_rho:cell_methods = "ocean_time: point" ;

wetdry_mask_rho:grid = "grid" ;

wetdry_mask_rho:location = "face" ;

wetdry_mask_rho:coordinates = "lon_rho lat_rho ocean_time" ;

wetdry_mask_rho:field = "wet-dry rho-mask" ;

float wetdry_mask_u(ocean_time, eta_u, xi_u) ;

wetdry_mask_u:standard_name = "wet_dry_mask_at_cell_y_edges" ;

wetdry_mask_u:long_name = "wet/dry mask on U-points" ;

wetdry_mask_u:flag_values = 0.f, 1.f ;

wetdry_mask_u:flag_meanings = "land water" ;

wetdry_mask_u:time = "ocean_time" ;

wetdry_mask_u:cell_methods = "ocean_time: point" ;

wetdry_mask_u:grid = "grid" ;

wetdry_mask_u:location = "edge1" ;

wetdry_mask_u:coordinates = "lon_u lat_u ocean_time" ;

wetdry_mask_u:field = "wet-dry u-mask" ;

float wetdry_mask_v(ocean_time, eta_v, xi_v) ;

wetdry_mask_v:standard_name = "wet_dry_mask_at_cell_x_edges" ;

wetdry_mask_v:long_name = "wet/dry mask on V-points" ;

wetdry_mask_v:flag_values = 0.f, 1.f ;

wetdry_mask_v:flag_meanings = "land water" ;

wetdry_mask_v:time = "ocean_time" ;

wetdry_mask_v:cell_methods = "ocean_time: point" ;

wetdry_mask_v:grid = "grid" ;

wetdry_mask_v:location = "edge2" ;

wetdry_mask_v:coordinates = "lon_v lat_v ocean_time" ;

wetdry_mask_v:field = "wet-dry v-mask" ;

double xl ;

xl:long_name = "domain length in the XI-direction" ;

xl:units = "meter" ;

float zeta(ocean_time, eta_rho, xi_rho) ;

zeta:standard_name = "sea_surface_height_above_geopotential_datum" ;

zeta:long_name = "free-surface" ;

zeta:units = "meter" ;

zeta:time = "ocean_time" ;

zeta:cell_methods = "ocean_time: point" ;

zeta:grid = "grid" ;

zeta:location = "face" ;

zeta:coordinates = "lon_rho lat_rho ocean_time" ;

zeta:field = "free-surface" ;

// global attributes:

:file = "his_bts_0_2021_new_bat_new_rug_0001.nc" ;

:format = "netCDF-3 64bit offset file" ;

:Conventions = "CF-1.4, SGRID-0.3" ;

:type = "ROMS/TOMS history file" ;

:title = "BTS nesting 2grids WD+CFSR+Mercator_CC+HY_IC" ;

:var_info = "varinfo.yaml" ;

:rst_file = "rst_bts_0_2021_new_bat_new_rug.nc" ;

:his_base = "his_bts_0_2021_new_bat_new_rug" ;

:grd_file = "/disco3/coralsol/teixeira/roms_cfsr_mercator/gen_grd0_w_bottom_2024.nc" ;

:ini_file = "/disco3/coralsol/teixeira/roms_cfsr_mercator/nova_batimetria_e_rugosidade/2021/his_bts_0_2021b_new_bat_new_rug_0001.nc" ;

:river_file = "/disco3/coralsol/teixeira/riv/riv0_bts_2008_2022.nc" ;

:tide_file = "/disco3/coralsol/teixeira/TIDES/frc_TPXO9v5_2021.nc" ;

:frc_file_01 = "/disco6/coralsol/teixeira/cfsr/bulk_cfsr_2020_0_new.nc, /disco6/coralsol/teixeira/cfsr/bulk_cfsr_2021_0_new.nc" ;

:bry_file_01 = "/disco3/coralsol/teixeira/BC/BC_bts_mercator_2020.nc, /disco3/coralsol/teixeira/BC/BC_bts_mercator_2021.nc" ;

:clm_file_01 = "/disco3/coralsol/teixeira/CLIMA/climatology_2020.nc, /disco3/coralsol/teixeira/CLIMA/climatology_2021.nc" ;

:nud_file = "/disco3/coralsol/teixeira/nudg/nudg_bts.nc" ;

:script_file = "/disco3/coralsol/teixeira/roms_cfsr_mercator/ocean_bts_01_2021.in" ;

:NLM_TADV = "\n",

"ADVECTION: HORIZONTAL VERTICAL \n",

"temp: Upstream3 Centered4 \n",

"salt: Upstream3 Centered4" ;

:NLM_LBC = "\n",

"EDGE: WEST SOUTH EAST NORTH \n",

"zeta: Cha Clo Clo Clo \n",

"ubar: Fla Clo Clo Clo \n",

"vbar: Fla Clo Clo Clo \n",

"u: RadNud Clo Clo Clo \n",

"v: RadNud Clo Clo Clo \n",

"temp: RadNud Clo Clo Clo \n",

"salt: RadNud Clo Clo Clo \n",

"tke: Rad Clo Clo Clo" ;

:svn_url = "https://www.myroms.org/svn/src/trunk" ;

:svn_rev = "" ;

:code_dir = "/home_antiga/teixeira/myroms_new" ;

:header_dir = "/disco3/coralsol/teixeira/roms_cfsr_mercator" ;

:header_file = "bts.h" ;

:os = "Linux" ;

:cpu = "x86_64" ;

:compiler_system = "ifort" ;

:compiler_command = "/opt/intel/oneapi/2024.1/bin/mpiifort" ;

:compiler_flags = "-fp-model precise -heap-arrays -diag-disable=10448 -ip -O3 -traceback -check uninit" ;

:tiling = "004x006" ;

:history = "Wed Jul 24 10:45:37 2024: ncks -7 --cmp=shf|zst his_bts_0_2021_new_bat_new_rug_0002.nc netcdf4/his_bts_0_2021_new_bat_new_rug_0002.nc\n",

"Sun May 12 00:41:46 2024: ncks --no_tmp_fl --append -v hc his_bts_0_2021_new_bat_new_rug_0003.nc his_bts_0_2021_new_bat_new_rug_0002.nc\n",

"ROMS/TOMS, Version 4.2, Wednesday - May 1, 2024 - 9:56:35 PM" ;

:ana_file = "ROMS/Functionals/ana_btflux.h" ;

:CPP_options = "BTS, ADD_FSOBC, ADD_M2OBC, ANA_BSFLUX, ANA_BTFLUX, ASSEMBLE_ALLGATHER, ASSUMED_SHAPE, BOUNDARY_ALLREDUCE, BULK_FLUXES, COLLECT_ALLGATHER, COOL_SKIN, CURVGRID, DIFF_GRID, DJ_GRADPS, DOUBLE_PRECISION, EMINUSP, GLS_MIXING, LIMIT_BSTRESS, KANTHA_CLAYSON, LONGWAVE_OUT, MASKING, MIX_GEO_TS, MIX_S_UV, MPI, NESTING, NONLINEAR, NONLIN_EOS, NO_LBC_ATT, N2S2_HORAVG, !ONE_WAY, POWER_LAW, PROFILE, K_GSCHEME, RADIATION_2D, REDUCE_ALLGATHER, !RST_SINGLE, SALINITY, STEP2D_LF_AM3, SOLAR_SOURCE, SOLVE3D, SSH_TIDES, TS_DIF2, UV_ADV, UV_COR, UV_U3HADVECTION, UV_C4VADVECTION, UV_DRAG_GRID, UV_LOGDRAG, UV_TIDES, UV_VIS2, VAR_RHO_2D, VISC_GRID, WET_DRY" ;

:history_of_appended_files = "Sun May 12 00:41:46 2024: Appended file his_bts_0_2021_new_bat_new_rug_0003.nc had following \"history\" attribute:\n",

"ROMS/TOMS, Version 4.2, Wednesday - May 1, 2024 - 9:56:35 PM\n",

"" ;

:NCO = "netCDF Operators version 5.2.4 (Homepage = http://nco.sf.net, Code = http://github.com/nco/nco, Citation = 10.1016/j.envsoft.2008.03.004)" ;

}