netcdf b30.030b.ES01.pop.h.1870 {
dimensions:
time = UNLIMITED ; // (1 currently)
nlon = 320 ;
nlat = 384 ;
z_t = 40 ;
z_w = 40 ;
nchar = 256 ;
d2 = 2 ;
lat_aux_grid = 395 ;
moc_z = 41 ;
moc_comp = 1 ;
transport_comp = 3 ;
transport_reg = 2 ;
variables:
double time(time) ;
time:long_name = "time" ;
time:units = "days since 0000-01-01 00:00:00" ;
time:bounds = "time_bound" ;
time:calendar = "noleap" ;
float z_t(z_t) ;
z_t:long_name = "depth from surface to midpoint of layer" ;
z_t:units = "centimeters" ;
z_t:positive = "down" ;
z_t:valid_min = 500.622f ;
z_t:valid_max = 537499.9f ;
float z_w(z_w) ;
z_w:long_name = "depth from surface to top of layer" ;
z_w:units = "centimeters" ;
z_w:positive = "down" ;
z_w:valid_min = 0.f ;
z_w:valid_max = 524999.9f ;
float ULAT(nlat, nlon) ;
ULAT:long_name = "array of u-grid latitudes" ;
ULAT:units = "degrees_north" ;
float ULONG(nlat, nlon) ;
ULONG:long_name = "array of u-grid longitudes" ;
ULONG:units = "degrees_east" ;
float TLAT(nlat, nlon) ;
TLAT:long_name = "array of t-grid latitudes" ;
TLAT:units = "degrees_north" ;
float TLONG(nlat, nlon) ;
TLONG:long_name = "array of t-grid longitudes" ;
TLONG:units = "degrees_east" ;
float dz(z_t) ;
dz:long_name = "thickness of layer k" ;
dz:units = "centimeters" ;
dz:_FillValue = 9.96921e+36f ;
dz:missing_value = 9.96921e+36f ;
float dzw(z_w) ;
dzw:long_name = "midpoint of k to midpoint of k+1" ;
dzw:units = "centimeters" ;
dzw:_FillValue = 9.96921e+36f ;
dzw:missing_value = 9.96921e+36f ;
int KMT(nlat, nlon) ;
KMT:long_name = "k Index of Deepest Grid Cell on T Grid" ;
KMT:coordinates = "TLONG TLAT" ;
KMT:_FillValue = -2147483647 ;
KMT:missing_value = -2147483647 ;
int KMU(nlat, nlon) ;
KMU:long_name = "k Index of Deepest Grid Cell on U Grid" ;
KMU:coordinates = "ULONG ULAT" ;
KMU:_FillValue = -2147483647 ;
KMU:missing_value = -2147483647 ;
int REGION_MASK(nlat, nlon) ;
REGION_MASK:long_name = "basin index number (signed integers)" ;
REGION_MASK:coordinates = "TLONG TLAT" ;
REGION_MASK:_FillValue = -2147483647 ;
REGION_MASK:missing_value = -2147483647 ;
float UAREA(nlat, nlon) ;
UAREA:long_name = "area of U cells" ;
UAREA:units = "centimeter^2" ;
UAREA:coordinates = "ULONG ULAT" ;
UAREA:_FillValue = 9.96921e+36f ;
UAREA:missing_value = 9.96921e+36f ;
float TAREA(nlat, nlon) ;
TAREA:long_name = "area of T cells" ;
TAREA:units = "centimeter^2" ;
TAREA:coordinates = "TLONG TLAT" ;
TAREA:_FillValue = 9.96921e+36f ;
TAREA:missing_value = 9.96921e+36f ;
float HU(nlat, nlon) ;
HU:long_name = "ocean depth at U points" ;
HU:units = "centimeter" ;
HU:coordinates = "ULONG ULAT" ;
HU:_FillValue = 9.96921e+36f ;
HU:missing_value = 9.96921e+36f ;
float HT(nlat, nlon) ;
HT:long_name = "ocean depth at T points" ;
HT:units = "centimeter" ;
HT:coordinates = "TLONG TLAT" ;
HT:_FillValue = 9.96921e+36f ;
HT:missing_value = 9.96921e+36f ;
float DXU(nlat, nlon) ;
DXU:long_name = "x-spacing centered at U points" ;
DXU:units = "centimeters" ;
DXU:coordinates = "ULONG ULAT" ;
DXU:_FillValue = 9.96921e+36f ;
DXU:missing_value = 9.96921e+36f ;
float DYU(nlat, nlon) ;
DYU:long_name = "y-spacing centered at U points" ;
DYU:units = "centimeters" ;
DYU:coordinates = "ULONG ULAT" ;
DYU:_FillValue = 9.96921e+36f ;
DYU:missing_value = 9.96921e+36f ;
float DXT(nlat, nlon) ;
DXT:long_name = "x-spacing centered at T points" ;
DXT:units = "centimeters" ;
DXT:coordinates = "TLONG TLAT" ;
DXT:_FillValue = 9.96921e+36f ;
DXT:missing_value = 9.96921e+36f ;
float DYT(nlat, nlon) ;
DYT:long_name = "y-spacing centered at T points" ;
DYT:units = "centimeters" ;
DYT:coordinates = "TLONG TLAT" ;
DYT:_FillValue = 9.96921e+36f ;
DYT:missing_value = 9.96921e+36f ;
float HTN(nlat, nlon) ;
HTN:long_name = "cell widths on North sides of T cell" ;
HTN:units = "centimeters" ;
HTN:coordinates = "TLONG TLAT" ;
HTN:_FillValue = 9.96921e+36f ;
HTN:missing_value = 9.96921e+36f ;
float HTE(nlat, nlon) ;
HTE:long_name = "cell widths on East sides of T cell" ;
HTE:units = "centimeters" ;
HTE:coordinates = "TLONG TLAT" ;
HTE:_FillValue = 9.96921e+36f ;
HTE:missing_value = 9.96921e+36f ;
float HUS(nlat, nlon) ;
HUS:long_name = "cell widths on South sides of U cell" ;
HUS:units = "centimeters" ;
HUS:coordinates = "ULONG ULAT" ;
HUS:_FillValue = 9.96921e+36f ;
HUS:missing_value = 9.96921e+36f ;
float HUW(nlat, nlon) ;
HUW:long_name = "cell widths on West sides of U cell" ;
HUW:units = "centimeters" ;
HUW:coordinates = "ULONG ULAT" ;
HUW:_FillValue = 9.96921e+36f ;
HUW:missing_value = 9.96921e+36f ;
float ANGLE(nlat, nlon) ;
ANGLE:long_name = "angle grid makes with latitude line" ;
ANGLE:units = "radians" ;
ANGLE:coordinates = "ULONG ULAT" ;
ANGLE:_FillValue = 9.96921e+36f ;
ANGLE:missing_value = 9.96921e+36f ;
float ANGLET(nlat, nlon) ;
ANGLET:long_name = "angle grid makes with latitude line on T grid" ;
ANGLET:units = "radians" ;
ANGLET:coordinates = "TLONG TLAT" ;
ANGLET:_FillValue = 9.96921e+36f ;
ANGLET:missing_value = 9.96921e+36f ;
double days_in_norm_year ;
days_in_norm_year:long_name = "Calendar Length" ;
days_in_norm_year:units = "days" ;
double grav ;
grav:long_name = "Acceleration Due to Gravity" ;
grav:units = "centimeter/s^2" ;
double omega ;
omega:long_name = "Earths Angular Velocity" ;
omega:units = "1/second" ;
double radius ;
radius:long_name = "Earths Radius" ;
radius:units = "centimeters" ;
double cp_sw ;
cp_sw:long_name = "Specific Heat of Sea Water" ;
cp_sw:units = "erg/g/K" ;
double sound ;
sound:long_name = "Speed of Sound" ;
sound:units = "centimeter/s" ;
double vonkar ;
vonkar:long_name = "von Karman Constant" ;
double cp_air ;
cp_air:long_name = "Heat Capacity of Air" ;
cp_air:units = "joule/kg/degK" ;
double rho_air ;
rho_air:long_name = "Ambient Air Density" ;
rho_air:units = "kg/m^3" ;
double rho_sw ;
rho_sw:long_name = "Density of Sea Water" ;
rho_sw:units = "gram/centimeter^3" ;
double rho_fw ;
rho_fw:long_name = "Density of Fresh Water" ;
rho_fw:units = "gram/centimeter^3" ;
double stefan_boltzmann ;
stefan_boltzmann:long_name = "Stefan-Boltzman Constant" ;
stefan_boltzmann:units = "watt/m^2/degK^4" ;
double latent_heat_vapor ;
latent_heat_vapor:long_name = "Latent Heat of Vaporization" ;
latent_heat_vapor:units = "erg/g" ;
double latent_heat_fusion ;
latent_heat_fusion:long_name = "Latent Heat of Fusion" ;
latent_heat_fusion:units = "erg/g" ;
double ocn_ref_salinity ;
ocn_ref_salinity:long_name = "Ocean Reference Salinity" ;
ocn_ref_salinity:units = "g/kg" ;
double sea_ice_salinity ;
sea_ice_salinity:long_name = "Salinity of Sea Ice" ;
sea_ice_salinity:units = "g/kg" ;
double T0_Kelvin ;
T0_Kelvin:long_name = "Zero Point for Celsius" ;
T0_Kelvin:units = "degK" ;
double salt_to_ppt ;
salt_to_ppt:long_name = "Convert Salt in gram/gram to g/kg" ;
double ppt_to_salt ;
ppt_to_salt:long_name = "Convert Salt in g/kg to gram/gram" ;
double mass_to_Sv ;
mass_to_Sv:long_name = "Convert Mass Flux to Sverdrups" ;
double heat_to_PW ;
heat_to_PW:long_name = "Convert Heat Flux to Petawatts" ;
double salt_to_Svppt ;
salt_to_Svppt:long_name = "Convert Salt Flux to Sverdrups*g/kg" ;
double salt_to_mmday ;
salt_to_mmday:long_name = "Convert Salt to Water (millimeters/day)" ;
double momentum_factor ;
momentum_factor:long_name = "Convert Windstress to Velocity Flux" ;
double hflux_factor ;
hflux_factor:long_name = "Convert Heat and Solar Flux to Temperature Flux" ;
double fwflux_factor ;
fwflux_factor:long_name = "Convert Net Fresh Water Flux to Salt Flux (in model units)" ;
double salinity_factor ;
double sflux_factor ;
sflux_factor:long_name = "Convert Salt Flux to Salt Flux (in model units)" ;
double nsurface_t ;
nsurface_t:long_name = "Number of Ocean T Points at Surface" ;
double nsurface_u ;
nsurface_u:long_name = "Number of Ocean U Points at Surface" ;
double time_bound(time, d2) ;
time_bound:long_name = "boundaries for time-averaging interval" ;
time_bound:units = "days since 0000-01-01 00:00:00" ;
float SHF(time, nlat, nlon) ;
SHF:long_name = "Total Surface Heat Flux, Including SW" ;
SHF:units = "watt/m^2" ;
SHF:coordinates = "TLONG TLAT time" ;
SHF:cell_methods = "time: mean" ;
SHF:_FillValue = 9.96921e+36f ;
SHF:missing_value = 9.96921e+36f ;
float SHF_QSW(time, nlat, nlon) ;
SHF_QSW:long_name = "Solar Short-Wave Heat Flux" ;
SHF_QSW:units = "watt/m^2" ;
SHF_QSW:coordinates = "TLONG TLAT time" ;
SHF_QSW:cell_methods = "time: mean" ;
SHF_QSW:_FillValue = 9.96921e+36f ;
SHF_QSW:missing_value = 9.96921e+36f ;
float SFWF(time, nlat, nlon) ;
SFWF:long_name = "Virtual Salt Flux in FW Flux formulation" ;
SFWF:units = "kg/m^2/s" ;
SFWF:coordinates = "TLONG TLAT time" ;
SFWF:cell_methods = "time: mean" ;
SFWF:_FillValue = 9.96921e+36f ;
SFWF:missing_value = 9.96921e+36f ;
float PREC_F(time, nlat, nlon) ;
PREC_F:long_name = "Precipitation Flux from Cpl (rain+snow)" ;
PREC_F:units = "kg/m^2/s" ;
PREC_F:coordinates = "TLONG TLAT time" ;
PREC_F:cell_methods = "time: mean" ;
PREC_F:_FillValue = 9.96921e+36f ;
PREC_F:missing_value = 9.96921e+36f ;
float SNOW_F(time, nlat, nlon) ;
SNOW_F:long_name = "Snow Flux from Coupler" ;
SNOW_F:units = "kg/m^2/s" ;
SNOW_F:coordinates = "TLONG TLAT time" ;
SNOW_F:cell_methods = "time: mean" ;
SNOW_F:_FillValue = 9.96921e+36f ;
SNOW_F:missing_value = 9.96921e+36f ;
float EVAP_F(time, nlat, nlon) ;
EVAP_F:long_name = "Evaporation Flux from Coupler" ;
EVAP_F:units = "kg/m^2/s" ;
EVAP_F:coordinates = "TLONG TLAT time" ;
EVAP_F:cell_methods = "time: mean" ;
EVAP_F:_FillValue = 9.96921e+36f ;
EVAP_F:missing_value = 9.96921e+36f ;
float MELT_F(time, nlat, nlon) ;
MELT_F:long_name = "Melt Flux from Coupler" ;
MELT_F:units = "kg/m^2/s" ;
MELT_F:coordinates = "TLONG TLAT time" ;
MELT_F:cell_methods = "time: mean" ;
MELT_F:_FillValue = 9.96921e+36f ;
MELT_F:missing_value = 9.96921e+36f ;
float ROFF_F(time, nlat, nlon) ;
ROFF_F:long_name = "Runoff Flux from Coupler" ;
ROFF_F:units = "kg/m^2/s" ;
ROFF_F:coordinates = "TLONG TLAT time" ;
ROFF_F:cell_methods = "time: mean" ;
ROFF_F:_FillValue = 9.96921e+36f ;
ROFF_F:missing_value = 9.96921e+36f ;
float SALT_F(time, nlat, nlon) ;
SALT_F:long_name = "Salt Flux from Coupler (kg of salt/m^2/s)" ;
SALT_F:units = "kg/m^2/s" ;
SALT_F:coordinates = "TLONG TLAT time" ;
SALT_F:cell_methods = "time: mean" ;
SALT_F:_FillValue = 9.96921e+36f ;
SALT_F:missing_value = 9.96921e+36f ;
float SENH_F(time, nlat, nlon) ;
SENH_F:long_name = "Sensible Heat Flux from Coupler" ;
SENH_F:units = "watt/m^2" ;
SENH_F:coordinates = "TLONG TLAT time" ;
SENH_F:cell_methods = "time: mean" ;
SENH_F:_FillValue = 9.96921e+36f ;
SENH_F:missing_value = 9.96921e+36f ;
float LWUP_F(time, nlat, nlon) ;
LWUP_F:long_name = "Longwave Heat Flux (up) from Coupler" ;
LWUP_F:units = "watt/m^2" ;
LWUP_F:coordinates = "TLONG TLAT time" ;
LWUP_F:cell_methods = "time: mean" ;
LWUP_F:_FillValue = 9.96921e+36f ;
LWUP_F:missing_value = 9.96921e+36f ;
float LWDN_F(time, nlat, nlon) ;
LWDN_F:long_name = "Longwave Heat Flux (dn) from Coupler" ;
LWDN_F:units = "watt/m^2" ;
LWDN_F:coordinates = "TLONG TLAT time" ;
LWDN_F:cell_methods = "time: mean" ;
LWDN_F:_FillValue = 9.96921e+36f ;
LWDN_F:missing_value = 9.96921e+36f ;
float MELTH_F(time, nlat, nlon) ;
MELTH_F:long_name = "Melt Heat Flux from Coupler" ;
MELTH_F:units = "watt/m^2" ;
MELTH_F:coordinates = "TLONG TLAT time" ;
MELTH_F:cell_methods = "time: mean" ;
MELTH_F:_FillValue = 9.96921e+36f ;
MELTH_F:missing_value = 9.96921e+36f ;
float SSH(time, nlat, nlon) ;
SSH:long_name = "Sea Surface Height" ;
SSH:units = "centimeter" ;
SSH:coordinates = "TLONG TLAT time" ;
SSH:cell_methods = "time: mean" ;
SSH:_FillValue = 9.96921e+36f ;
SSH:missing_value = 9.96921e+36f ;
float TAUX(time, nlat, nlon) ;
TAUX:long_name = "Windstress in grid-x direction" ;
TAUX:units = "dyne/centimeter^2" ;
TAUX:coordinates = "ULONG ULAT time" ;
TAUX:cell_methods = "time: mean" ;
TAUX:_FillValue = 9.96921e+36f ;
TAUX:missing_value = 9.96921e+36f ;
float TAUY(time, nlat, nlon) ;
TAUY:long_name = "Windstress in grid-y direction" ;
TAUY:units = "dyne/centimeter^2" ;
TAUY:coordinates = "ULONG ULAT time" ;
TAUY:cell_methods = "time: mean" ;
TAUY:_FillValue = 9.96921e+36f ;
TAUY:missing_value = 9.96921e+36f ;
float SU(time, nlat, nlon) ;
SU:long_name = "Vertically Integrated Velocity in grid-x direction" ;
SU:units = "centimeter^2/s" ;
SU:coordinates = "ULONG ULAT time" ;
SU:cell_methods = "time: mean" ;
SU:_FillValue = 9.96921e+36f ;
SU:missing_value = 9.96921e+36f ;
float SV(time, nlat, nlon) ;
SV:long_name = "Vertically Integrated Velocity in grid-y direction" ;
SV:units = "centimeter^2/s" ;
SV:coordinates = "ULONG ULAT time" ;
SV:cell_methods = "time: mean" ;
SV:_FillValue = 9.96921e+36f ;
SV:missing_value = 9.96921e+36f ;
float HMXL(time, nlat, nlon) ;
HMXL:long_name = "Mixed-Layer Depth" ;
HMXL:units = "centimeter" ;
HMXL:coordinates = "TLONG TLAT time" ;
HMXL:cell_methods = "time: mean" ;
HMXL:_FillValue = 9.96921e+36f ;
HMXL:missing_value = 9.96921e+36f ;
float XMXL(time, nlat, nlon) ;
XMXL:long_name = "Maximum Mixed-Layer Depth" ;
XMXL:units = "centimeter" ;
XMXL:coordinates = "TLONG TLAT time" ;
XMXL:cell_methods = "time: maximum" ;
XMXL:_FillValue = 9.96921e+36f ;
XMXL:missing_value = 9.96921e+36f ;
float TMXL(time, nlat, nlon) ;
TMXL:long_name = "Minimum Mixed-Layer Depth" ;
TMXL:units = "centimeter" ;
TMXL:coordinates = "TLONG TLAT time" ;
TMXL:cell_methods = "time: minimum" ;
TMXL:_FillValue = 9.96921e+36f ;
TMXL:missing_value = 9.96921e+36f ;
float HBLT(time, nlat, nlon) ;
HBLT:long_name = "Boundary-Layer Depth" ;
HBLT:units = "centimeter" ;
HBLT:coordinates = "TLONG TLAT time" ;
HBLT:cell_methods = "time: mean" ;
HBLT:_FillValue = 9.96921e+36f ;
HBLT:missing_value = 9.96921e+36f ;
float XBLT(time, nlat, nlon) ;
XBLT:long_name = "Maximum Boundary-Layer Depth" ;
XBLT:units = "centimeter" ;
XBLT:coordinates = "TLONG TLAT time" ;
XBLT:cell_methods = "time: maximum" ;
XBLT:_FillValue = 9.96921e+36f ;
XBLT:missing_value = 9.96921e+36f ;
float TBLT(time, nlat, nlon) ;
TBLT:long_name = "Minimum Boundary-Layer Depth" ;
TBLT:units = "centimeter" ;
TBLT:coordinates = "TLONG TLAT time" ;
TBLT:cell_methods = "time: minimum" ;
TBLT:_FillValue = 9.96921e+36f ;
TBLT:missing_value = 9.96921e+36f ;
float RESID_T(time, nlat, nlon) ;
RESID_T:long_name = "Free-Surface Residual Flux (T)" ;
RESID_T:units = "watt/m^2" ;
RESID_T:coordinates = "TLONG TLAT time" ;
RESID_T:cell_methods = "time: mean" ;
RESID_T:_FillValue = 9.96921e+36f ;
RESID_T:missing_value = 9.96921e+36f ;
float RESID_S(time, nlat, nlon) ;
RESID_S:long_name = "Free-Surface Residual Flux (S)" ;
RESID_S:units = "kg/m^2/s" ;
RESID_S:coordinates = "TLONG TLAT time" ;
RESID_S:cell_methods = "time: mean" ;
RESID_S:_FillValue = 9.96921e+36f ;
RESID_S:missing_value = 9.96921e+36f ;
float FW(time, nlat, nlon) ;
FW:long_name = "Freshwater Flux" ;
FW:units = "centimeter/s" ;
FW:coordinates = "TLONG TLAT time" ;
FW:cell_methods = "time: mean" ;
FW:_FillValue = 9.96921e+36f ;
FW:missing_value = 9.96921e+36f ;
float TFW_T(time, nlat, nlon) ;
TFW_T:long_name = "T flux due to freshwater flux" ;
TFW_T:units = "watt/m^2" ;
TFW_T:coordinates = "TLONG TLAT time" ;
TFW_T:cell_methods = "time: mean" ;
TFW_T:_FillValue = 9.96921e+36f ;
TFW_T:missing_value = 9.96921e+36f ;
float TFW_S(time, nlat, nlon) ;
TFW_S:long_name = "S flux due to freshwater flux (kg of salt/m^2/s)" ;
TFW_S:units = "kg/m^2/s" ;
TFW_S:coordinates = "TLONG TLAT time" ;
TFW_S:cell_methods = "time: mean" ;
TFW_S:_FillValue = 9.96921e+36f ;
TFW_S:missing_value = 9.96921e+36f ;
float BSF(time, nlat, nlon) ;
BSF:long_name = "Diagnostic barotropic streamfunction" ;
BSF:units = "Sv" ;
BSF:coordinates = "ULONG ULAT time" ;
BSF:cell_methods = "time: mean" ;
BSF:_FillValue = 9.96921e+36f ;
BSF:missing_value = 9.96921e+36f ;
float QSW_HTP(time, nlat, nlon) ;
QSW_HTP:long_name = "Solar Short-Wave Heat Flux in top layer" ;
QSW_HTP:units = "watt/m^2" ;
QSW_HTP:coordinates = "TLONG TLAT time" ;
QSW_HTP:cell_methods = "time: mean" ;
QSW_HTP:_FillValue = 9.96921e+36f ;
QSW_HTP:missing_value = 9.96921e+36f ;
float QSW_HBL(time, nlat, nlon) ;
QSW_HBL:long_name = "Solar Short-Wave Heat Flux in bndry layer" ;
QSW_HBL:units = "watt/m^2" ;
QSW_HBL:coordinates = "TLONG TLAT time" ;
QSW_HBL:cell_methods = "time: mean" ;
QSW_HBL:_FillValue = 9.96921e+36f ;
QSW_HBL:missing_value = 9.96921e+36f ;
float ADVT(time, nlat, nlon) ;
ADVT:long_name = "Vertically-Integrated T Advection Tendency" ;
ADVT:units = "centimeter degC/s" ;
ADVT:coordinates = "TLONG TLAT time" ;
ADVT:cell_methods = "time: mean" ;
ADVT:_FillValue = 9.96921e+36f ;
ADVT:missing_value = 9.96921e+36f ;
float ADVS(time, nlat, nlon) ;
ADVS:long_name = "Vertically-Integrated S Advection Tendency" ;
ADVS:units = "centimeter gram/kilogram/s" ;
ADVS:coordinates = "TLONG TLAT time" ;
ADVS:cell_methods = "time: mean" ;
ADVS:_FillValue = 9.96921e+33f ;
ADVS:missing_value = 9.96921e+33f ;
float HDIFT(time, nlat, nlon) ;
HDIFT:long_name = "Vertically-Integrated Horz Diff T tendency" ;
HDIFT:units = "centimeter degC/s" ;
HDIFT:coordinates = "TLONG TLAT time" ;
HDIFT:cell_methods = "time: mean" ;
HDIFT:_FillValue = 9.96921e+36f ;
HDIFT:missing_value = 9.96921e+36f ;
float HDIFS(time, nlat, nlon) ;
HDIFS:long_name = "Vertically-Integrated Horz Diff S tendency" ;
HDIFS:units = "centimeter gram/kilogram/s" ;
HDIFS:coordinates = "TLONG TLAT time" ;
HDIFS:cell_methods = "time: mean" ;
HDIFS:_FillValue = 9.96921e+33f ;
HDIFS:missing_value = 9.96921e+33f ;
float QFLUX(time, nlat, nlon) ;
QFLUX:long_name = "Internal Ocean Heat Flux Due to Ice Formation; heat of fusion > 0 or ice-melting potential < 0" ;
QFLUX:units = "Watts/meter^2" ;
QFLUX:coordinates = "TLONG TLAT time" ;
QFLUX:_FillValue = 9.96921e+36f ;
QFLUX:missing_value = 9.96921e+36f ;
float lat_aux_grid(lat_aux_grid) ;
lat_aux_grid:long_name = "latitude grid for transport diagnostics" ;
lat_aux_grid:units = "degrees_north" ;
lat_aux_grid:valid_min = -9.96921e+36f ;
float moc_z(moc_z) ;
moc_z:long_name = "depth from surface to top of layer" ;
moc_z:units = "centimeters" ;
moc_z:positive = "down" ;
moc_z:valid_min = 0.f ;
moc_z:valid_max = 549999.9f ;
char moc_components(moc_comp, nchar) ;
moc_components:long_name = "MOC component names" ;
char transport_components(transport_comp, nchar) ;
transport_components:long_name = "T,S transport components" ;
char transport_regions(transport_reg, nchar) ;
transport_regions:long_name = "regions for all transport diagnostics" ;
float MOC(time, transport_reg, moc_comp, moc_z, lat_aux_grid) ;
MOC:long_name = "Meridional Overturning Circulation" ;
MOC:units = "Sverdrups" ;
MOC:coordinates = "lat_aux_grid moc_z moc_components transport_regions time" ;
MOC:_FillValue = 9.96921e+36f ;
MOC:missing_value = 9.96921e+36f ;
float N_HEAT(time, transport_reg, transport_comp, lat_aux_grid) ;
N_HEAT:long_name = "Northward Heat Transport" ;
N_HEAT:units = "Pwatt" ;
N_HEAT:coordinates = "lat_aux_grid transport_components transport_regions time" ;
N_HEAT:_FillValue = 9.96921e+36f ;
N_HEAT:missing_value = 9.96921e+36f ;
float N_SALT(time, transport_reg, transport_comp, lat_aux_grid) ;
N_SALT:long_name = "Northward Salt Transport" ;
N_SALT:units = "gram centimeter^3/kg/s" ;
N_SALT:coordinates = "lat_aux_grid transport_components transport_regions time" ;
N_SALT:_FillValue = 9.96921e+36f ;
N_SALT:missing_value = 9.96921e+36f ;
float UVEL(time, z_t, nlat, nlon) ;
UVEL:long_name = "Velocity in grid-x direction" ;
UVEL:units = "centimeter/s" ;
UVEL:coordinates = "ULONG ULAT z_t time" ;
UVEL:cell_methods = "time: mean" ;
UVEL:_FillValue
