Changeset 13662 for NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED
- Timestamp:
- 2020-10-22T20:49:56+02:00 (3 years ago)
- Location:
- NEMO/branches/2019/dev_r11842_SI3-10_EAP
- Files:
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- 10 edited
- 1 copied
Legend:
- Unmodified
- Added
- Removed
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NEMO/branches/2019/dev_r11842_SI3-10_EAP
- Property svn:externals
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old new 1 ^/utils/build/arch@HEAD arch 2 ^/utils/build/makenemo@HEAD makenemo 3 ^/utils/build/mk@HEAD mk 4 ^/utils/tools@HEAD tools 5 ^/vendors/AGRIF/dev@HEAD ext/AGRIF 6 ^/vendors/FCM@HEAD ext/FCM 7 ^/vendors/IOIPSL@HEAD ext/IOIPSL 1 ^/utils/build/arch@12130 arch 2 ^/utils/build/makenemo@12191 makenemo 3 ^/utils/build/mk@11662 mk 4 ^/utils/tools_r4.0-HEAD@12672 tools 5 ^/vendors/AGRIF/dev@10586 ext/AGRIF 6 ^/vendors/FCM@10134 ext/FCM 7 ^/vendors/IOIPSL@9655 ext/IOIPSL 8 9 # SETTE mapping (inactive) 10 #^/utils/CI/sette@12135 sette
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- Property svn:externals
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NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/domain_def_nemo.xml
r11536 r13662 9 9 <zoom_domain ibegin="1" jbegin="1" ni="2" nj="3"/> 10 10 </domain> 11 12 <domain id="1point" domain_ref="grid_T" > 13 <zoom_domain ibegin="139" jbegin="119" ni="1" nj="1"/> 14 </domain> 15 11 16 12 17 <!-- Eq section --> … … 176 181 <domain id="EqW" domain_ref="grid_W" > <zoom_domain id="EqW"/> </domain> 177 182 178 179 <!-- zonal mean grid --> 180 <domain id="gznl" long_name="gznl"/> 181 <domain id="znl_T" domain_ref="gznl" > <zoom_domain id="znl_T"/> </domain> 182 <domain id="znl_W" domain_ref="gznl" > <zoom_domain id="znl_W"/> </domain> 183 <!-- zonal mean grid --> 184 <domain_group id="gznl"> 185 <domain id="gznl" long_name="gznl"/> 186 <domain id="ptr" domain_ref="gznl" > 187 <zoom_domain id="ptr" ibegin="0000" jbegin="0" ni="1" nj="0000" /> 188 </domain> 189 </domain_group> 183 190 184 191 -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/field_def_nemo-ice.xml
r12261 r13662 49 49 <field id="icehpnd" long_name="melt pond depth" standard_name="sea_ice_meltpond_depth" unit="m" /> 50 50 <field id="icevpnd" long_name="melt pond volume" standard_name="sea_ice_meltpond_volume" unit="m" /> 51 <field id="icehlid" long_name="melt pond lid depth" standard_name="sea_ice_meltpondlid_depth" unit="m" /> 52 <field id="icevlid" long_name="melt pond lid volume" standard_name="sea_ice_meltpondlid_volume" unit="m" /> 51 53 52 54 <!-- heat --> … … 76 78 <field id="isig2" long_name="2nd principal stress component for EVP rhg" unit="" /> 77 79 <field id="isig3" long_name="convergence measure for EVP rheology (must be around 1)" unit="" /> 80 <field id="sig1_pnorm" long_name="P-normalized 1st principal stress component" unit="" /> 81 <field id="sig2_pnorm" long_name="P-normalized 2nd principal stress component" unit="" /> 82 <field id="icedlt" long_name="delta" standard_name="delta" unit="" /> 78 83 <field id="normstr" long_name="Average normal stress in sea ice" standard_name="average_normal_stress" unit="N/m" /> 79 84 <field id="sheastr" long_name="Maximum shear stress in sea ice" standard_name="maximum_shear_stress" unit="N/m" /> … … 85 90 <field id="yield22" long_name="yield surface tensor component 22" standard_name="yield22" unit="N/m" /> 86 91 <field id="yield12" long_name="yield surface tensor component 12" standard_name="yield12" unit="N/m" /> 87 92 <field id="beta_evp" long_name="Relaxation parameter of ice rheology (beta)" standard_name="relaxation_parameter_of_ice_rheology" unit="" /> 93 88 94 <!-- surface heat fluxes --> 89 95 <field id="qt_ice" long_name="total heat flux at ice surface" standard_name="surface_downward_heat_flux_in_air" unit="W/m2" /> … … 165 171 <!-- diags --> 166 172 <field id="hfxdhc" long_name="Heat content variation in snow and ice (neg = ice cooling)" unit="W/m2" /> 173 <field id="icedrift_mass" long_name="Ice mass drift" unit="kg/m2/s" /> 174 <field id="icedrift_salt" long_name="Ice salt drift" unit="g/m2/s" /> 175 <field id="icedrift_heat" long_name="Ice heat drift" unit="W/m2" /> 167 176 168 177 <!-- sbcssm variables --> … … 174 183 <field id="e3t_m" unit="m" /> 175 184 <field id="frq_m" unit="-" /> 185 186 <!-- rheology convergence tests --> 187 <field id="uice_cvg" long_name="sea ice velocity convergence" standard_name="sea_ice_velocity_convergence" unit="m/s" /> 176 188 177 189 <!-- ================= --> … … 213 225 <field id="dmisum" long_name="sea-ice mass change through surface melting" standard_name="tendency_of_sea_ice_amount_due_to_surface_melting" unit="kg/m2/s" /> 214 226 <field id="dmibom" long_name="sea-ice mass change through bottom melting" standard_name="tendency_of_sea_ice_amount_due_to_basal_melting" unit="kg/m2/s" /> 227 <field id="dmilam" long_name="sea-ice mass change through lateral melting" standard_name="tendency_of_sea_ice_amount_due_to_lateral_melting" unit="kg/m2/s" /> 215 228 <field id="dmsspr" long_name="snow mass change through snow fall" standard_name="snowfall_flux" unit="kg/m2/s" /> 216 229 <field id="dmsmel" long_name="snow mass change through melt" standard_name="surface_snow_melt_flux" unit="kg/m2/s" /> … … 232 245 233 246 <!-- momentum (advection) --> 234 <field id="xmtrpice" long_name="X-component of ice mass transport" standard_name="ice_x_transport" unit="kg/s" /> 235 <field id="ymtrpice" long_name="Y-component of ice mass transport" standard_name="ice_y_transport" unit="kg/s" /> 236 <field id="xmtrpsnw" long_name="X-component of snw mass transport" standard_name="snw_x_transport" unit="kg/s" /> 237 <field id="ymtrpsnw" long_name="Y-component of snw mass transport" standard_name="snw_y_transport" unit="kg/s" /> 238 <field id="xatrp" long_name="X-component of ice area transport" standard_name="area_x_transport" unit="m2/s" /> 239 <field id="yatrp" long_name="Y-component of ice area transport" standard_name="area_y_transport" unit="m2/s" /> 240 <field id="xmtrptot" long_name="X-component of sea-ice mass transport" standard_name="sea_ice_x_transport" unit="kg/s" > xmtrpice + xmtrpsnw </field> 241 <field id="ymtrptot" long_name="Y-component of sea-ice mass transport" standard_name="sea_ice_y_transport" unit="kg/s" > ymtrpice + ymtrpsnw </field> 242 247 <field id="xmtrpice" long_name="X-component of ice mass transport" standard_name="ice_x_transport" grid_ref="grid_U_2D" unit="kg/s" /> 248 <field id="ymtrpice" long_name="Y-component of ice mass transport" standard_name="ice_y_transport" grid_ref="grid_V_2D" unit="kg/s" /> 249 <field id="xmtrpsnw" long_name="X-component of snw mass transport" standard_name="snw_x_transport" grid_ref="grid_U_2D" unit="kg/s" /> 250 <field id="ymtrpsnw" long_name="Y-component of snw mass transport" standard_name="snw_y_transport" grid_ref="grid_V_2D" unit="kg/s" /> 251 <field id="xatrp" long_name="X-component of ice area transport" standard_name="area_x_transport" grid_ref="grid_U_2D" unit="m2/s" /> 252 <field id="yatrp" long_name="Y-component of ice area transport" standard_name="area_y_transport" grid_ref="grid_V_2D" unit="m2/s" /> 253 <field id="xmtrptot" long_name="X-component of sea-ice mass transport" standard_name="sea_ice_x_transport" grid_ref="grid_U_2D" unit="kg/s" > xmtrpice + xmtrpsnw </field> 254 <field id="ymtrptot" long_name="Y-component of sea-ice mass transport" standard_name="sea_ice_y_transport" grid_ref="grid_V_2D" unit="kg/s" > ymtrpice + ymtrpsnw </field> 255 256 <!-- Ice transport through straits" --> 257 <field id="xmtrpice_ave" long_name="Monthly average of x-ice mass transport" field_ref="xmtrpice" grid_ref="grid_U_2D" freq_op="1mo" freq_offset="_reset_" > @xmtrpice </field> 258 <field id="xmtrpice_section" grid_ref="grid_U_scalar" > xmtrpice_ave </field> 259 <field id="xmtrpice_strait" field_ref="xmtrpice_section" grid_ref="grid_U_4strait_ice" /> 260 <field id="xstrait_mifl" field_ref="xmtrpice_strait" grid_ref="grid_U_4strait_ice_hsum" unit="kg/s" detect_missing_value="true" > this * maskMFO_u_ice </field> 261 262 <field id="ymtrpice_ave" long_name="Monthly average of y-ice mass transport" field_ref="ymtrpice" grid_ref="grid_V_2D" freq_op="1mo" freq_offset="_reset_" > @ymtrpice </field> 263 <field id="ymtrpice_section" grid_ref="grid_V_scalar" > ymtrpice_ave </field> 264 <field id="ymtrpice_strait" field_ref="ymtrpice_section" grid_ref="grid_V_4strait_ice" /> 265 <field id="ystrait_mifl" field_ref="ymtrpice_strait" grid_ref="grid_V_4strait_ice_hsum" unit="kg/s" detect_missing_value="true" > this * maskMFO_v_ice </field> 266 267 <field id="xmtrpsnw_ave" long_name="Monthly average of x-snow mass transport" field_ref="xmtrpsnw" grid_ref="grid_U_2D" freq_op="1mo" freq_offset="_reset_" > @xmtrpsnw </field> 268 <field id="xmtrpsnw_section" grid_ref="grid_U_scalar" > xmtrpsnw_ave </field> 269 <field id="xmtrpsnw_strait" field_ref="xmtrpsnw_section" grid_ref="grid_U_4strait_ice" /> 270 <field id="xstrait_msfl" field_ref="xmtrpsnw_strait" grid_ref="grid_U_4strait_ice_hsum" unit="kg/s" detect_missing_value="true" > this * maskMFO_u_ice </field> 271 272 <field id="ymtrpsnw_ave" long_name="Monthly average of y-snow mass transport" field_ref="ymtrpsnw" grid_ref="grid_V_2D" freq_op="1mo" freq_offset="_reset_" > @ymtrpsnw </field> 273 <field id="ymtrpsnw_section" grid_ref="grid_V_scalar" > ymtrpsnw_ave </field> 274 <field id="ymtrpsnw_strait" field_ref="ymtrpsnw_section" grid_ref="grid_V_4strait_ice" /> 275 <field id="ystrait_msfl" field_ref="ymtrpsnw_strait" grid_ref="grid_V_4strait_ice_hsum" unit="kg/s" detect_missing_value="true" > this * maskMFO_v_ice </field> 276 277 <field id="xatrp_ave" long_name="Monthly average of x-ice area transport" field_ref="xatrp" grid_ref="grid_U_2D" freq_op="1mo" freq_offset="_reset_" > @xatrp </field> 278 <field id="xatrp_section" grid_ref="grid_U_scalar" > xatrp_ave </field> 279 <field id="xatrp_strait" field_ref="xatrp_section" grid_ref="grid_U_4strait_ice" /> 280 <field id="xstrait_arfl" field_ref="xatrp_strait" grid_ref="grid_U_4strait_ice_hsum" unit="kg/s" detect_missing_value="true" > this * maskMFO_u_ice </field> 281 282 <field id="yatrp_ave" long_name="Monthly average of y-ice area transport" field_ref="yatrp" grid_ref="grid_V_2D" freq_op="1mo" freq_offset="_reset_" > @yatrp </field> 283 <field id="yatrp_section" grid_ref="grid_V_scalar" > yatrp_ave </field> 284 <field id="yatrp_strait" field_ref="yatrp_section" grid_ref="grid_V_4strait_ice" /> 285 <field id="ystrait_arfl" field_ref="yatrp_strait" grid_ref="grid_V_4strait_ice_hsum" unit="m2/s" detect_missing_value="true" > this * maskMFO_v_ice </field> 286 287 <field id="strait_mifl" long_name="Sea ice mass flux through straits" standard_name="sea_ice_mass_transport_across_line" unit="kg/s" freq_op="1mo" grid_ref="grid_4strait_ice" > xstrait_mifl + ystrait_mifl </field> 288 <field id="strait_msfl" long_name="Snow mass flux through straits" standard_name="snow_mass_transport_across_line" unit="kg/s" freq_op="1mo" grid_ref="grid_4strait_ice" > xstrait_msfl + ystrait_msfl </field> 289 <field id="strait_arfl" long_name="Sea ice area flux through straits" standard_name="sea_area_mass_transport_across_line" unit="m2/s" freq_op="1mo" grid_ref="grid_4strait_ice" > xstrait_arfl + ystrait_arfl </field> 290 243 291 </field_group> <!-- SBC_2D --> 244 292 … … 256 304 <field id="iceapnd_cat" long_name="Ice melt pond concentration per category" unit="" /> 257 305 <field id="icehpnd_cat" long_name="Ice melt pond thickness per category" unit="m" detect_missing_value="true" /> 306 <field id="icehlid_cat" long_name="Ice melt pond lid thickness per category" unit="m" detect_missing_value="true" /> 258 307 <field id="iceafpnd_cat" long_name="Ice melt pond fraction per category" unit="" /> 308 <field id="iceaepnd_cat" long_name="Ice melt pond effective fraction per category" unit="" /> 259 309 <field id="icemask_cat" long_name="Fraction of time step with sea ice (per category)" unit="" /> 260 310 <field id="iceage_cat" long_name="Ice age per category" unit="days" detect_missing_value="true" /> … … 267 317 <field id="snwthic_cat_cmip" long_name="Snow thickness in thickness categories" standard_name="snow_thickness_over_categories" detect_missing_value="true" unit="m" > snwthic_cat * icemask_cat + $missval * (1.-icemask_cat) </field> 268 318 <field id="iceconc_cat_pct_cmip" long_name="Sea-ice area fractions in thickness categories" standard_name="sea_ice_area_fraction_over_categories" detect_missing_value="true" unit="%" > iceconc_cat*100. * icemask_cat + $missval * (1.-icemask_cat) </field> 319 320 <!-- heat diffusion convergence tests --> 321 <field id="tice_cvgerr" long_name="sea ice temperature convergence error" standard_name="sea_ice_temperature_convergence_err" unit="K" /> 322 <field id="tice_cvgstp" long_name="sea ice temperature convergence iterations" standard_name="sea_ice_temperature_convergence_stp" unit="" /> 269 323 270 324 </field_group> <!-- SBC_3D --> … … 300 354 <field id="sbgheat_tot" long_name="global mean snow heat content" unit="1e20J" /> 301 355 302 <!-- available later -->303 <!--304 <field id="strait_mifl" long_name="Sea ice mass flux through straits" standard_name="sea_ice_mass_transport_across_line" unit="kg/s" grid_ref="grid_4strait" />305 <field id="strait_arfl" long_name="Sea ice area flux through straits" standard_name="sea_ice_area_transport_across_line" unit="m2/s" grid_ref="grid_4strait" />306 <field id="strait_msfl" long_name="Sea ice snow flux through straits" standard_name="snow_mass_transport_across_line" unit="kg/s" grid_ref="grid_4strait" />307 -->308 356 </field_group> 309 357 … … 360 408 <field field_ref="normstr" name="normstr" /> 361 409 <field field_ref="sheastr" name="sheastr" /> 362 <field field_ref="isig1" name="isig1"/>363 <field field_ref="isig2" name="isig2"/>364 <field field_ref="i sig3" name="isig3"/>410 <field field_ref="sig1_pnorm" name="sig1_pnorm"/> 411 <field field_ref="sig2_pnorm" name="sig2_pnorm"/> 412 <field field_ref="icedlt" name="sidelta" /> 365 413 366 414 <!-- heat fluxes --> … … 529 577 <field field_ref="dmisum" name="sidmassmelttop" /> 530 578 <field field_ref="dmibom" name="sidmassmeltbot" /> 579 <field field_ref="dmilam" name="sidmassmeltlat" /> 531 580 <field field_ref="dmsspr" name="sndmasssnf" /> 532 581 <field field_ref="dmsmel" name="sndmassmelt" /> -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/field_def_nemo-oce.xml
r11536 r13662 19 19 20 20 <field_group id="grid_T" grid_ref="grid_T_2D" > 21 <field id="e3t" long_name="T-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_T_3D" /> 22 <field id="e3t_surf" long_name="T-cell thickness" field_ref="e3t" standard_name="cell_thickness" unit="m" grid_ref="grid_T_SFC"/> 23 <field id="e3t_0" long_name="Initial T-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_T_3D" /> 24 21 <field id="e3t" long_name="T-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_T_3D" /> 22 <field id="e3ts" long_name="T-cell thickness" field_ref="e3t" standard_name="cell_thickness" unit="m" grid_ref="grid_T_SFC"/> 23 <field id="e3t_0" long_name="Initial T-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_T_3D" /> 24 <field id="e3tb" long_name="bottom T-cell thickness" standard_name="bottom_cell_thickness" unit="m" grid_ref="grid_T_2D"/> 25 <field id="e3t_300" field_ref="e3t" grid_ref="grid_T_zoom_300" detect_missing_value="true" /> 26 <field id="e3t_vsum300" field_ref="e3t_300" grid_ref="grid_T_vsum" detect_missing_value="true" /> 27 <field id="masscello" long_name="Sea Water Mass per unit area" standard_name="sea_water_mass_per_unit_area" unit="kg/m2" grid_ref="grid_T_3D"/> 28 <field id="volcello" long_name="Ocean Volume" standard_name="ocean_volume" unit="m3" grid_ref="grid_T_3D"/> 25 29 <field id="toce" long_name="temperature" standard_name="sea_water_potential_temperature" unit="degC" grid_ref="grid_T_3D"/> 26 30 <field id="toce_e3t" long_name="temperature (thickness weighted)" unit="degC" grid_ref="grid_T_3D" > toce * e3t </field > 27 31 <field id="soce" long_name="salinity" standard_name="sea_water_practical_salinity" unit="1e-3" grid_ref="grid_T_3D"/> 28 32 <field id="soce_e3t" long_name="salinity (thickness weighted)" unit="1e-3" grid_ref="grid_T_3D" > soce * e3t </field > 33 34 <field id="toce_e3t_300" field_ref="toce_e3t" unit="degree_C" grid_ref="grid_T_zoom_300" detect_missing_value="true" /> 35 <field id="toce_e3t_vsum300" field_ref="toce_e3t_300" unit="degress_C*m" grid_ref="grid_T_vsum" detect_missing_value="true" /> 36 <field id="toce_vmean300" field_ref="toce_e3t_vsum300" unit="degree_C" grid_ref="grid_T_vsum" detect_missing_value="true" > toce_e3t_vsum300/e3t_vsum300 </field> 37 38 <!--- additions to diawri.F90 ---> 39 <field id="socegrad" long_name="module of salinity gradient" unit="psu/m" grid_ref="grid_T_3D"/> 40 <field id="socegrad2" long_name="square of module of salinity gradient" unit="psu2/m2" grid_ref="grid_T_3D"/> 41 <field id="eken_int" long_name="vertical integration of kinetic energy" unit="m3/s2" /> 42 <field id="relvor" long_name="relative vorticity" unit="s-1" grid_ref="grid_T_3D"/> 43 <field id="absvor" long_name="absolute vorticity" unit="s-1" grid_ref="grid_T_3D"/> 44 <field id="potvor" long_name="potential vorticity" unit="s-1" grid_ref="grid_T_3D"/> 45 <field id="salt2c" long_name="Salt content vertically integrated" unit="1e-3*kg/m2" /> 29 46 30 47 <!-- t-eddy viscosity coefficients (ldfdyn) --> … … 53 70 <field id="taubot" long_name="bottom stress module" unit="N/m2" /> 54 71 72 <!-- Case EOS = TEOS-10 : output potential temperature --> 73 <field id="toce_pot" long_name="Sea Water Potential Temperature" standard_name="sea_water_potential_temperature" unit="degC" grid_ref="grid_T_3D"/> 74 <field id="sst_pot" long_name="potential sea surface temperature" standard_name="sea_surface_temperature" unit="degC" /> 75 <field id="tosmint_pot" long_name="vertical integral of potential temperature times density" standard_name="integral_wrt_depth_of_product_of_density_and_potential_temperature" unit="(kg m2) degree_C" /> 76 77 55 78 <field id="ssh" long_name="sea surface height" standard_name="sea_surface_height_above_geoid" unit="m" /> 56 79 <field id="ssh2" long_name="square of sea surface height" standard_name="square_of_sea_surface_height_above_geoid" unit="m2" > ssh * ssh </field > … … 68 91 <field id="alpha" long_name="thermal expansion" unit="degC-1" grid_ref="grid_T_3D" /> 69 92 <field id="beta" long_name="haline contraction" unit="1e3" grid_ref="grid_T_3D" /> 70 <field id="bn2" long_name="squared Brunt-Vaisala frequency" unit="s-1" grid_ref="grid_T_3D" />71 93 <field id="rhop" long_name="potential density (sigma0)" standard_name="sea_water_sigma_theta" unit="kg/m3" grid_ref="grid_T_3D" /> 72 94 … … 92 114 <field id="topthdep" long_name="Top of Thermocline Depth (dT = -0.2 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_temperature" unit="m" /> 93 115 <field id="pycndep" long_name="Pycnocline Depth (dsigma[dT=-0.2] wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" /> 94 <field id="BLT" long_name="Barrier Layer Thickness" unit="m" 116 <field id="BLT" long_name="Barrier Layer Thickness" unit="m" > topthdep - pycndep </field> 95 117 <field id="tinv" long_name="Max of vertical invertion of temperature" unit="degC" /> 96 118 <field id="depti" long_name="Depth of max. vert. inv. of temperature" unit="m" /> 97 <field id="20d" long_name="Depth of 20C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_20C" /> 98 <field id="28d" long_name="Depth of 28C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_28C" /> 119 <field id="20d" long_name="Depth of 20C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_20C" /> 120 <field id="26d" long_name="Depth of 26C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_26C" /> 121 <field id="28d" long_name="Depth of 28C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_28C" /> 99 122 <field id="hc300" long_name="Heat content 0-300m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" /> 123 <field id="hc700" long_name="Heat content 0-700m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" /> 124 <field id="hc2000" long_name="Heat content 0-2000m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" /> 100 125 101 126 <!-- variables available with diaar5 --> … … 302 327 303 328 <!-- available if key_oasis3 + conservative method --> 304 <field id="rain" long_name="Liquid precipitation" standard_name="rainfall_flux" unit="kg/m2/s" /> 329 <field id="rain" long_name="Liquid precipitation" standard_name="rainfall_flux" unit="kg/m2/s" /> 330 <field id="rain_ao_cea" long_name="Liquid precipitation over ice-free ocean (cell average)" standard_name="rainfall_flux" unit="kg/m2/s" /> 305 331 <field id="evap_ao_cea" long_name="Evaporation over ice-free ocean (cell average)" standard_name="water_evaporation_flux" unit="kg/m2/s" /> 306 332 <field id="isnwmlt_cea" long_name="Snow over Ice melting (cell average)" standard_name="surface_snow_melt_flux" unit="kg/m2/s" /> … … 309 335 <field id="hflx_rain_cea" long_name="heat flux due to rainfall" standard_name="temperature_flux_due_to_rainfall_expressed_as_heat_flux_into_sea_water" unit="W/m2" /> 310 336 <field id="hflx_evap_cea" long_name="heat flux due to evaporation" standard_name="temperature_flux_due_to_evaporation_expressed_as_heat_flux_out_of_sea_water" unit="W/m2" /> 337 <field id="hflx_prec_cea" long_name="heat flux due to all precip" standard_name="temperature_flux_due_to_all_precip_expressed_as_heat_flux_into_sea_water" unit="W/m2" /> 311 338 <field id="hflx_snow_cea" long_name="heat flux due to snow falling" standard_name="heat_flux_onto_ocean_and_ice_due_to_snow_thermodynamics" unit="W/m2" /> 312 339 <field id="hflx_snow_ai_cea" long_name="heat flux due to snow falling over ice" standard_name="heat_flux_onto_ice_due_to_snow_thermodynamics" unit="W/m2" /> … … 343 370 </field_group> 344 371 372 <!-- scalar variables --> 373 <field_group id="SBC_0D" grid_ref="grid_1point" > 374 </field_group> 345 375 346 376 </field_group> <!-- SBC --> … … 349 379 350 380 <field_group id="grid_U" grid_ref="grid_U_2D"> 351 <field id="e3u" long_name="U-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_U_3D" /> 352 <field id="e3u_0" long_name="Initial U-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_U_3D"/> 353 <field id="utau" long_name="Wind Stress along i-axis" standard_name="surface_downward_x_stress" unit="N/m2" /> 354 <field id="uoce" long_name="ocean current along i-axis" standard_name="sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D" /> 355 <field id="uoce_e3u" long_name="ocean current along i-axis (thickness weighted)" unit="m/s" grid_ref="grid_U_3D" > uoce * e3u </field> 381 <field id="e2u" long_name="U-cell width in meridional direction" standard_name="cell_width" unit="m" /> 382 <field id="e3u" long_name="U-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_U_3D" /> 383 <field id="e3u_0" long_name="Initial U-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_U_3D"/> 384 <field id="utau" long_name="Wind Stress along i-axis" standard_name="surface_downward_x_stress" unit="N/m2" /> 385 <field id="uoce" long_name="ocean current along i-axis" standard_name="sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D" /> 386 <field id="uoce_e3u" long_name="ocean current along i-axis (thickness weighted)" unit="m/s" grid_ref="grid_U_3D" > uoce * e3u </field> 387 <field id="uoce_e3u_vsum" long_name="ocean current along i-axis * e3u summed on the vertical" field_ref="uoce_e3u" unit="m3/s" grid_ref="grid_U_vsum"/> 388 <field id="uocetr_vsum" long_name="ocean transport along i-axis summed on the vertical" field_ref="e2u" unit="m3/s"> this * uoce_e3u_vsum </field> 389 390 <field id="uocetr_vsum_op" long_name="ocean current along i-axis * e3u * e2u summed on the vertical" read_access="true" freq_op="1mo" field_ref="e2u" unit="m3/s"> @uocetr_vsum </field> 391 <field id="uocetr_vsum_cumul" long_name="ocean current along i-axis * e3u * e2u cumulated from southwest point" freq_offset="_reset_" operation="instant" freq_op="1mo" unit="m3/s" /> 392 <field id="msftbarot" long_name="ocean_barotropic_mass_streamfunction" unit="kg s-1" > uocetr_vsum_cumul * $rau0 </field> 393 394 356 395 <field id="ssu" long_name="ocean surface current along i-axis" unit="m/s" /> 357 396 <field id="sbu" long_name="ocean bottom current along i-axis" unit="m/s" /> … … 372 411 373 412 <!-- uoce_eiv: available EIV (ln_ldfeiv=T and ln_ldfeiv_dia=T) --> 374 <field id="uoce_eiv" long_name="EIV ocean current along i-axis" standard_name="bolus_sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D" /> 413 <field id="uoce_eiv" long_name="EIV ocean current along i-axis" standard_name="bolus_sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D" /> 414 <field id="ueiv_masstr" long_name="EIV Ocean Mass X Transport" standard_name="bolus_ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_3D" /> 415 <field id="ueiv_heattr" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" /> 416 <field id="ueiv_salttr" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" /> 417 <field id="ueiv_heattr3d" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" grid_ref="grid_U_3D" /> 418 <field id="ueiv_salttr3d" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_U_3D" /> 375 419 376 420 <!-- uoce_bbl: available with ln_trabbl=T and nn_bbl_adv=1 --> … … 386 430 <field id="utbl" long_name="zonal current in the Losh tbl" unit="m/s" /> 387 431 388 <field id="u_masstr" long_name="Ocean Mass X Transport" standard_name="ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_3D" /> 432 <!-- variables available with diaar5 --> 433 <field id="u_masstr" long_name="Ocean Mass X Transport" standard_name="ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_3D" /> 389 434 <field id="u_masstr_vint" long_name="vertical integral of ocean eulerian mass transport along i-axis" standard_name="vertical_integral_of_ocean_mass_x_transport" unit="kg/s" /> 390 435 <field id="u_heattr" long_name="ocean eulerian heat transport along i-axis" standard_name="ocean_heat_x_transport" unit="W" /> … … 392 437 <field id="uadv_heattr" long_name="ocean advective heat transport along i-axis" standard_name="advectice_ocean_heat_x_transport" unit="W" /> 393 438 <field id="uadv_salttr" long_name="ocean advective salt transport along i-axis" standard_name="advectice_ocean_salt_x_transport" unit="1e-3*kg/s" /> 394 <field id="ueiv_heattr" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" />395 <field id="ueiv_salttr" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" />396 <field id="ueiv_heattr3d" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" grid_ref="grid_U_3D" />397 <field id="ueiv_salttr3d" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_U_3D" />398 439 <field id="udiff_heattr" long_name="ocean diffusion heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_diffusion" unit="W" /> 399 440 <field id="udiff_salttr" long_name="ocean diffusion salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_diffusion" unit="1e-3*kg/s" /> … … 403 444 404 445 <field_group id="grid_V" grid_ref="grid_V_2D"> 446 <field id="e1v" long_name="V-cell width in longitudinal direction" standard_name="cell_width" unit="m" /> 405 447 <field id="e3v" long_name="V-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_V_3D" /> 406 448 <field id="e3v_0" long_name="Initial V-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_V_3D" /> … … 426 468 427 469 <!-- voce_eiv: available EIV (ln_ldfeiv=T and ln_ldfeiv_dia=T) --> 428 <field id="voce_eiv" long_name="EIV ocean current along j-axis" standard_name="bolus_sea_water_y_velocity" unit="m/s" grid_ref="grid_V_3D" /> 470 <field id="voce_eiv" long_name="EIV ocean current along j-axis" standard_name="bolus_sea_water_y_velocity" unit="m/s" grid_ref="grid_V_3D" /> 471 <field id="veiv_masstr" long_name="EIV Ocean Mass Y Transport" standard_name="bolus_ocean_mass_y_transport" unit="kg/s" grid_ref="grid_V_3D" /> 472 <field id="veiv_heattr" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" /> 473 <field id="veiv_salttr" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" /> 474 <field id="veiv_heattr3d" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" grid_ref="grid_V_3D" /> 475 <field id="veiv_salttr3d" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_y_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_V_3D" /> 476 429 477 430 478 <!-- voce_bbl: available with ln_trabbl=T and nn_bbl_adv=1 --> … … 446 494 <field id="vadv_heattr" long_name="ocean advective heat transport along j-axis" standard_name="advectice_ocean_heat_y_transport" unit="W" /> 447 495 <field id="vadv_salttr" long_name="ocean advective salt transport along j-axis" standard_name="advectice_ocean_salt_y_transport" unit="1e-3*kg/s" /> 448 <field id="veiv_heattr" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" />449 <field id="veiv_salttr" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" />450 <field id="veiv_heattr3d" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" grid_ref="grid_V_3D" />451 <field id="veiv_salttr3d" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_y_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_V_3D" />452 496 <field id="vdiff_heattr" long_name="ocean diffusion heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_diffusion" unit="W" /> 453 497 <field id="vdiff_salttr" long_name="ocean diffusion salt transport along j-axis" standard_name="ocean_salt_y_transport_due_to_diffusion" unit="1e-3*kg/s" /> … … 458 502 <field_group id="grid_W" grid_ref="grid_W_3D"> 459 503 <field id="e3w" long_name="W-cell thickness" standard_name="cell_thickness" unit="m" /> 460 <field id="woce" long_name="ocean vertical velocity" standard_name="upward_sea_water_velocity" unit="m/s" /> 504 <field id="woce" long_name="ocean vertical velocity" standard_name="upward_sea_water_velocity" unit="m/s" /> 505 <field id="woce_e3w" long_name="ocean vertical velocity * e3w" unit="m2/s" > woce * e3w </field> 461 506 <field id="wocetr_eff" long_name="effective ocean vertical transport" unit="m3/s" /> 462 507 463 508 <!-- woce_eiv: available with EIV (ln_ldfeiv=T and ln_ldfeiv_dia=T) --> 464 509 <field id="woce_eiv" long_name="EIV ocean vertical velocity" standard_name="bolus_upward_sea_water_velocity" unit="m/s" /> 465 466 <field id="avt" long_name="vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" /> 510 <field id="weiv_masstr" long_name="EIV Upward Ocean Mass Transport" standard_name="bolus_upward_ocean_mass_transport" unit="kg/s" /> 511 <field id="weiv_heattr3d" long_name="ocean bolus heat transport" standard_name="ocean_heat_z_transport_due_to_bolus_advection" unit="W" /> 512 <field id="weiv_salttr3d" long_name="ocean bolus salt transport" standard_name="ocean_salt_z_transport_due_to_bolus_advection" unit="kg" /> 513 514 <field id="avt" long_name="vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" /> 515 <field id="avt_e3w" long_name="vertical heat diffusivity * e3w" unit="m3/s" > avt * e3w </field> 467 516 <field id="logavt" long_name="logarithm of vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" /> 468 517 <field id="avm" long_name="vertical eddy viscosity" standard_name="ocean_vertical_momentum_diffusivity" unit="m2/s" /> 518 <field id="avm_e3w" long_name="vertical eddy viscosity * e3w" unit="m3/s" > avm * e3w </field> 469 519 470 520 <!-- avs: /= avt with ln_zdfddm=T --> 471 521 <field id="avs" long_name="salt vertical eddy diffusivity" standard_name="ocean_vertical_salt_diffusivity" unit="m2/s" /> 472 <field id="logavs" long_name="logarithm of salt vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" /> 522 <field id="avs_e3w" long_name="vertical salt diffusivity * e3w" unit="m3/s" > avs * e3w </field> 523 <field id="logavs" long_name="logarithm of salt vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" /> 473 524 474 525 <!-- avt_evd and avm_evd: available with ln_zdfevd --> 475 526 <field id="avt_evd" long_name="convective enhancement of vertical diffusivity" standard_name="ocean_vertical_tracer_diffusivity_due_to_convection" unit="m2/s" /> 476 <field id="avm_evd" long_name="convective enhancement of vertical viscosity" standard_name="ocean_vertical_momentum_diffusivity_due_to_convection" unit="m2/s" /> 527 <field id="avt_evd_e3w" long_name="convective enhancement to vertical diffusivity * e3w " unit="m3/s" > avt_evd * e3w </field> 528 <field id="avm_evd" long_name="convective enhancement of vertical viscosity" standard_name="ocean_vertical_momentum_diffusivity_due_to_convection" unit="m2/s" /> 477 529 478 530 <!-- avt_tide: available with ln_zdfiwm=T --> … … 489 541 <field id="w_masstr" long_name="vertical mass transport" standard_name="upward_ocean_mass_transport" unit="kg/s" /> 490 542 <field id="w_masstr2" long_name="square of vertical mass transport" standard_name="square_of_upward_ocean_mass_transport" unit="kg2/s2" /> 543 544 <!-- EOS --> 545 <field id="bn2" long_name="squared Brunt-Vaisala frequency" unit="s-2" /> 491 546 492 547 </field_group> … … 505 560 <field id="masstot" long_name="global total mass" standard_name="sea_water_mass" unit="kg" /> 506 561 <field id="temptot" long_name="global mean temperature" standard_name="sea_water_potential_temperature" unit="degC" /> 507 <field id="saltot" long_name="global mean salinity" standard_name="sea_water_salinity" unit="1e-3" /> 508 <field id="fram_trans" long_name="Sea Ice Mass Transport Through Fram Strait" standard_name="sea_ice_transport_across_line" unit="kg/s" /> 562 <field id="saltot" long_name="global mean salinity" standard_name="sea_water_salinity" unit="1e-3" /> 563 <field id="ssttot" long_name="global mean sea surface temperature" standard_name="sea_water_conservative_temperature" unit="degC" /> 564 <!-- EOS = TEOS-10 --> 565 <field id="temptot_pot" long_name="global mean potential temperature" standard_name="sea_water_potential_temperature" unit="degC" /> 509 566 510 567 <!-- available with ln_diahsb --> … … 523 580 <field id="bgmissal" long_name="global mean salinity error due to free surface (linssh true)" unit="1e-3" /> 524 581 </field_group> 582 583 584 <!-- transects --> 585 <field_group id="oce_straits"> 586 <field id="uoce_e3u_ave" long_name="Monthly average of u*e3u" field_ref="uoce_e3u" freq_op="1mo" freq_offset="_reset_" > @uoce_e3u </field> 587 <field id="uoce_e3u_ave_vsum" long_name="Vertical sum of u*e3u" field_ref="uoce_e3u_ave" grid_ref="grid_U_vsum" /> 588 <field id="uocetr_vsum_section" long_name="Total 2D transport in i-direction" field_ref="uoce_e3u_ave_vsum" grid_ref="grid_U_scalar" detect_missing_value="true"> this * e2u </field> 589 <field id="uocetr_strait" long_name="Total transport across lines in i-direction" field_ref="uocetr_vsum_section" grid_ref="grid_U_4strait" /> 590 <field id="u_masstr_strait" long_name="Sea water transport across line in i-direction" field_ref="uocetr_strait" grid_ref="grid_U_4strait_hsum" unit="kg/s"> this * maskMFO_u * $rau0 </field> 591 592 <field id="voce_e3v_ave" long_name="Monthly average of v*e3v" field_ref="voce_e3v" freq_op="1mo" freq_offset="_reset_" > @voce_e3v </field> 593 <field id="voce_e3v_ave_vsum" long_name="Vertical sum of v*e3v" field_ref="voce_e3v_ave" grid_ref="grid_V_vsum" /> 594 <field id="vocetr_vsum_section" long_name="Total 2D transport of in j-direction" field_ref="voce_e3v_ave_vsum" grid_ref="grid_V_scalar" detect_missing_value="true"> this * e1v </field> 595 <field id="vocetr_strait" long_name="Total transport across lines in j-direction" field_ref="vocetr_vsum_section" grid_ref="grid_V_4strait" /> 596 <field id="v_masstr_strait" long_name="Sea water transport across line in j-direction" field_ref="vocetr_strait" grid_ref="grid_V_4strait_hsum" unit="kg/s"> this * maskMFO_v * $rau0 </field> 597 598 <field id="masstr_strait" long_name="Sea water transport across line" grid_ref="grid_4strait" > u_masstr_strait + v_masstr_strait </field> 599 </field_group> 600 525 601 526 602 <!-- variables available with ln_floats --> … … 558 634 <!-- Poleward transport : ptr --> 559 635 <field_group id="diaptr" > 560 <field id="zomsfglo" long_name="Meridional Stream-Function: Global" unit="Sv" grid_ref="gznl_W_3D" /> 561 <field id="zomsfatl" long_name="Meridional Stream-Function: Atlantic" unit="Sv" grid_ref="gznl_W_3D" /> 562 <field id="zomsfpac" long_name="Meridional Stream-Function: Pacific" unit="Sv" grid_ref="gznl_W_3D" /> 563 <field id="zomsfind" long_name="Meridional Stream-Function: Indian" unit="Sv" grid_ref="gznl_W_3D" /> 564 <field id="zomsfipc" long_name="Meridional Stream-Function: Pacific+Indian" unit="Sv" grid_ref="gznl_W_3D" /> 565 <field id="zotemglo" long_name="Zonal Mean Temperature : Global" unit="degree_C" grid_ref="gznl_T_3D" /> 566 <field id="zotematl" long_name="Zonal Mean Temperature : Atlantic" unit="degree_C" grid_ref="gznl_T_3D" /> 567 <field id="zotempac" long_name="Zonal Mean Temperature : Pacific" unit="degree_C" grid_ref="gznl_T_3D" /> 568 <field id="zotemind" long_name="Zonal Mean Temperature : Indian" unit="degree_C" grid_ref="gznl_T_3D" /> 569 <field id="zotemipc" long_name="Zonal Mean Temperature : Pacific+Indian" unit="degree_C" grid_ref="gznl_T_3D" /> 570 <field id="zosalglo" long_name="Zonal Mean Salinity : Global" unit="0.001" grid_ref="gznl_T_3D" /> 571 <field id="zosalatl" long_name="Zonal Mean Salinity : Atlantic" unit="0.001" grid_ref="gznl_T_3D" /> 572 <field id="zosalpac" long_name="Zonal Mean Salinity : Pacific" unit="0.001" grid_ref="gznl_T_3D" /> 573 <field id="zosalind" long_name="Zonal Mean Salinity : Indian" unit="0.001" grid_ref="gznl_T_3D" /> 574 <field id="zosalipc" long_name="Zonal Mean Salinity : Pacific+Indian" unit="0.001" grid_ref="gznl_T_3D" /> 575 <field id="zosrfglo" long_name="Zonal Mean Surface" unit="m2" grid_ref="gznl_T_3D" /> 576 <field id="zosrfatl" long_name="Zonal Mean Surface : Atlantic" unit="m2" grid_ref="gznl_T_3D" /> 577 <field id="zosrfpac" long_name="Zonal Mean Surface : Pacific" unit="m2" grid_ref="gznl_T_3D" /> 578 <field id="zosrfind" long_name="Zonal Mean Surface : Indian" unit="m2" grid_ref="gznl_T_3D" /> 579 <field id="zosrfipc" long_name="Zonal Mean Surface : Pacific+Indian" unit="m2" grid_ref="gznl_T_3D" /> 580 <field id="sophtadv" long_name="Advective Heat Transport" unit="PW" grid_ref="gznl_T_2D" /> 581 <field id="sophtadv_atl" long_name="Advective Heat Transport: Atlantic" unit="PW" grid_ref="gznl_T_2D" /> 582 <field id="sophtadv_pac" long_name="Advective Heat Transport: Pacific" unit="PW" grid_ref="gznl_T_2D" /> 583 <field id="sophtadv_ind" long_name="Advective Heat Transport: Indian" unit="PW" grid_ref="gznl_T_2D" /> 584 <field id="sophtadv_ipc" long_name="Advective Heat Transport: Pacific+Indian" unit="PW" grid_ref="gznl_T_2D" /> 585 <field id="sophtldf" long_name="Diffusive Heat Transport" unit="PW" grid_ref="gznl_T_2D" /> 586 <field id="sophtldf_atl" long_name="Diffusive Heat Transport: Atlantic" unit="PW" grid_ref="gznl_T_2D" /> 587 <field id="sophtldf_pac" long_name="Diffusive Heat Transport: Pacific" unit="PW" grid_ref="gznl_T_2D" /> 588 <field id="sophtldf_ind" long_name="Diffusive Heat Transport: Indian" unit="PW" grid_ref="gznl_T_2D" /> 589 <field id="sophtldf_ipc" long_name="Diffusive Heat Transport: Pacific+Indian" unit="PW" grid_ref="gznl_T_2D" /> 590 <field id="sophtove" long_name="Overturning Heat Transport" unit="PW" grid_ref="gznl_T_2D" /> 591 <field id="sophtove_atl" long_name="Overturning Heat Transport: Atlantic" unit="PW" grid_ref="gznl_T_2D" /> 592 <field id="sophtove_pac" long_name="Overturning Heat Transport: Pacific" unit="PW" grid_ref="gznl_T_2D" /> 593 <field id="sophtove_ind" long_name="Overturning Heat Transport: Indian" unit="PW" grid_ref="gznl_T_2D" /> 594 <field id="sophtove_ipc" long_name="Overturning Heat Transport: Pacific+Indian" unit="PW" grid_ref="gznl_T_2D" /> 595 <field id="sophtbtr" long_name="Barotropic Heat Transport" unit="PW" grid_ref="gznl_T_2D" /> 596 <field id="sophtbtr_atl" long_name="Barotropic Heat Transport: Atlantic" unit="PW" grid_ref="gznl_T_2D" /> 597 <field id="sophtbtr_pac" long_name="Barotropic Heat Transport: Pacific" unit="PW" grid_ref="gznl_T_2D" /> 598 <field id="sophtbtr_ind" long_name="Barotropic Heat Transport: Indian" unit="PW" grid_ref="gznl_T_2D" /> 599 <field id="sophtbtr_ipc" long_name="Barotropic Heat Transport: Pacific+Indian" unit="PW" grid_ref="gznl_T_2D" /> 600 <field id="sophteiv" long_name="Heat Transport from mesoscale eddy advection" unit="PW" grid_ref="gznl_T_2D" /> 601 <field id="sophteiv_atl" long_name="Heat Transport from mesoscale eddy advection: Atlantic" unit="PW" grid_ref="gznl_T_2D" /> 602 <field id="sophteiv_pac" long_name="Heat Transport from mesoscale eddy advection: Pacific" unit="PW" grid_ref="gznl_T_2D" /> 603 <field id="sophteiv_ind" long_name="Heat Transport from mesoscale eddy advection: Indian" unit="PW" grid_ref="gznl_T_2D" /> 604 <field id="sophteiv_ipc" long_name="Heat Transport from mesoscale eddy advection: Pacific+Indian" unit="PW" grid_ref="gznl_T_2D" /> 605 <field id="sopstadv" long_name="Advective Salt Transport" unit="Giga g/s" grid_ref="gznl_T_2D" /> 606 <field id="sopstadv_atl" long_name="Advective Salt Transport: Atlantic" unit="Giga g/s" grid_ref="gznl_T_2D" /> 607 <field id="sopstadv_pac" long_name="Advective Salt Transport: Pacific" unit="Giga g/s" grid_ref="gznl_T_2D" /> 608 <field id="sopstadv_ind" long_name="Advective Salt Transport: Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 609 <field id="sopstadv_ipc" long_name="Advective Salt Transport: Pacific+Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 610 <field id="sopstove" long_name="Overturning Salt Transport" unit="Giga g/s" grid_ref="gznl_T_2D" /> 611 <field id="sopstove_atl" long_name="Overturning Salt Transport: Atlantic" unit="Giga g/s" grid_ref="gznl_T_2D" /> 612 <field id="sopstove_pac" long_name="Overturning Salt Transport: Pacific" unit="Giga g/s" grid_ref="gznl_T_2D" /> 613 <field id="sopstove_ind" long_name="Overturning Salt Transport: Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 614 <field id="sopstove_ipc" long_name="Overturning Salt Transport: Pacific+Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 615 <field id="sopstbtr" long_name="Barotropic Salt Transport" unit="Giga g/s" grid_ref="gznl_T_2D" /> 616 <field id="sopstbtr_atl" long_name="Barotropic Salt Transport: Atlantic" unit="Giga g/s" grid_ref="gznl_T_2D" /> 617 <field id="sopstbtr_pac" long_name="Barotropic Salt Transport: Pacific" unit="Giga g/s" grid_ref="gznl_T_2D" /> 618 <field id="sopstbtr_ind" long_name="Barotropic Salt Transport: Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 619 <field id="sopstbtr_ipc" long_name="Barotropic Salt Transport: Pacific+Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 620 <field id="sopstldf" long_name="Diffusive Salt Transport" unit="Giga g/s" grid_ref="gznl_T_2D" /> 621 <field id="sopstldf_atl" long_name="Diffusive Salt Transport: Atlantic" unit="Giga g/s" grid_ref="gznl_T_2D" /> 622 <field id="sopstldf_pac" long_name="Diffusive Salt Transport: Pacific" unit="Giga g/s" grid_ref="gznl_T_2D" /> 623 <field id="sopstldf_ind" long_name="Diffusive Salt Transport: Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 624 <field id="sopstldf_ipc" long_name="Diffusive Salt Transport: Pacific+Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 625 <field id="sopsteiv" long_name="Salt Transport from mesoscale eddy advection" unit="Giga g/s" grid_ref="gznl_T_2D" /> 626 <field id="sopsteiv_atl" long_name="Salt Transport from mesoscale eddy advection: Atlantic" unit="Giga g/s" grid_ref="gznl_T_2D" /> 627 <field id="sopsteiv_pac" long_name="Salt Transport from mesoscale eddy advection: Pacific" unit="Giga g/s" grid_ref="gznl_T_2D" /> 628 <field id="sopsteiv_ind" long_name="Salt Transport from mesoscale eddy advection: Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 629 <field id="sopsteiv_ipc" long_name="Salt Transport from mesoscale eddy advection: Pacific+Indian" unit="Giga g/s" grid_ref="gznl_T_2D" /> 630 </field_group> 636 <field id="zomsf" long_name="Overturning Stream-Function : All basins" unit="Sv" grid_ref="grid_znl_W_3D" /> 637 <field id="zotem" long_name="Zonal Mean Temperature : All basins" unit="degree_C" grid_ref="grid_znl_T_3D" /> 638 <field id="zosal" long_name="Zonal Mean Salinity : All basins" unit="0.001" grid_ref="grid_znl_T_3D" /> 639 <field id="zosrf" long_name="Zonal Mean Surface : All basins" unit="m2" grid_ref="grid_znl_T_3D" /> 640 <field id="sophtove" long_name="Overturning Heat Transport: All basins" unit="PW" grid_ref="grid_znl_T_2D" /> 641 <field id="sopstove" long_name="Overturning Salt Transport: All basins" unit="Giga g/s" grid_ref="grid_znl_T_2D" /> 642 <field id="sophtbtr" long_name="Barotropic Heat Transport: All basins" unit="PW" grid_ref="grid_znl_T_2D" /> 643 <field id="sopstbtr" long_name="Barotropic Salt Transport: All basins" unit="Giga g/s" grid_ref="grid_znl_T_2D" /> 644 <field id="sophtadv" long_name="Advective Heat Transport: All basins" unit="PW" grid_ref="grid_znl_T_2D" /> 645 <field id="sopstadv" long_name="Advective Salt Transport: All basins" unit="Giga g/s" grid_ref="grid_znl_T_2D" /> 646 <field id="sophtldf" long_name="Diffusive Heat Transport: All basins" unit="PW" grid_ref="grid_znl_T_2D" /> 647 <field id="sopstldf" long_name="Diffusive Salt Transport: All basins" unit="Giga g/s" grid_ref="grid_znl_T_2D" /> 648 <field id="sophtvtr" long_name="Heat Transport : All basins" unit="PW" grid_ref="grid_znl_T_2D" /> 649 <field id="sopstvtr" long_name="Salt Transport : All basins" unit="Giga g/s" grid_ref="grid_znl_T_2D" /> 650 <field id="sophteiv" long_name="Heat Transport from mesoscale eddy advection: All basins" unit="PW" grid_ref="grid_znl_T_2D" /> 651 <field id="sopsteiv" long_name="Salt Transport from mesoscale eddy advection : All basins" unit="Giga g/s" grid_ref="grid_znl_T_2D" /> 652 <field id="sopstadv" long_name="Advective Salt Transport" unit="Giga g/s" grid_ref="grid_znl_T_2D" /> 653 <field id="sophtgyre" long_name="Overturning heat transport due to gyre" field_ref="sophtove" unit="W" grid_ref="grid_znl_T_2D" > sophtvtr - sophtove </field> 654 <field id="sopstgyre" long_name="Overturning salt transport due to gyre" field_ref="sopstove" unit="kg/s" grid_ref="grid_znl_T_2D" > sophtvtr - sopstove </field> 655 </field_group> 656 657 <field_group id="constant_fields" grid_ref="grid_T_2D" operation="once" > 658 <field id="bathy" long_name="Sea floor depth below geoid" standard_name="sea_floor_depth_below_geoid" unit="m"/> 659 <field id="areacello" long_name="Horizontal area of ocean grid cells" standard_name="cell_area" unit="m2" /> 660 <field id="hfgeou" long_name="Upward geothermal heat flux at sea floor" standard_name="upward_geothermal_heat_flux_at_sea_floor" unit="W/m2"/> 661 <field id="basins" long_name="ocean tracer region masks" standard_name="ocean_tracer_region_masks" unit="none" grid_ref="grid_basin" /> 662 </field_group> 663 631 664 632 665 <!-- … … 661 694 <field id="ttrd_totad" long_name="temperature-trend: total advection" standard_name="tendency_of_sea_water_salinity_due_to_advection" unit="degC/s" /> 662 695 <field id="strd_totad" long_name="salinity -trend: total advection" standard_name="tendency_of_sea_water_salinity_due_to_advection" unit="1e-3/s" /> 663 <field id="ttrd_sad" long_name="temperature-trend: surface adv. (linssh true)" 664 <field id="strd_sad" long_name="salinity -trend: surface adv. (linssh true)" 696 <field id="ttrd_sad" long_name="temperature-trend: surface adv. (linssh true)" unit="degC/s" grid_ref="grid_T_2D" /> 697 <field id="strd_sad" long_name="salinity -trend: surface adv. (linssh true)" unit="1e-3/s" grid_ref="grid_T_2D" /> 665 698 <field id="ttrd_ldf" long_name="temperature-trend: lateral diffusion" standard_name="tendency_of_sea_water_temperature_due_to_horizontal_mixing" unit="degC/s" /> 666 699 <field id="strd_ldf" long_name="salinity -trend: lateral diffusion" standard_name="tendency_of_sea_water_salinity_due_to_horizontal_mixing" unit="1e-3/s" /> … … 719 752 <field id="ttrd_npc_e3t" unit="degC/s * m" > ttrd_npc * e3t </field> 720 753 <field id="strd_npc_e3t" unit="1e-3/s * m" > strd_npc * e3t </field> 721 <field id="ttrd_qns_e3t" unit="degC/s * m" > ttrd_qns * e3t _surf</field>722 <field id="strd_cdt_e3t" unit="degC/s * m" > strd_cdt * e3t _surf</field>754 <field id="ttrd_qns_e3t" unit="degC/s * m" > ttrd_qns * e3ts </field> 755 <field id="strd_cdt_e3t" unit="degC/s * m" > strd_cdt * e3ts </field> 723 756 <field id="ttrd_qsr_e3t" unit="degC/s * m" > ttrd_qsr * e3t </field> 724 757 <field id="ttrd_bbc_e3t" unit="degC/s * m" > ttrd_bbc * e3t </field> … … 922 955 <field_group id="groupU" > 923 956 <field field_ref="uoce" name="uo" long_name="sea_water_x_velocity" /> 924 <field field_ref="ssu" name="uos" long_name="sea_surface_x_velocity" />925 957 <field field_ref="utau" name="tauuo" long_name="surface_downward_x_stress" /> 926 958 </field_group> … … 928 960 <field_group id="groupV" > 929 961 <field field_ref="voce" name="vo" long_name="sea_water_y_velocity" /> 930 <field field_ref="ssv" name="vos" long_name="sea_surface_y_velocity" />931 962 <field field_ref="vtau" name="tauvo" long_name="surface_downward_y_stress" /> 932 963 </field_group> … … 934 965 <field_group id="groupW" > 935 966 <field field_ref="woce" name="wo" long_name="ocean vertical velocity" /> 936 </field_group>937 938 <!-- TMB diagnostic output -->939 <field_group id="1h_grid_T_tmb" grid_ref="grid_T_2D" operation="instant">940 <field id="top_temp" name="votemper_top" unit="degC" />941 <field id="mid_temp" name="votemper_mid" unit="degC" />942 <field id="bot_temp" name="votemper_bot" unit="degC" />943 <field id="top_sal" name="vosaline_top" unit="psu" />944 <field id="mid_sal" name="vosaline_mid" unit="psu" />945 <field id="bot_sal" name="vosaline_bot" unit="psu" />946 <field id="sshnmasked" name="sossheig" unit="m" />947 967 </field_group> 948 968 -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/field_def_nemo-pisces.xml
r11536 r13662 230 230 <field id="Kg" long_name="Gas transfer" unit="mol/m2/s/uatm" /> 231 231 <field id="Dpco2" long_name="Delta CO2" unit="uatm" /> 232 <field id="pCO2sea" long_name="surface ocean pCO2" unit="uatm" /> 232 233 <field id="Dpo2" long_name="Delta O2" unit="uatm" /> 233 234 <field id="Heup" long_name="Euphotic layer depth" unit="m" /> 235 <field id="AtmCo2" long_name="Atmospheric CO2 concentration" unit="ppm" /> 234 236 <field id="Irondep" long_name="Iron deposition from dust" unit="mol/m2/s" /> 235 237 <field id="Ironsed" long_name="Iron deposition from sediment" unit="mol/m2/s" grid_ref="grid_T_3D" /> 236 <field id="FESCAV" long_name="Scavenging of Iron" unit="mmol-Fe/m3/s" grid_ref="grid_T_3D" />238 <field id="FESCAV" long_name="Scavenging of Iron" unit="mmol-Fe/m3/s" grid_ref="grid_T_3D" /> 237 239 <field id="FECOLL" long_name="Colloidal Pumping of FeL" unit="mmol-FeL/m3/s" grid_ref="grid_T_3D" /> 238 240 <field id="LGWCOLL" long_name="Coagulation loss of ligands" unit="mmol-L/m3/s" grid_ref="grid_T_3D" /> … … 250 252 <field id="FEZOO2" long_name="mesozooplankton iron recycling rate" unit="nmol-FeL/m3/s" grid_ref="grid_T_3D" /> 251 253 254 <!-- PISCES tracers trends --> 255 <field id="INTdtAlk" long_name="Vertically int. of change of alkalinity" unit="mol/m2/s" /> 256 <field id="INTdtDIC" long_name="Vertically int. of change of dissic " unit="mol/m2/s" /> 257 <field id="INTdtFer" long_name="Vertically int. of change of iron " unit="mol/m2/s" /> 258 <field id="INTdtDIN" long_name="Vertically int. of change of nitrogen " unit="mol/m2/s" /> 259 <field id="INTdtDIP" long_name="Vertically int. of change of phophate " unit="mol/m2/s" /> 260 <field id="INTdtSil" long_name="Vertically int. of change of silicon " unit="mol/m2/s" /> 261 262 263 <!-- dbio_T on T grid : variables available with diaar5 --> 252 264 <!-- dbio_T on T grid : variables available with diaar5 --> 253 265 <field id="TPP" long_name="Total Primary production of phyto" unit="mol/m3/s" grid_ref="grid_T_3D" /> … … 257 269 <field id="O2MIN" long_name="Oxygen minimum concentration" unit="mol/m3" /> 258 270 <field id="ZO2MIN" long_name="Depth of oxygen minimum concentration" unit="m" /> 259 <field id="INTNFIX" long_name="Nitrogen fixation rate : vert. integrated" unit="mol/m2/s" /> 260 <field id="INTPPPHYN" long_name="Vertically integrated primary production by nanophy" unit="mol/m2/s" /> 261 <field id="INTPPPHYD" long_name="Vertically integrated primary production by diatom" unit="mol/m2/s" /> 262 <field id="INTPP" long_name="Vertically integrated primary production by phyto" unit="mol/m2/s" /> 263 <field id="INTPNEW" long_name="Vertically integrated new primary production" unit="mol/m2/s" /> 264 <field id="INTPBFE" long_name="Vertically integrated of biogenic iron production" unit="mol/m2/s" /> 265 <field id="INTPBSI" long_name="Vertically integrated of biogenic Si production" unit="mol/m2/s" /> 266 <field id="INTPCAL" long_name="Vertically integrated of calcite production" unit="mol/m2/s" /> 271 272 <field id="INTNFIX" long_name="Nitrogen fixation rate : vert. integrated" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > Nfix * e3t </field > 273 <field id="INTPPPHYN" long_name="Vertically integrated primary production by nanophy" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PPPHYN * e3t </field > 274 <field id="INTPPPHYD" long_name="Vertically integrated primary production by diatom" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PPPHYD * e3t </field > 275 <field id="INTPPPHYP" long_name="Vertically integrated primary production by picophy" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PPPHYP * e3t </field > 276 <field id="INTPP" long_name="Vertically integrated primary production by phyto" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > TPP * e3t </field > 277 <field id="INTPNEW" long_name="Vertically integrated new primary production" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > TPNEW * e3t </field > 278 <field id="INTPBFE" long_name="Vertically integrated of biogenic iron production" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > TPBFE * e3t </field > 279 <field id="INTPBSI" long_name="Vertically integrated of biogenic Si production" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PBSi * e3t </field > 267 280 268 281 <!-- PISCES light : variables available with key_pisces_reduced --> -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/grid_def_nemo.xml
r11536 r13662 1 1 <!-- 2 ============================================================================================================ 3 = grid definition = = DO NOT CHANGE = 4 ============================================================================================================ 5 --> 6 2 7 <grid_definition> 3 8 4 9 <!-- --> 5 10 <grid id="grid_T_2D" > 6 <domain id="grid_T" />11 <domain domain_ref="grid_T" /> 7 12 </grid> 8 13 <!-- --> 9 14 <grid id="grid_T_ncatice" > 10 <domain id="grid_T" />11 <axis id="ncatice" />15 <domain domain_ref="grid_T" /> 16 <axis axis_ref="ncatice" /> 12 17 </grid> 13 18 <!-- --> 14 19 <grid id="grid_T_3D" > 15 <domain id="grid_T" />16 <axis id="deptht" />20 <domain domain_ref="grid_T" /> 21 <axis axis_ref="deptht" /> 17 22 </grid> 18 23 <!-- --> 19 24 <grid id="grid_T_3DS" > 20 <domain id="grid_T" />21 <axis id="profsed" />25 <domain domain_ref="grid_T" /> 26 <axis axis_ref="profsed" /> 22 27 </grid> 23 28 <!-- --> 24 29 <grid id="grid_U_2D" > 25 <domain id="grid_U" />30 <domain domain_ref="grid_U" /> 26 31 </grid> 27 32 <!-- --> 28 33 <grid id="grid_U_3D" > 29 <domain id="grid_U" />30 <axis id="depthu" />34 <domain domain_ref="grid_U" /> 35 <axis axis_ref="depthu" /> 31 36 </grid> 32 37 <!-- --> 33 38 <grid id="grid_V_2D" > 34 <domain id="grid_V" />39 <domain domain_ref="grid_V" /> 35 40 </grid> 36 41 <!-- --> 37 42 <grid id="grid_V_3D" > 38 <domain id="grid_V" />39 <axis id="depthv" />43 <domain domain_ref="grid_V" /> 44 <axis axis_ref="depthv" /> 40 45 </grid> 41 46 <!-- --> 42 47 <grid id="grid_W_2D" > 43 <domain id="grid_W" />48 <domain domain_ref="grid_W" /> 44 49 </grid> 45 50 <!-- --> 46 51 <grid id="grid_W_3D" > 47 <domain id="grid_W" /> 48 <axis id="depthw" /> 52 <domain domain_ref="grid_W" /> 53 <axis axis_ref="depthw" /> 54 </grid> 55 <!-- --> 56 <grid id="grid_1point" > 57 <domain domain_ref="1point"/> 49 58 </grid> 50 59 <!-- --> 51 60 <grid id="grid_T_nfloat" > 52 <domain id="grid_T" /> 53 <axis id="nfloat" /> 54 </grid> 61 <domain domain_ref="grid_T" /> 62 <axis axis_ref="nfloat" /> 63 </grid> 64 <!-- --> 65 <grid id="grid_EqT" > 66 <domain domain_ref="EqT" /> 67 </grid> 68 <!-- --> 69 70 71 <grid id="grid_znl_T_2D"> 72 <domain domain_ref="gznl" /> 73 <axis axis_ref="basin" /> 74 </grid> 75 76 <grid id="grid_znl_T_3D"> 77 <domain domain_ref="gznl" /> 78 <axis axis_ref="deptht" /> 79 <axis axis_ref="basin" /> 80 </grid> 81 82 <grid id="grid_znl_W_3D"> 83 <domain domain_ref="gznl" /> 84 <axis axis_ref="depthw" /> 85 <axis axis_ref="basin" /> 86 </grid> 87 88 <grid id="grid_ptr_T_2D"> 89 <domain domain_ref="ptr" /> 90 <axis axis_ref="basin" /> 91 </grid> 92 93 <grid id="grid_ptr_T_3D"> 94 <domain domain_ref="ptr" /> 95 <axis axis_ref="deptht" /> 96 <axis axis_ref="basin" /> 97 </grid> 98 99 <grid id="grid_ptr_W_3D"> 100 <domain domain_ref="ptr" /> 101 <axis axis_ref="depthw" /> 102 <axis axis_ref="basin" /> 103 </grid> 104 105 <grid id="grid_ptr_W_GLO"> 106 <domain domain_ref="ptr" /> 107 <axis axis_ref="depthw" /> 108 <scalar> 109 <extract_axis position="0" /> 110 </scalar> 111 </grid> 112 113 <grid id="grid_ptr_W_ATL"> 114 <domain domain_ref="ptr" /> 115 <axis axis_ref="depthw" /> 116 <scalar> 117 <extract_axis position="1" /> 118 </scalar> 119 </grid> 120 121 <grid id="grid_ptr_W_IND"> 122 <domain domain_ref="ptr" /> 123 <axis axis_ref="depthw" /> 124 <scalar> 125 <extract_axis position="2" /> 126 </scalar> 127 </grid> 128 129 <grid id="grid_T_SFC"> 130 <domain domain_ref="grid_T" /> 131 <scalar> 132 <extract_axis position="0" /> 133 </scalar> 134 </grid> 135 136 <grid id="grid_T_vsum"> 137 <domain domain_ref="grid_T"/> 138 <scalar> 139 <reduce_axis operation="sum" /> 140 </scalar> 141 </grid> 142 143 <grid id="grid_U_vsum"> 144 <domain domain_ref="grid_U"/> 145 <scalar> 146 <reduce_axis operation="sum" /> 147 </scalar> 148 </grid> 149 150 <grid id="grid_V_vsum"> 151 <domain domain_ref="grid_V"/> 152 <scalar> 153 <reduce_axis operation="sum" /> 154 </scalar> 155 </grid> 156 157 <!-- for ORCA2 grid --> 158 <grid id="cumul_U"> 159 <axis axis_ref="cumul_U" n_glo="182" > 160 <reduce_domain local="true" operation="sum" direction="jDir" /> 161 <reduce_axis operation="sum" /> 162 </axis> 163 <axis axis_ref="depthu" /> 164 </grid> 165 166 <!-- for eORCA1 grid 167 168 <grid id="cumul_U"> 169 <axis axis_ref="cumul_U" n_glo="362" > 170 <reduce_domain local="true" operation="sum" direction="jDir" /> 171 <reduce_axis operation="sum" /> 172 </axis> 173 <axis axis_ref="depthu" /> 174 </grid> 175 176 --> 177 178 179 <grid id="grid_T_zoom_300"> 180 <domain domain_ref="grid_T" /> 181 <axis axis_ref="deptht300" /> 182 </grid> 183 184 <grid id="grid_U_scalar" > 185 <domain domain_ref="grid_U" /> 186 <scalar/> 187 </grid> 188 189 <grid id="grid_V_scalar" > 190 <domain domain_ref="grid_V" /> 191 <scalar/> 192 </grid> 193 194 <grid id="grid_U_4strait"> 195 <domain domain_ref="grid_U" /> 196 <axis axis_ref="section"> 197 <duplicate_scalar/> 198 </axis> 199 </grid> 200 201 <grid id="grid_V_4strait"> 202 <domain domain_ref="grid_V" /> 203 <axis axis_ref="section"> 204 <duplicate_scalar/> 205 </axis> 206 </grid> 207 208 <grid id="grid_U_4strait_hsum"> 209 <scalar > 210 <reduce_domain operation="sum" local="true"/> 211 <reduce_scalar operation="sum" /> 212 </scalar> 213 <axis axis_ref="section"/> 214 </grid> 215 216 <grid id="grid_V_4strait_hsum"> 217 <scalar > 218 <reduce_domain operation="sum" local="true"/> 219 <reduce_scalar operation="sum" /> 220 </scalar> 221 <axis axis_ref="section"/> 222 </grid> 223 224 <grid id="grid_4strait"> 225 <axis axis_ref="section"/> 226 </grid> 227 228 <grid id="grid_U_4strait_ice"> 229 <domain domain_ref="grid_U" /> 230 <axis axis_ref="section_ice"> 231 <duplicate_scalar/> 232 </axis> 233 </grid> 234 235 <grid id="grid_V_4strait_ice"> 236 <domain domain_ref="grid_V" /> 237 <axis axis_ref="section_ice"> 238 <duplicate_scalar/> 239 </axis> 240 </grid> 241 242 <grid id="grid_U_4strait_ice_hsum"> 243 <scalar > 244 <reduce_domain operation="sum" local="true"/> 245 <reduce_scalar operation="sum" /> 246 </scalar> 247 <axis axis_ref="section_ice"/> 248 </grid> 249 250 <grid id="grid_V_4strait_ice_hsum"> 251 <scalar > 252 <reduce_domain operation="sum" local="true"/> 253 <reduce_scalar operation="sum" /> 254 </scalar> 255 <axis axis_ref="section_ice"/> 256 </grid> 257 258 <grid id="grid_4strait_ice"> 259 <axis axis_ref="section_ice"/> 260 </grid> 261 55 262 <!-- scalars --> 56 263 <grid id="grid_scalar" > 57 264 <scalar/> 58 265 </grid> 59 60 </grid_definition> 61 266 267 </grid_definition> 268 -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/namelist_ice_ref
r11867 r13662 43 43 ln_cat_usr = .false. ! ice categories are defined by rn_catbnd below (m) 44 44 rn_catbnd = 0.,0.45,1.1,2.1,3.7,6.0 45 rn_himin = 0.1 ! minimum ice thickness (m) used in remapping 45 rn_himin = 0.1 ! minimum ice thickness (m) allowed 46 rn_himax = 99.0 ! maximum ice thickness (m) allowed 46 47 / 47 48 !------------------------------------------------------------------------------ … … 56 57 rn_ishlat = 2. ! lbc : free slip (0) ; partial slip (0-2) ; no slip (2) ; strong slip (>2) 57 58 ln_landfast_L16 = .false. ! landfast: parameterization from Lemieux 2016 58 rn_ depfra= 0.125 ! fraction of ocean depth that ice must reach to initiate landfast59 rn_lf_depfra = 0.125 ! fraction of ocean depth that ice must reach to initiate landfast 59 60 ! recommended range: [0.1 ; 0.25] 60 rn_ icebfr = 15. ! maximum bottom stress per unit volume [N/m3]61 rn_lf relax= 1.e-5 ! relaxation time scale to reach static friction [s-1]62 rn_ tensile= 0.05 ! isotropic tensile strength [0-0.5??]61 rn_lf_bfr = 15. ! maximum bottom stress per unit volume [N/m3] 62 rn_lf_relax = 1.e-5 ! relaxation time scale to reach static friction [s-1] 63 rn_lf_tensile = 0.05 ! isotropic tensile strength [0-0.5??] 63 64 / 64 65 !------------------------------------------------------------------------------ … … 91 92 !------------------------------------------------------------------------------ 92 93 ln_rhg_EVP = .true. ! EVP rheology 94 ln_rhg_EAP = .false. ! EAP rheology 93 95 ln_aEVP = .true. ! adaptive rheology (Kimmritz et al. 2016 & 2017) 94 96 rn_creepl = 2.0e-9 ! creep limit [1/s] 95 97 rn_ecc = 2.0 ! eccentricity of the elliptical yield curve 96 nn_nevp = 1 20 ! number of EVP subcycles98 nn_nevp = 100 ! number of EVP subcycles 97 99 rn_relast = 0.333 ! ratio of elastic timescale to ice time step: Telast = dt_ice * rn_relast 98 ! advised value: 1/3 (rn_nevp=120) or 1/9 (rn_nevp=300) 99 ln_rhg_EAP = .false. ! EVP rheology 100 ! advised value: 1/3 (nn_nevp=100) or 1/9 (nn_nevp=300) 101 nn_rhg_chkcvg = 0 ! check convergence of rheology 102 ! = 0 no check 103 ! = 1 check at the main time step (output xml: uice_cvg) 104 ! = 2 check at both main and rheology time steps (additional output: ice_cvg.nc) 105 ! this option 2 asks a lot of communications between cpu 100 106 / 101 107 !------------------------------------------------------------------------------ 102 108 &namdyn_adv ! Ice advection 103 109 !------------------------------------------------------------------------------ 104 ln_adv_Pra = .true. ! Advection scheme (Prather)105 ln_adv_UMx = .false. 110 ln_adv_Pra = .true. ! Advection scheme (Prather) 111 ln_adv_UMx = .false. ! Advection scheme (Ultimate-Macho) 106 112 nn_UMx = 5 ! order of the scheme for UMx (1-5 ; 20=centered 2nd order) 107 113 / … … 110 116 !------------------------------------------------------------------------------ 111 117 rn_cio = 5.0e-03 ! ice-ocean drag coefficient (-) 112 rn_blow_s = 0.66 ! mesure of snow blowing into the leads 118 nn_snwfra = 2 ! calculate the fraction of ice covered by snow (for zdf and albedo) 119 ! = 0 fraction = 1 (if snow) or 0 (if no snow) 120 ! = 1 fraction = 1-exp(-0.2*rhos*hsnw) [MetO formulation] 121 ! = 2 fraction = hsnw / (hsnw+0.02) [CICE formulation] 122 rn_snwblow = 0.66 ! mesure of snow blowing into the leads 113 123 ! = 1 => no snow blowing, < 1 => some snow blowing 114 124 nn_flxdist = -1 ! Redistribute heat flux over ice categories … … 119 129 ln_cndflx = .false. ! Use conduction flux as surface boundary conditions (i.e. for Jules coupling) 120 130 ln_cndemulate = .false. ! emulate conduction flux (if not provided in the inputs) 131 nn_qtrice = 1 ! Solar flux transmitted thru the surface scattering layer: 132 ! = 0 Grenfell and Maykut 1977 (depends on cloudiness and is 0 when there is snow) 133 ! = 1 Lebrun 2019 (equals 0.3 anytime with different melting/dry snw conductivities) 121 134 / 122 135 !------------------------------------------------------------------------------ … … 127 140 ln_icedO = .true. ! activate ice growth in open-water (T) or not (F) 128 141 ln_icedS = .true. ! activate brine drainage (T) or not (F) 142 ! 143 ln_leadhfx = .true. ! heat in the leads is used to melt sea-ice before warming the ocean 129 144 / 130 145 !------------------------------------------------------------------------------ … … 136 151 rn_cnd_s = 0.31 ! thermal conductivity of the snow (0.31 W/m/K, Maykut and Untersteiner, 1971) 137 152 ! Obs: 0.1-0.5 (Lecomte et al, JAMES 2013) 138 rn_kappa_i = 1.0 ! radiation attenuation coefficient in sea ice [1/m] 153 rn_kappa_i = 1.0 ! radiation attenuation coefficient in sea ice [1/m] 154 rn_kappa_s = 10.0 ! nn_qtrice = 0: radiation attenuation coefficient in snow [1/m] 155 rn_kappa_smlt = 7.0 ! nn_qtrice = 1: radiation attenuation coefficient in melting snow [1/m] 156 rn_kappa_sdry = 10.0 ! radiation attenuation coefficient in dry snow [1/m] 157 ln_zdf_chkcvg = .false. ! check convergence of heat diffusion scheme (outputs: tice_cvgerr, tice_cvgstp) 139 158 / 140 159 !------------------------------------------------------------------------------ … … 176 195 &namthd_pnd ! Melt ponds 177 196 !------------------------------------------------------------------------------ 178 ln_pnd = .false. ! activate melt ponds or not 179 ln_pnd_H12 = .false. ! activate evolutive melt ponds (from Holland et al 2012) 180 ln_pnd_CST = .false. ! activate constant melt ponds 181 rn_apnd = 0.2 ! prescribed pond fraction, at Tsu=0 degC 182 rn_hpnd = 0.05 ! prescribed pond depth, at Tsu=0 degC 183 ln_pnd_alb = .false. ! melt ponds affect albedo or not 197 ln_pnd = .true. ! activate melt ponds or not 198 ln_pnd_LEV = .true. ! level ice melt ponds (from Flocco et al 2007,2010 & Holland et al 2012) 199 rn_apnd_min = 0.15 ! minimum ice fraction that contributes to melt pond. range: 0.0 -- 0.15 ?? 200 rn_apnd_max = 0.85 ! maximum ice fraction that contributes to melt pond. range: 0.7 -- 0.85 ?? 201 ln_pnd_CST = .false. ! constant melt ponds 202 rn_apnd = 0.2 ! prescribed pond fraction, at Tsu=0 degC 203 rn_hpnd = 0.05 ! prescribed pond depth, at Tsu=0 degC 204 ln_pnd_lids = .true. ! frozen lids on top of the ponds (only for ln_pnd_LEV) 205 ln_pnd_alb = .true. ! effect of melt ponds on ice albedo 184 206 / 185 207 !------------------------------------------------------------------------------ … … 187 209 !------------------------------------------------------------------------------ 188 210 ln_iceini = .true. ! activate ice initialization (T) or not (F) 189 ln_iceini_file = .false. ! netcdf file provided for initialization (T) or not (F) 211 nn_iceini_file = 0 ! 0 = Initialise sea ice based on SSTs 212 ! 1 = Initialise sea ice from single category netcdf file 213 ! 2 = Initialise sea ice from multi category restart file 190 214 rn_thres_sst = 2.0 ! max temp. above Tfreeze with initial ice = (sst - tfreeze) 191 215 rn_hti_ini_n = 3.0 ! initial ice thickness (m), North … … 207 231 rn_hpd_ini_n = 0.05 ! initial pond depth (m), North 208 232 rn_hpd_ini_s = 0.05 ! " " South 209 ! -- for ln_iceini_file = T 233 rn_hld_ini_n = 0.0 ! initial pond lid depth (m), North 234 rn_hld_ini_s = 0.0 ! " " South 235 ! -- for nn_iceini_file = 1 210 236 sn_hti = 'Ice_initialization' , -12 ,'hti' , .false. , .true., 'yearly' , '' , '', '' 211 237 sn_hts = 'Ice_initialization' , -12 ,'hts' , .false. , .true., 'yearly' , '' , '', '' … … 218 244 sn_apd = 'NOT USED' , -12 ,'apd' , .false. , .true., 'yearly' , '' , '', '' 219 245 sn_hpd = 'NOT USED' , -12 ,'hpd' , .false. , .true., 'yearly' , '' , '', '' 246 sn_hld = 'NOT USED' , -12 ,'hld' , .false. , .true., 'yearly' , '' , '', '' 220 247 cn_dir='./' 221 248 / … … 239 266 ln_icediahsb = .false. ! output the heat, mass & salt budgets (T) or not (F) 240 267 ln_icectl = .false. ! ice points output for debug (T or F) 241 iiceprt = 10 !i-index for debug242 jiceprt = 10 !j-index for debug243 / 268 iiceprt = 10 ! i-index for debug 269 jiceprt = 10 ! j-index for debug 270 / -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/namelist_pisces_ref
r11536 r13662 197 197 mpratn = 0.01 ! nanophytoplankton mortality rate 198 198 mpratp = 0.01 ! picophytoplankton mortality rate 199 mprat 2= 0.01 ! Diatoms mortality rate199 mpratd = 0.01 ! Diatoms mortality rate 200 200 / 201 201 !----------------------------------------------------------------------- … … 230 230 resrat2 = 0.005 ! exsudation rate of mesozooplankton 231 231 mzrat2 = 0.02 ! mesozooplankton mortality rate 232 xpref2d = 1. ! zoo preference for phyto233 xpref2 p = 1. ! zoo preference for POC232 xpref2d = 1. ! zoo preference for Diatoms 233 xpref2n = 1. ! zoo preference for nanophyto 234 234 xpref2z = 1. ! zoo preference for zoo 235 xpref2m = 0.2 ! meso preference forzoo236 xpref2c = 0.3 ! zoo preference for poc235 xpref2m = 0.2 ! zoo preference for mesozoo 236 xpref2c = 0.3 ! zoo preference for POC 237 237 xthresh2zoo = 1E-8 ! zoo feeding threshold for mesozooplankton 238 238 xthresh2dia = 1E-8 ! diatoms feeding threshold for mesozooplankton -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/namelist_ref
r11814 r13662 281 281 sn_snow = 'ncar_precip.15JUNE2009_fill', -1. , 'SNOW' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , '' 282 282 sn_slp = 'slp.15JUNE2009_fill' , 6. , 'SLP' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , '' 283 sn_tdif = 'taudif_core' , 24 , 'taudif' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , '' 283 sn_cc = 'NOT USED' , 24. , 'CC' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , '' 284 sn_tdif = 'taudif_core' , 24. , 'taudif' , .false. , .true. , 'yearly' , 'weights_core_orca2_bilinear_noc.nc' , '' , '' 284 285 / 285 286 !----------------------------------------------------------------------- 286 287 &namsbc_cpl ! coupled ocean/atmosphere model ("key_oasis3") 287 288 !----------------------------------------------------------------------- 288 nn_cplmodel = 1 ! Maximum number of models to/from which NEMO is potentially sending/receiving data 289 ln_usecplmask = .false. ! use a coupling mask file to merge data received from several models 290 ! ! -> file cplmask.nc with the float variable called cplmask (jpi,jpj,nn_cplmodel) 291 nn_cats_cpl = 5 ! Number of sea ice categories over which coupling is to be carried out (if not 1) 289 nn_cplmodel = 1 ! Maximum number of models to/from which NEMO is potentially sending/receiving data 290 ln_usecplmask = .false. ! use a coupling mask file to merge data received from several models 291 ! ! -> file cplmask.nc with the float variable called cplmask (jpi,jpj,nn_cplmodel) 292 ln_scale_ice_flux = .false. ! use ice fluxes that are already "ice weighted" ( i.e. multiplied ice concentration) 293 nn_cats_cpl = 5 ! Number of sea ice categories over which coupling is to be carried out (if not 1) 292 294 !_____________!__________________________!____________!_____________!______________________!________! 293 295 ! ! description ! multiple ! vector ! vector ! vector ! … … 392 394 ln_sssr_bnd = .true. ! flag to bound erp term (associated with nn_sssr=2) 393 395 rn_sssr_bnd = 4.e0 ! ABS(Max/Min) value of the damping erp term [mm/day] 394 396 nn_sssr_ice = 1 ! control of sea surface restoring under sea-ice 397 ! 0 = no restoration under ice : * (1-icefrac) 398 ! 1 = restoration everywhere 399 ! >1 = enhanced restoration under ice : 1+(nn_icedmp-1)*icefrac 395 400 cn_dir = './' ! root directory for the SST/SSS data location 396 401 !___________!_________________________!___________________!___________!_____________!________!___________!__________________!__________!_______________! … … 414 419 rn_dep_max = 150. ! depth over which runoffs is spread ( ln_rnf_depth_ini = .true ) 415 420 nn_rnf_depth_file = 0 ! create (=1) a runoff depth file or not (=0) 421 ln_rnf_icb = .false. ! read in iceberg flux from a file (fill sn_i_rnf if .true.) 416 422 417 423 cn_dir = './' ! root directory for the runoff data location … … 424 430 sn_t_rnf = 'runoffs' , 24. , 'rotemper', .true. , .true. , 'yearly' , '' , '' , '' 425 431 sn_dep_rnf = 'runoffs' , 0. , 'rodepth' , .false. , .true. , 'yearly' , '' , '' , '' 432 sn_i_rnf = 'NOT_USED' , -1. , 'sorunoff', .true. , .true. , 'yearly' , '' , '' , '' 426 433 / 427 434 !----------------------------------------------------------------------- … … 640 647 bn_aip = 'NOT USED' , 24. , 'siapnd' , .true. , .false., 'daily' , '' , '' , '' 641 648 bn_hip = 'NOT USED' , 24. , 'sihpnd' , .true. , .false., 'daily' , '' , '' , '' 649 bn_hil = 'NOT USED' , 24. , 'sihlid' , .true. , .false., 'daily' , '' , '' , '' 642 650 ! if bn_t_i etc are "not used", then define arbitrary temperatures and salinity and ponds 643 651 rn_ice_tem = 270. ! arbitrary temperature of incoming sea ice … … 646 654 rn_ice_apnd = 0.2 ! -- pond fraction = a_ip/a_i -- 647 655 rn_ice_hpnd = 0.05 ! -- pond depth -- 656 rn_ice_hlid = 0.0 ! -- pond lid depth -- 648 657 / 649 658 !----------------------------------------------------------------------- … … 659 668 !! !! 660 669 !! namdrg top/bottom drag coefficient (default: NO selection) 661 !! namdrg_top top friction (ln_ OFF=F & ln_isfcav=T)662 !! namdrg_bot bottom friction (ln_ OFF=F)670 !! namdrg_top top friction (ln_drg_OFF=F & ln_isfcav=T) 671 !! namdrg_bot bottom friction (ln_drg_OFF=F) 663 672 !! nambbc bottom temperature boundary condition (default: OFF) 664 673 !! nambbl bottom boundary layer scheme (default: OFF) … … 668 677 &namdrg ! top/bottom drag coefficient (default: NO selection) 669 678 !----------------------------------------------------------------------- 670 ln_ OFF= .false. ! free-slip : Cd = 0 (F => fill namdrg_bot679 ln_drg_OFF = .false. ! free-slip : Cd = 0 (F => fill namdrg_bot 671 680 ln_lin = .false. ! linear drag: Cd = Cd0 Uc0 & namdrg_top) 672 681 ln_non_lin = .false. ! non-linear drag: Cd = Cd0 |U| … … 674 683 ! 675 684 ln_drgimp = .true. ! implicit top/bottom friction flag 676 / 677 !----------------------------------------------------------------------- 678 &namdrg_top ! TOP friction (ln_OFF =F & ln_isfcav=T) 685 ln_drgice_imp = .false. ! implicit ice-ocean drag 686 / 687 !----------------------------------------------------------------------- 688 &namdrg_top ! TOP friction (ln_drg_OFF =F & ln_isfcav=T) 679 689 !----------------------------------------------------------------------- 680 690 rn_Cd0 = 1.e-3 ! drag coefficient [-] … … 687 697 / 688 698 !----------------------------------------------------------------------- 689 &namdrg_bot ! BOTTOM friction (ln_ OFF =F)699 &namdrg_bot ! BOTTOM friction (ln_drg_OFF =F) 690 700 !----------------------------------------------------------------------- 691 701 rn_Cd0 = 1.e-3 ! drag coefficient [-] … … 1044 1054 rn_bshear = 1.e-20 ! background shear (>0) currently a numerical threshold (do not change it) 1045 1055 nn_pdl = 1 ! Prandtl number function of richarson number (=1, avt=pdl(Ri)*avm) or not (=0, avt=avm) 1046 nn_mxl = 2! mixing length: = 0 bounded by the distance to surface and bottom1056 nn_mxl = 3 ! mixing length: = 0 bounded by the distance to surface and bottom 1047 1057 ! ! = 1 bounded by the local vertical scale factor 1048 1058 ! ! = 2 first vertical derivative of mixing length bounded by 1 1049 1059 ! ! = 3 as =2 with distinct dissipative an mixing length scale 1050 1060 ln_mxl0 = .true. ! surface mixing length scale = F(wind stress) (T) or not (F) 1061 nn_mxlice = 2 ! type of scaling under sea-ice 1062 ! = 0 no scaling under sea-ice 1063 ! = 1 scaling with constant sea-ice thickness 1064 ! = 2 scaling with mean sea-ice thickness ( only with SI3 sea-ice model ) 1065 ! = 3 scaling with maximum sea-ice thickness 1066 rn_mxlice = 10. ! max constant ice thickness value when scaling under sea-ice ( nn_mxlice=1) 1051 1067 rn_mxl0 = 0.04 ! surface buoyancy lenght scale minimum value 1052 ln_drg = .false. ! top/bottom friction added as boundary condition of TKE1053 1068 ln_lc = .true. ! Langmuir cell parameterisation (Axell 2002) 1054 1069 rn_lc = 0.15 ! coef. associated to Langmuir cells … … 1061 1076 ! = 0 constant 10 m length scale 1062 1077 ! = 1 0.5m at the equator to 30m poleward of 40 degrees 1063 rn_eice = 4 ! below sea ice: =0 ON ; =4 OFF when ice fraction > 1/4 1078 nn_eice = 1 ! attenutaion of langmuir & surface wave breaking under ice 1079 ! ! = 0 no impact of ice cover on langmuir & surface wave breaking 1080 ! ! = 1 weigthed by 1-TANH(10*fr_i) 1081 ! ! = 2 weighted by 1-fr_i 1082 ! ! = 3 weighted by 1-MIN(1,4*fr_i) 1064 1083 / 1065 1084 !----------------------------------------------------------------------- … … 1074 1093 rn_charn = 70000. ! Charnock constant for wb induced roughness length 1075 1094 rn_hsro = 0.02 ! Minimum surface roughness 1095 rn_hsri = 0.03 ! Ice-ocean roughness 1076 1096 rn_frac_hs = 1.3 ! Fraction of wave height as roughness (if nn_z0_met>1) 1077 1097 nn_z0_met = 2 ! Method for surface roughness computation (0/1/2/3) 1078 ! ! =3 requires ln_wave=T 1098 ! ! = 3 requires ln_wave=T 1099 nn_z0_ice = 1 ! attenutaion of surface wave breaking under ice 1100 ! ! = 0 no impact of ice cover 1101 ! ! = 1 roughness uses rn_hsri and is weigthed by 1-TANH(10*fr_i) 1102 ! ! = 2 roughness uses rn_hsri and is weighted by 1-fr_i 1103 ! ! = 3 roughness uses rn_hsri and is weighted by 1-MIN(1,4*fr_i) 1079 1104 nn_bc_surf = 1 ! surface condition (0/1=Dir/Neum) 1080 1105 nn_bc_bot = 1 ! bottom condition (0/1=Dir/Neum) … … 1120 1145 !! nam_diaharm Harmonic analysis of tidal constituents (default: OFF) 1121 1146 !! nam_diadct transports through some sections (default: OFF) 1122 !! nam_diatmb Top Middle Bottom Output (default: OFF)1123 1147 !! nam_dia25h 25h Mean Output (default: OFF) 1124 1148 !! namnc4 netcdf4 chunking and compression settings ("key_netcdf4") … … 1196 1220 ! ! -1 : debug all section 1197 1221 ! ! 0 < n : debug section number n 1198 /1199 !-----------------------------------------------------------------------1200 &nam_diatmb ! Top Middle Bottom Output (default: OFF)1201 !-----------------------------------------------------------------------1202 ln_diatmb = .false. ! Choose Top Middle and Bottom output or not1203 1222 / 1204 1223 !----------------------------------------------------------------------- -
NEMO/branches/2019/dev_r11842_SI3-10_EAP/cfgs/SHARED/namelist_top_ref
r11536 r13662 122 122 nn_ctls_trc = 0 ! control surface type in mixed-layer trends (0,1 or n<jpk) 123 123 rn_ucf_trc = 1 ! unit conversion factor (=1 -> /seconds ; =86400. -> /day) 124 ln_trdmld_trc_restart = .false. ! restart for ML diagnostics 125 ln_trdmld_trc_instant = .true. ! flag to diagnose trends of instantantaneous or mean ML T/S 124 ln_trdmxl_trc_restart = .false. ! restart for ML diagnostics 125 ln_trdmxl_trc_instant = .true. ! flag to diagnose trends of instantantaneous or mean ML T/S 126 cn_trdrst_trc_in = 'restart_trd' ! suffix of pass. tracer trends restart name (input) 127 cn_trdrst_trc_out = 'restart_trd' ! suffix of pass. tracer trends restart name (output) 126 128 ln_trdtrc( 1) = .true. 127 129 ln_trdtrc( 2) = .true.
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