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switch to cesm-style field names
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* two fields remain unresolved, sea_level and mass_overlying_ice
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DeniseWorthen committed Sep 14, 2023
1 parent be40a41 commit abb0ad2
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158 changes: 81 additions & 77 deletions config_src/drivers/nuopc_cap/mom_cap.F90
Original file line number Diff line number Diff line change
Expand Up @@ -724,40 +724,37 @@ subroutine InitializeAdvertise(gcomp, importState, exportState, clock, rc)
call fld_list_add(fldsFrOcn_num, fldsFrOcn, trim(scalar_field_name), "will_provide")
endif


!--------- import fields -------------
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_salt_rate" , "will provide") ! from ice
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_zonal_moment_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_merid_moment_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_sensi_heat_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_evap_rate" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_net_lw_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_net_sw_vis_dir_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_net_sw_vis_dif_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_net_sw_ir_dir_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_net_sw_ir_dif_flx" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_prec_rate" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_fprec_rate" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "inst_pres_height_surface" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_rofl" , "will provide") !-> liquid runoff
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_rofi" , "will provide") !-> ice runoff
call fld_list_add(fldsToOcn_num, fldsToOcn, "Si_ifrac" , "will provide") !-> ice fraction
call fld_list_add(fldsToOcn_num, fldsToOcn, "So_duu10n" , "will provide") !-> wind^2 at 10m
call fld_list_add(fldsToOcn_num, fldsToOcn, "mean_fresh_water_to_ocean_rate", "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "net_heat_flx_to_ocn" , "will provide")

if (cesm_coupled) then
call fld_list_add(fldsToOcn_num, fldsToOcn, "heat_content_lprec", "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "heat_content_fprec", "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "heat_content_evap" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "heat_content_cond" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "heat_content_rofl" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "heat_content_rofi" , "will provide")
endif
call fld_list_add(fldsToOcn_num, fldsToOcn, "Fioi_salt" , "will provide") ! from ice
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_taux" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_tauy" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_sen" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_evap" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_lwnet" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_swnet_vdr" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_swnet_vdf" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_swnet_idr" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_swnet_idf" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Faxa_rain" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Faxa_snow" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Sa_pslv" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_rofl" , "will provide") !-> liquid runoff
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_rofi" , "will provide") !-> ice runoff
call fld_list_add(fldsToOcn_num, fldsToOcn, "Si_ifrac" , "will provide") !-> ice fraction
call fld_list_add(fldsToOcn_num, fldsToOcn, "So_duu10n" , "will provide") !-> wind^2 at 10m
call fld_list_add(fldsToOcn_num, fldsToOcn, "Fioi_meltw" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Fioi_melth" , "will provide")

call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_hrain" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_hsnow" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_hevap" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_hcond" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_hrofl" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Foxx_hrofi" , "will provide")

if (use_waves) then
if (wave_method == "EFACTOR") then
call fld_list_add(fldsToOcn_num, fldsToOcn, "Sw_lamult" , "will provide")
call fld_list_add(fldsToOcn_num, fldsToOcn, "Sw_lamult" , "will provide")
else if (wave_method == "SURFACE_BANDS") then
call fld_list_add(fldsToOcn_num, fldsToOcn, "Sw_pstokes_x", "will provide", &
ungridded_lbound=1, ungridded_ubound=Ice_ocean_boundary%num_stk_bands)
Expand All @@ -769,15 +766,15 @@ subroutine InitializeAdvertise(gcomp, importState, exportState, clock, rc)
endif

!--------- export fields -------------
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "ocean_mask" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "sea_surface_temperature" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "s_surf" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "ocn_current_zonal" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "ocn_current_merid" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "sea_surface_slope_zonal" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "sea_surface_slope_merid" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "freezing_melting_potential" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_bldepth" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_omask" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_t" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_s" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_u" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_v" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_dhdx" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_dhdy" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "Fioo_q" , "will provide")
call fld_list_add(fldsFrOcn_num, fldsFrOcn, "So_bldepth" , "will provide")

do n = 1,fldsToOcn_num
call NUOPC_Advertise(importState, standardName=fldsToOcn(n)%stdname, name=fldsToOcn(n)%shortname, rc=rc)
Expand Down Expand Up @@ -1627,7 +1624,7 @@ subroutine ModelAdvance(gcomp, rc)
! Import data
!---------------

call mom_import(ocean_public, ocean_grid, importState, ice_ocean_boundary, cesm_coupled, rc=rc)
call mom_import(ocean_public, ocean_grid, importState, ice_ocean_boundary, rc=rc)
if (ChkErr(rc,__LINE__,u_FILE_u)) return

!---------------
Expand Down Expand Up @@ -2433,7 +2430,7 @@ end subroutine shr_log_setLogUnit
!! <th>Description</td>
!! <th>Notes</td>
!! <tr>
!! <td>inst_pres_height_surface</td>
!! <td>Sa_pslv</td>
!! <td>Pa</td>
!! <td>p</td>
!! <td>pressure of overlying sea ice and atmosphere</td>
Expand All @@ -2447,14 +2444,14 @@ end subroutine shr_log_setLogUnit
!! <td></td>
!! </tr>
!! <tr>
!! <td>seaice_melt_heat</td>
!! <td>Fioi_melth</td>
!! <td>W m-2</td>
!! <td>seaice_melt_heat</td>
!! <td>sea ice and snow melt heat flux</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>seaice_melt</td>
!! <td>Fioi_meltw</td>
!! <td>kg m-2 s-1</td>
!! <td>seaice_melt</td>
!! <td>water flux due to sea ice and snow melting</td>
Expand All @@ -2468,138 +2465,145 @@ end subroutine shr_log_setLogUnit
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_evap_rate</td>
!! <td>Foxx_evap</td>
!! <td>kg m-2 s-1</td>
!! <td>q_flux</td>
!! <td>specific humidity flux</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_fprec_rate</td>
!! <td>Faxa_snow</td>
!! <td>kg m-2 s-1</td>
!! <td>fprec</td>
!! <td>mass flux of frozen precip</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_merid_moment_flx</td>
!! <td>Pa</td>
!! <td>v_flux</td>
!! <td>j-directed wind stress into ocean</td>
!! <td>[vector rotation] (@ref VectorRotations) applied - lat-lon to tripolar</td>
!! </tr>
!! <tr>
!! <td>mean_net_lw_flx</td>
!! <td>Foxx_lwnet</td>
!! <td>W m-2</td>
!! <td>lw_flux</td>
!! <td>long wave radiation</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_net_sw_ir_dif_flx</td>
!! <td>Foxx_swnet_idf</td>
!! <td>W m-2</td>
!! <td>sw_flux_nir_dif</td>
!! <td>diffuse near IR shortwave radiation</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_net_sw_ir_dir_flx</td>
!! <td>Foxx_swnet_idr</td>
!! <td>W m-2</td>
!! <td>sw_flux_nir_dir</td>
!! <td>direct near IR shortwave radiation</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_net_sw_vis_dif_flx</td>
!! <td>Foxx_swnet_vdf</td>
!! <td>W m-2</td>
!! <td>sw_flux_vis_dif</td>
!! <td>diffuse visible shortware radiation</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_net_sw_vis_dir_flx</td>
!! <td>Foxx_swnet_idr</td>
!! <td>W m-2</td>
!! <td>sw_flux_vis_dir</td>
!! <td>direct visible shortware radiation</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_prec_rate</td>
!! <td>Faxa_rain</td>
!! <td>kg m-2 s-1</td>
!! <td>lprec</td>
!! <td>mass flux of liquid precip</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>heat_content_lprec</td>
!! <td>Foxx_hrain</td>
!! <td>W m-2</td>
!! <td>hrain</td>
!! <td>heat content (enthalpy) of liquid water entering the ocean</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>heat_content_fprec</td>
!! <td>Foxx_hsnow</td>
!! <td>W m-2</td>
!! <td>hsnow</td>
!! <td>heat content (enthalpy) of frozen water entering the ocean</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>heat_content_evap</td>
!! <td>Foxx_hevap</td>
!! <td>W m-2</td>
!! <td>hevap</td>
!! <td>heat content (enthalpy) of water leaving the ocean</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>heat_content_cond</td>
!! <td>Foxx_hcond</td>
!! <td>W m-2</td>
!! <td>hcond</td>
!! <td>heat content (enthalpy) of liquid water entering the ocean due to condensation</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>heat_content_rofl</td>
!! <td>Foxx_hrofl</td>
!! <td>W m-2</td>
!! <td>hrofl</td>
!! <td>heat content (enthalpy) of liquid runoff</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>heat_content_rofi</td>
!! <td>Foxx_hrofi</td>
!! <td>W m-2</td>
!! <td>hrofi</td>
!! <td>heat content (enthalpy) of frozen runoff</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_runoff_rate</td>
!! <td>Foxx_rofl</td>
!! <td>kg m-2 s-1</td>
!! <td>runoff</td>
!! <td>mass flux of liquid runoff</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_salt_rate</td>
!! <td>Foxx_rofi</td>
!! <td>kg m-2 s-1</td>
!! <td>runoff</td>
!! <td>mass flux of frozen runoff</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>Fioi_salt</td>
!! <td>kg m-2 s-1</td>
!! <td>salt_flux</td>
!! <td>salt flux</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_sensi_heat_flx</td>
!! <td>Foxx_sen</td>
!! <td>W m-2</td>
!! <td>t_flux</td>
!! <td>sensible heat flux into ocean</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>mean_zonal_moment_flx</td>
!! <td>Foxx_taux</td>
!! <td>Pa</td>
!! <td>u_flux</td>
!! <td>i-directed wind stress into ocean</td>
!! <td>[vector rotation] (@ref VectorRotations) applied - lat-lon to tripolar</td>
!! </tr>
!! <tr>
!! <td>Foxx_tauy</td>
!! <td>Pa</td>
!! <td>v_flux</td>
!! <td>j-directed wind stress into ocean</td>
!! <td>[vector rotation] (@ref VectorRotations) applied - lat-lon to tripolar</td>
!! </tr>
!! </table>
!!
!! @subsection ExportField Export Fields
Expand All @@ -2616,63 +2620,63 @@ end subroutine shr_log_setLogUnit
!! <th>Notes</th>
!! </tr>
!! <tr>
!! <td>freezing_melting_potential</td>
!! <td>Fioo_q</td>
!! <td>W m-2</td>
!! <td>combination of frazil and melt_potential</td>
!! <td>cap converts model units (J m-2) to (W m-2) for export</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>ocean_mask</td>
!! <td>So_omask</td>
!! <td></td>
!! <td></td>
!! <td>ocean mask</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>ocn_current_merid</td>
!! <td>So_v</td>
!! <td>m s-1</td>
!! <td>v_surf</td>
!! <td>j-directed surface velocity on u-cell</td>
!! <td>[vector rotation] (@ref VectorRotations) applied - tripolar to lat-lon</td>
!! </tr>
!! <tr>
!! <td>ocn_current_zonal</td>
!! <td>So_u</td>
!! <td>m s-1</td>
!! <td>u_surf</td>
!! <td>i-directed surface velocity on u-cell</td>
!! <td>[vector rotation] (@ref VectorRotations) applied - tripolar to lat-lon</td>
!! </tr>
!! <tr>
!! <td>s_surf</td>
!! <td>So_s</td>
!! <td>psu</td>
!! <td>s_surf</td>
!! <td>sea surface salinity on t-cell</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>sea_surface_temperature</td>
!! <td>So_t</td>
!! <td>K</td>
!! <td>t_surf</td>
!! <td>sea surface temperature on t-cell</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>sea_surface_slope_zonal</td>
!! <td>So_dhdx</td>
!! <td>unitless</td>
!! <td>created from ssh</td>
!! <td>sea surface zonal slope</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>sea_surface_slope_merid</td>
!! <td>So_dhy</td>
!! <td>unitless</td>
!! <td>created from ssh</td>
!! <td>sea surface meridional slope</td>
!! <td></td>
!! </tr>
!! <tr>
!! <td>so_bldepth</td>
!! <td>So_bldepth</td>
!! <td>m</td>
!! <td>obld</td>
!! <td>ocean surface boundary layer depth</td>
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