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Changeset 5679

Timestamp:

04/14/21 17:06:56 (3 years ago)

Author:

cetlod

Message:

CM65 : change grid file to include reduction of scale factors in the straits. This was done in NEMOv3.6 within the code

Location:

CONFIG/UNIFORM/v6/IPSLCM6.5

Files:

: 3 edited

EXPERIMENTS/IPSLCM/piControl_TEST/COMP/opa9.card (modified) (1 diff)
GENERAL/POST/monitoring01_opa9_ORCA1.cfg (modified) (1 diff)
GENERAL/POST/monitoring01_si3_ORCA1.cfg (modified) (1 diff)

Legend:

: Unmodified
: Added
: Removed

CONFIG/UNIFORM/v6/IPSLCM6.5/EXPERIMENTS/IPSLCM/piControl_TEST/COMP/opa9.card

r5119	r5679
15	15	ListNonDel= (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/OPA/${ORCAGRID}_coordinates.nc, coordinates.nc), \
16	16	(${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/OPA/${ORCAGRID}_coordinates_xios.nc, coordinates_xios.nc ), \
17		(${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/OPA/${ORCAGRID}_CM6_domain_cfg.nc, domain_cfg.nc ), \
	17	(${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/OPA/${ORCAGRID}_CM6_ModifStraits_domain_cfg.nc, domain_cfg.nc ), \
18	18	(${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/OPA/${ORCAGRID}_maskMFO.nc, maskMFO.nc ), \
19	19	(${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/OPA/${ORCAGRID}_resto.nc, resto.nc ), \

CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_opa9_ORCA1.cfg

-                      r5109
+                      r5679
 #  field | files patterns | files additionnal | operations | title | units | calcul of area
 #-----------------------------------------------------------------------------------------------------------------
  sosstsst_global_prio | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"                                         | "Sea Surface Temperature (GLOBAL)" | "degC"  | "mask[k=1,d=2]*area[d=2]"
  sosaline_global  | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"                                         | "Sea Surface Salinity (GLOBAL)"    | "PSU"   | "mask[k=1,d=2]*area[d=2]"
  sossheig_global  | "zos"      | eORCA1.2_grid.nc | "(zos[d=1])"                                         | "Sea Surface Heigh (GLOBAL)"       | "m"     | "mask[k=1,d=2]*area[d=2]"
  sohefldo_global  | "nshfls rsntds" | eORCA1.2_grid.nc | "(nshfls[d=1]+rsntds[d=2])"                     | "Net Downward Heat Flux (GLOBAL)"  | "W/m^2" | "mask[k=1,d=3]*area[d=3]"
  somxl010_north   | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (NORTH)"      | "m"     | "(if lat[d=2] gt 0 then mask[k=1,d=2]*area[d=2])"
  somxl010_south   | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (SOUTH)"      | "m"     | "(if lat[d=2] lt 0 then mask[k=1,d=2]*area[d=2])"
  somxl010_SubpolarNorthAtl   | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1,i=262:300,j=260:281])"       | "Mixed layer depth (Subpolar North Atlantic, annual Max)" | "m"     | "mask[k=1,d=2,i=262:300,j=260:281]*area[d=2,i=262:300,j=260:281]" | "@SMX:12"
  somxl010_Labrador   | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1,i=228:248,j=265:288])"               | "Mixed layer depth (Labrador Sea, Annual Max)"            | "m"     | "mask[k=1,d=2,i=228:248,j=265:288]*area[d=2,i=228:248,j=265:288]" | "@SMX:12"
  somxl010_Barents    | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1,i=272:295,j=313:330])"               | "Mixed layer depth (Barents Sea, Annual Max)"             | "m"     | "mask[k=1,d=2,i=272:295,j=313:330]*area[d=2,i=272:295,j=313:330]" | "@SMX:12"
  somxl010_Irminger   | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1,i=248:268,j=272:285])"               | "Mixed layer depth (Irminger Sea, Annual Max)"            | "m"     | "mask[k=1,d=2,i=248:268,j=272:285]*area[d=2,i=248:268,j=272:285]" | "@SMX:12"
  somxl010_NordicSeas | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1,i=262:300,j=284:313])"               | "Mixed layer depth (Nordic Seas, Annual Max)"             | "m"     | "mask[k=1,d=2,i=262:300,j=284:313]*area[d=2,i=262:300,j=284:313]" | "@SMX:12"
  somxl010_Rockall    | "mldr10_1" | eORCA1.2_grid.nc | "(mldr10_1[d=1,i=262:300,j=284:313])"               | "Mixed layer depth (Rockall, Annual Max)"                 | "m"     | "mask[k=1,d=2,i=262:300,j=284:313]*area[d=2,i=262:300,j=284:313]" | "@SMX:12"
  friver_global    | "friver"   | eORCA1.2_grid.nc | "(friver[d=1])"                                      | "River input" | "kg/s"  | "mask[k=1,d=2]*area[d=2]"
  friver_int       | "friver"   | eORCA1.2_grid.nc | "(friver[d=1]*mask[k=1,d=2]*area[d=2]*1E-9)"                                                                                        | "River input"             | "Sv"  | "2"
  friver_coastal   | "friver"   | eORCA1.2_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) ne missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Coastal river input"     | "Sv"  | "2"
  friver_noncoastal| "friver"   | eORCA1.2_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) eq missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Non coastal river input" | "Sv"  | "2"
  friver_background| "friver"   | eORCA1.2_grid.nc | "(mask[k=1,d=2]*area[d=2]*friver[d=1,i=140,j=190]*1E-9)"                                                                            | "Runoff correction (conservation)" | "Sv"  | "2"
  sosstsst_70N_90N | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (70N-90N)" | "degC"  | "(if lat[d=2] ge  70                     then mask[k=1,d=2]*area[d=2])"
  sosstsst_50N_70N | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (50N-70N)" | "degC"  | "(if lat[d=2] ge  50 and lat[d=2] le  70 then mask[k=1,d=2]*area[d=2])"
  sosstsst_30N_50N | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (30N-50N)" | "degC"  | "(if lat[d=2] ge  30 and lat[d=2] le  50 then mask[k=1,d=2]*area[d=2])"
  sosstsst_10N_30N | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (10N-30N)" | "degC"  | "(if lat[d=2] ge  10 and lat[d=2] le  30 then mask[k=1,d=2]*area[d=2])"
  sosstsst_10S_10N | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (10S-10N)" | "degC"  | "(if lat[d=2] ge -10 and lat[d=2] le  10 then mask[k=1,d=2]*area[d=2])"
  sosstsst_30S_10S | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (30S-10S)" | "degC"  | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])"
  sosstsst_50S_30S | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (50S-30S)" | "degC"  | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])"
  sosstsst_70S_50S | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (70S-50S)" | "degC"  | "(if                     lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])"
  sosstsst_50S_50N_prio | "tos"      | eORCA1.2_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (50S-50N)" | "degC"  | "(if lat[d=2] ge -50 and lat[d=2] le  50 then mask[k=1,d=2]*area[d=2])"
  sosaline_70N_90N | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (70N-90N)"    | "PSU"   | "(if lat[d=2] ge  70                     then mask[k=1,d=2]*area[d=2])"
  sosaline_50N_70N | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (50N-70N)"    | "PSU"   | "(if lat[d=2] ge  50 and lat[d=2] le  70 then mask[k=1,d=2]*area[d=2])"
  sosaline_30N_50N | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (30N-50N)"    | "PSU"   | "(if lat[d=2] ge  30 and lat[d=2] le  50 then mask[k=1,d=2]*area[d=2])"
  sosaline_10N_30N | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (10N-30N)"    | "PSU"   | "(if lat[d=2] ge  10 and lat[d=2] le  30 then mask[k=1,d=2]*area[d=2])"
  sosaline_10S_10N | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (10S-10N)"    | "PSU"   | "(if lat[d=2] ge -10 and lat[d=2] le  10 then mask[k=1,d=2]*area[d=2])"
  sosaline_30S_10S | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (30S-10S)"    | "PSU"   | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])"
  sosaline_50S_30S | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (50S-30S)"    | "PSU"   | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])"
  sosaline_70S_50S | "sos"      | eORCA1.2_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (70S-50S)"    | "PSU"   | "(if                     lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])"
  hc300_global     | "hc300"    | eORCA1.2_grid.nc | "(hc300[d=1])" | "Heat content 0-300m (GLOBAL)"      | "J/m2"  | "mask[k=1,d=2]*area[d=2]"
  wfo_global       | "wfo"      | eORCA1.2_grid.nc | "(wfo[d=1])"   | "Water flux (GLOBAL)"               | "kg/m2/s"  | "mask[k=1,d=2]*area[d=2]"
+ sosstsst_global_prio | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"                                         | "Sea Surface Temperature (GLOBAL)" | "degC"  | "mask[k=1,d=2]*area[d=2]"
+ sosaline_global  | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"                                         | "Sea Surface Salinity (GLOBAL)"    | "PSU"   | "mask[k=1,d=2]*area[d=2]"
+ sossheig_global  | "zos"      | eORCA1.3_grid.nc | "(zos[d=1])"                                         | "Sea Surface Heigh (GLOBAL)"       | "m"     | "mask[k=1,d=2]*area[d=2]"
+ sohefldo_global  | "nshfls rsntds" | eORCA1.3_grid.nc | "(nshfls[d=1]+rsntds[d=2])"                     | "Net Downward Heat Flux (GLOBAL)"  | "W/m^2" | "mask[k=1,d=3]*area[d=3]"
+ somxl010_north   | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (NORTH)"      | "m"     | "(if lat[d=2] gt 0 then mask[k=1,d=2]*area[d=2])"
+ somxl010_south   | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (SOUTH)"      | "m"     | "(if lat[d=2] lt 0 then mask[k=1,d=2]*area[d=2])"
+ somxl010_SubpolarNorthAtl   | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1,i=262:300,j=260:281])"       | "Mixed layer depth (Subpolar North Atlantic, annual Max)" | "m"     | "mask[k=1,d=2,i=262:300,j=260:281]*area[d=2,i=262:300,j=260:281]" | "@SMX:12"
+ somxl010_Labrador   | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1,i=228:248,j=265:288])"               | "Mixed layer depth (Labrador Sea, Annual Max)"            | "m"     | "mask[k=1,d=2,i=228:248,j=265:288]*area[d=2,i=228:248,j=265:288]" | "@SMX:12"
+ somxl010_Barents    | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1,i=272:295,j=313:330])"               | "Mixed layer depth (Barents Sea, Annual Max)"             | "m"     | "mask[k=1,d=2,i=272:295,j=313:330]*area[d=2,i=272:295,j=313:330]" | "@SMX:12"
+ somxl010_Irminger   | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1,i=248:268,j=272:285])"               | "Mixed layer depth (Irminger Sea, Annual Max)"            | "m"     | "mask[k=1,d=2,i=248:268,j=272:285]*area[d=2,i=248:268,j=272:285]" | "@SMX:12"
+ somxl010_NordicSeas | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1,i=262:300,j=284:313])"               | "Mixed layer depth (Nordic Seas, Annual Max)"             | "m"     | "mask[k=1,d=2,i=262:300,j=284:313]*area[d=2,i=262:300,j=284:313]" | "@SMX:12"
+ somxl010_Rockall    | "mldr10_1" | eORCA1.3_grid.nc | "(mldr10_1[d=1,i=262:300,j=284:313])"               | "Mixed layer depth (Rockall, Annual Max)"                 | "m"     | "mask[k=1,d=2,i=262:300,j=284:313]*area[d=2,i=262:300,j=284:313]" | "@SMX:12"
+ friver_global    | "friver"   | eORCA1.3_grid.nc | "(friver[d=1])"                                      | "River input" | "kg/s"  | "mask[k=1,d=2]*area[d=2]"
+ friver_int       | "friver"   | eORCA1.3_grid.nc | "(friver[d=1]*mask[k=1,d=2]*area[d=2]*1E-9)"                                                                                        | "River input"             | "Sv"  | "2"
+ friver_coastal   | "friver"   | eORCA1.3_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) ne missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Coastal river input"     | "Sv"  | "2"
+ friver_noncoastal| "friver"   | eORCA1.3_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) eq missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Non coastal river input" | "Sv"  | "2"
+ friver_background| "friver"   | eORCA1.3_grid.nc | "(mask[k=1,d=2]*area[d=2]*friver[d=1,i=140,j=190]*1E-9)"                                                                            | "Runoff correction (conservation)" | "Sv"  | "2"
+ sosstsst_70N_90N | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (70N-90N)" | "degC"  | "(if lat[d=2] ge  70                     then mask[k=1,d=2]*area[d=2])"
+ sosstsst_50N_70N | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (50N-70N)" | "degC"  | "(if lat[d=2] ge  50 and lat[d=2] le  70 then mask[k=1,d=2]*area[d=2])"
+ sosstsst_30N_50N | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (30N-50N)" | "degC"  | "(if lat[d=2] ge  30 and lat[d=2] le  50 then mask[k=1,d=2]*area[d=2])"
+ sosstsst_10N_30N | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (10N-30N)" | "degC"  | "(if lat[d=2] ge  10 and lat[d=2] le  30 then mask[k=1,d=2]*area[d=2])"
+ sosstsst_10S_10N | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (10S-10N)" | "degC"  | "(if lat[d=2] ge -10 and lat[d=2] le  10 then mask[k=1,d=2]*area[d=2])"
+ sosstsst_30S_10S | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (30S-10S)" | "degC"  | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])"
+ sosstsst_50S_30S | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (50S-30S)" | "degC"  | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])"
+ sosstsst_70S_50S | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (70S-50S)" | "degC"  | "(if                     lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])"
+ sosstsst_50S_50N_prio | "tos"      | eORCA1.3_grid.nc | "(tos[d=1])"   | "Sea Surface Temperature (50S-50N)" | "degC"  | "(if lat[d=2] ge -50 and lat[d=2] le  50 then mask[k=1,d=2]*area[d=2])"
+ sosaline_70N_90N | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (70N-90N)"    | "PSU"   | "(if lat[d=2] ge  70                     then mask[k=1,d=2]*area[d=2])"
+ sosaline_50N_70N | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (50N-70N)"    | "PSU"   | "(if lat[d=2] ge  50 and lat[d=2] le  70 then mask[k=1,d=2]*area[d=2])"
+ sosaline_30N_50N | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (30N-50N)"    | "PSU"   | "(if lat[d=2] ge  30 and lat[d=2] le  50 then mask[k=1,d=2]*area[d=2])"
+ sosaline_10N_30N | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (10N-30N)"    | "PSU"   | "(if lat[d=2] ge  10 and lat[d=2] le  30 then mask[k=1,d=2]*area[d=2])"
+ sosaline_10S_10N | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (10S-10N)"    | "PSU"   | "(if lat[d=2] ge -10 and lat[d=2] le  10 then mask[k=1,d=2]*area[d=2])"
+ sosaline_30S_10S | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (30S-10S)"    | "PSU"   | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])"
+ sosaline_50S_30S | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (50S-30S)"    | "PSU"   | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])"
+ sosaline_70S_50S | "sos"      | eORCA1.3_grid.nc | "(sos[d=1])"   | "Sea Surface Salinity (70S-50S)"    | "PSU"   | "(if                     lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])"
+ hc300_global     | "hc300"    | eORCA1.3_grid.nc | "(hc300[d=1])" | "Heat content 0-300m (GLOBAL)"      | "J/m2"  | "mask[k=1,d=2]*area[d=2]"
+ wfo_global       | "wfo"      | eORCA1.3_grid.nc | "(wfo[d=1])"   | "Water flux (GLOBAL)"               | "kg/m2/s"  | "mask[k=1,d=2]*area[d=2]"
  nadw_ocean_prio  | "msftyz_atl" |       ""         | "(msftyz_atl[z=500:6000@max,J=212:266@max,d=1])"       | "North Atlantic Deep Water"        | "Sv"    | "1"
  npdw_ocean       | "msftyz_ind" |       ""         | "(msftyz_ind[z=500:6000@max,J=212:266@max,d=1])"       | "North Pacific Deep Water"         | "Sv"    | "1"
  aabw_ocean       | "msftyz_glo" |       ""         | "(msftyz_glo[z=2000:6000@max,J=115:274@max,d=1])"      | "Antarctic Bottom Water"           | "Sv"    | "1"
  deacon_ocean     | "msftyz_glo" |       ""         | "(msftyz_glo[z=2000:6000@max,J=31:140@max,d=1])"       | "Deacon Cell"                      | "Sv"    | "1"
  thetao_0100m     | "thetao"   | eORCA1.2_grid.nc | "(thetao[d=1,k=24])" | "Sea Water Temperature @100m"  | "degC" |  "mask[k=24,d=2]*area[d=2]"
  thetao_0200m     | "thetao"   | eORCA1.2_grid.nc | "(thetao[d=1,k=31])" | "Sea Water Temperature @200m"  | "degC" |  "mask[k=31,d=2]*area[d=2]"
  thetao_0500m     | "thetao"   | eORCA1.2_grid.nc | "(thetao[d=1,k=40])" | "Sea Water Temperature @500m"  | "degC" |  "mask[k=40,d=2]*area[d=2]"
  thetao_1000m_prio     | "thetao"   | eORCA1.2_grid.nc | "(thetao[d=1,k=47])" | "Sea Water Temperature @1000m" | "degC" |  "mask[k=47,d=2]*area[d=2]"
  thetao_2000m     | "thetao"   | eORCA1.2_grid.nc | "(thetao[d=1,k=54])" | "Sea Water temperature @2000m" | "degC" |  "mask[k=54,d=2]*area[d=2]"
  thetao_3000m     | "thetao"   | eORCA1.2_grid.nc | "(thetao[d=1,k=60])" | "Sea Water Temperature @3000m" | "degC" |  "mask[k=60,d=2]*area[d=2]"
  thetao_4000m     | "thetao"   | eORCA1.2_grid.nc | "(thetao[d=1,k=66])" | "Sea Water Temperature @4000m" | "degC" |  "mask[k=66,d=2]*area[d=2]"
  so_0100m         | "so"       | eORCA1.2_grid.nc | "(so[d=1,k=24])"     | "Sea Water Salinity @100m"     | "PSU"  |  "mask[k=24,d=2]*area[d=2]"
  so_0200m         | "so"       | eORCA1.2_grid.nc | "(so[d=1,k=31])"     | "Sea Water Salinity @200m"     | "PSU"  |  "mask[k=31,d=2]*area[d=2]"
  so_0500m         | "so"       | eORCA1.2_grid.nc | "(so[d=1,k=40])"     | "Sea Water Salinity @500m"     | "PSU"  |  "mask[k=40,d=2]*area[d=2]"
  so_1000m         | "so"       | eORCA1.2_grid.nc | "(so[d=1,k=47])"     | "Sea Water Salinity @1000m"    | "PSU"  |  "mask[k=47,d=2]*area[d=2]"
  so_2000m         | "so"       | eORCA1.2_grid.nc | "(so[d=1,k=54])"     | "Sea Water Salinity @2000m"    | "PSU"  |  "mask[k=54,d=2]*area[d=2]"
  so_3000m         | "so"       | eORCA1.2_grid.nc | "(so[d=1,k=60])"     | "Sea Water Salinity @3000m"    | "PSU"  |  "mask[k=60,d=2]*area[d=2]"
  so_4000m         | "so"       | eORCA1.2_grid.nc | "(so[d=1,k=66])"     | "Sea Water Salinity @4000m"    | "PSU"  |  "mask[k=66,d=2]*area[d=2]"
+ thetao_0100m     | "thetao"   | eORCA1.3_grid.nc | "(thetao[d=1,k=24])" | "Sea Water Temperature @100m"  | "degC" |  "mask[k=24,d=2]*area[d=2]"
+ thetao_0200m     | "thetao"   | eORCA1.3_grid.nc | "(thetao[d=1,k=31])" | "Sea Water Temperature @200m"  | "degC" |  "mask[k=31,d=2]*area[d=2]"
+ thetao_0500m     | "thetao"   | eORCA1.3_grid.nc | "(thetao[d=1,k=40])" | "Sea Water Temperature @500m"  | "degC" |  "mask[k=40,d=2]*area[d=2]"
+ thetao_1000m_prio     | "thetao"   | eORCA1.3_grid.nc | "(thetao[d=1,k=47])" | "Sea Water Temperature @1000m" | "degC" |  "mask[k=47,d=2]*area[d=2]"
+ thetao_2000m     | "thetao"   | eORCA1.3_grid.nc | "(thetao[d=1,k=54])" | "Sea Water temperature @2000m" | "degC" |  "mask[k=54,d=2]*area[d=2]"
+ thetao_3000m     | "thetao"   | eORCA1.3_grid.nc | "(thetao[d=1,k=60])" | "Sea Water Temperature @3000m" | "degC" |  "mask[k=60,d=2]*area[d=2]"
+ thetao_4000m     | "thetao"   | eORCA1.3_grid.nc | "(thetao[d=1,k=66])" | "Sea Water Temperature @4000m" | "degC" |  "mask[k=66,d=2]*area[d=2]"
+ so_0100m         | "so"       | eORCA1.3_grid.nc | "(so[d=1,k=24])"     | "Sea Water Salinity @100m"     | "PSU"  |  "mask[k=24,d=2]*area[d=2]"
+ so_0200m         | "so"       | eORCA1.3_grid.nc | "(so[d=1,k=31])"     | "Sea Water Salinity @200m"     | "PSU"  |  "mask[k=31,d=2]*area[d=2]"
+ so_0500m         | "so"       | eORCA1.3_grid.nc | "(so[d=1,k=40])"     | "Sea Water Salinity @500m"     | "PSU"  |  "mask[k=40,d=2]*area[d=2]"
+ so_1000m         | "so"       | eORCA1.3_grid.nc | "(so[d=1,k=47])"     | "Sea Water Salinity @1000m"    | "PSU"  |  "mask[k=47,d=2]*area[d=2]"
+ so_2000m         | "so"       | eORCA1.3_grid.nc | "(so[d=1,k=54])"     | "Sea Water Salinity @2000m"    | "PSU"  |  "mask[k=54,d=2]*area[d=2]"
+ so_3000m         | "so"       | eORCA1.3_grid.nc | "(so[d=1,k=60])"     | "Sea Water Salinity @3000m"    | "PSU"  |  "mask[k=60,d=2]*area[d=2]"
+ so_4000m         | "so"       | eORCA1.3_grid.nc | "(so[d=1,k=66])"     | "Sea Water Salinity @4000m"    | "PSU"  |  "mask[k=66,d=2]*area[d=2]"
  hc_ocean         | "scvoltot sctemtot" |       ""   | "(scvoltot[d=1]*sctemtot[d=2]*1026.*3991.86795711963/5.1011127E+14)"     | "ocean heat content"                 | "J/m2"    | "1"
  hc_ice           | "ibgheat_tot"       |       ""   | "ibgheat_tot[d=1]*1.e20/5.1011127E+14"                                   | "ocean sea ice heat content"         | "J/m2"    | "1"

CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_si3_ORCA1.cfg

-                      r5066
+                      r5679
 # icesurf_south   | "siconc"  | eORCA1.1_grid.nc | "(if lat[d=2] le 0 then siconc[d=1]*mask[k=1,d=2]*area[d=2])"   | "Ice Surface (SOUTH)"   | "m2"    | "2"
 # Temporary fix
  siconc_north    | "sivolu sithic"  | eORCA1.2_grid.nc | "(sivolu[d=1]/sithic[d=2])"   | "Ice Fraction (NORTH)"            | "-"     | "if lat[d=3] ge 0 then mask[k=1,d=3]*area[d=3]"
  siconc_south    | "sivolu sithic"  | eORCA1.2_grid.nc | "(sivolu[d=1]/sithic[d=2])"   | "Ice Fraction (SOUTH)"            | "-"     | "if lat[d=3] le 0 then mask[k=1,d=3]*area[d=3]"
  snowvol_north   | "snvolu"  | eORCA1.2_grid.nc | "(if lat[d=2] ge 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Snow Volume (NORTH)"   | "m3"    | "2"
  snowvol_south   | "snvolu"  | eORCA1.2_grid.nc | "(if lat[d=2] le 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Snow Volume  (SOUTH)"    | "m3"    | "2"
  icevol_north    | "sivolu"  | eORCA1.2_grid.nc | "(if lat[d=2] ge 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Ice Volume (NORTH)"   | "m3"    | "2"
  icevol_north_MAR    | "sivolu"  | eORCA1.2_grid.nc  | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (March)"   | "m3" | "2" | "@FNR"
  icevol_north_SEP_prio    | "sivolu"  | eORCA1.2_grid.nc  | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (September)"   | "m3" | "2" | "@FNR"
  icevol_south    | "sivolu"  | eORCA1.2_grid.nc | "(if lat[d=2] le 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Ice Volume (SOUTH)"   | "m3"    | "2"
  icevol_south_MAR    | "sivolu"  | eORCA1.2_grid.nc  | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (March)"   | "m3" | "2" | "@FNR"
  icevol_south_SEP    | "sivolu"  | eORCA1.2_grid.nc  | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (September)"   | "m3" | "2" | "@FNR"
  iicethic_north  | "sithic"  | eORCA1.2_grid.nc | "(sithic[d=1])"   | "Ice thickness (NORTH)"           | "m"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
  iicethic_south  | "sithic"  | eORCA1.2_grid.nc | "(sithic[d=1])"   | "Ice thickness (SOUTH)"           | "m"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
  isnowthi_north  | "snvolu"  | eORCA1.2_grid.nc | "(snvolu[d=1])"   | "Snow thickness (NORTH)"          | "m"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
  isnowthi_south  | "snvolu"  | eORCA1.2_grid.nc | "(snvolu[d=1])"   | "Snow thickness (SOUTH)"          | "m"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
+ siconc_north    | "sivolu sithic"  | eORCA1.3_grid.nc | "(sivolu[d=1]/sithic[d=2])"   | "Ice Fraction (NORTH)"            | "-"     | "if lat[d=3] ge 0 then mask[k=1,d=3]*area[d=3]"
+ siconc_south    | "sivolu sithic"  | eORCA1.3_grid.nc | "(sivolu[d=1]/sithic[d=2])"   | "Ice Fraction (SOUTH)"            | "-"     | "if lat[d=3] le 0 then mask[k=1,d=3]*area[d=3]"
+ snowvol_north   | "snvolu"  | eORCA1.3_grid.nc | "(if lat[d=2] ge 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Snow Volume (NORTH)"   | "m3"    | "2"
+ snowvol_south   | "snvolu"  | eORCA1.3_grid.nc | "(if lat[d=2] le 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Snow Volume  (SOUTH)"    | "m3"    | "2"
+ icevol_north    | "sivolu"  | eORCA1.3_grid.nc | "(if lat[d=2] ge 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Ice Volume (NORTH)"   | "m3"    | "2"
+ icevol_north_MAR    | "sivolu"  | eORCA1.3_grid.nc  | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (March)"   | "m3" | "2" | "@FNR"
+ icevol_north_SEP_prio    | "sivolu"  | eORCA1.3_grid.nc  | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (September)"   | "m3" | "2" | "@FNR"
+ icevol_south    | "sivolu"  | eORCA1.3_grid.nc | "(if lat[d=2] le 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])"   | "Ice Volume (SOUTH)"   | "m3"    | "2"
+ icevol_south_MAR    | "sivolu"  | eORCA1.3_grid.nc  | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (March)"   | "m3" | "2" | "@FNR"
+ icevol_south_SEP    | "sivolu"  | eORCA1.3_grid.nc  | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (September)"   | "m3" | "2" | "@FNR"
+ iicethic_north  | "sithic"  | eORCA1.3_grid.nc | "(sithic[d=1])"   | "Ice thickness (NORTH)"           | "m"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
+ iicethic_south  | "sithic"  | eORCA1.3_grid.nc | "(sithic[d=1])"   | "Ice thickness (SOUTH)"           | "m"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
+ isnowthi_north  | "snvolu"  | eORCA1.3_grid.nc | "(snvolu[d=1])"   | "Snow thickness (NORTH)"          | "m"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
+ isnowthi_south  | "snvolu"  | eORCA1.3_grid.nc | "(snvolu[d=1])"   | "Snow thickness (SOUTH)"          | "m"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
 # Following fields should be weighted by siconc
  sisali_north    | "sisali"  | eORCA1.2_grid.nc | "(sisali[d=1])"   | "Ice Salinity (NORTH)"            | "PSS"   | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
  sisali_south    | "sisali"  | eORCA1.2_grid.nc | "(sisali[d=1])"   | "Ice Salinity (NORTH)"            | "PSS"   | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
  sitemp_north    | "sitemp"  | eORCA1.2_grid.nc | "(sitemp[d=1])"   | "Ice Temperature (NORTH)"         | "C"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
  sitemp_south    | "sitemp"  | eORCA1.2_grid.nc | "(sitemp[d=1])"   | "Ice Temperature (SOUTH)"         | "C"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
  sistem_north    | "sistem"  | eORCA1.2_grid.nc | "(sistem[d=1])"   | "Ice Surface Temperature (NORTH)" | "C"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
  sistem_south    | "sistem"  | eORCA1.2_grid.nc | "(sistem[d=1])"   | "Ice Surface Temperature (SOUTH)" | "C"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
+ sisali_north    | "sisali"  | eORCA1.3_grid.nc | "(sisali[d=1])"   | "Ice Salinity (NORTH)"            | "PSS"   | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
+ sisali_south    | "sisali"  | eORCA1.3_grid.nc | "(sisali[d=1])"   | "Ice Salinity (NORTH)"            | "PSS"   | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
+ sitemp_north    | "sitemp"  | eORCA1.3_grid.nc | "(sitemp[d=1])"   | "Ice Temperature (NORTH)"         | "C"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
+ sitemp_south    | "sitemp"  | eORCA1.3_grid.nc | "(sitemp[d=1])"   | "Ice Temperature (SOUTH)"         | "C"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
+ sistem_north    | "sistem"  | eORCA1.3_grid.nc | "(sistem[d=1])"   | "Ice Surface Temperature (NORTH)" | "C"     | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"
+ sistem_south    | "sistem"  | eORCA1.3_grid.nc | "(sistem[d=1])"   | "Ice Surface Temperature (SOUTH)" | "C"     | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"
 #-----------------------------------------------------------------------------------------------------------------

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