- Timestamp:
- 06/03/20 09:43:39 (4 years ago)
- Location:
- CONFIG/UNIFORM/v6/IPSLCM6.5
- Files:
-
- 2 deleted
- 6 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/UNIFORM/v6/IPSLCM6.5/EXPERIMENTS/IPSLCM/piControl_TEST/COMP/pisces.card
r5066 r5109 14 14 List= () 15 15 16 ListNonDel= (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/PiDIC_GLODAPv2_Lauvset2016_r360x180xl75.nc, data_DIC_nomask.nc ), \ 17 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/TALK_GLODAPv2_Lauvset2016_r360x180xl75.nc , data_ALK_nomask.nc ), \ 18 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/O2_WOA2013_r360x180xl75.nc , data_OXY_nomask.nc ), \ 19 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/PO4_WOA2013_r360x180xl75.nc , data_PO4_nomask.nc ), \ 20 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/Si_WOA2013_r360x180xl75.nc , data_SIL_nomask.nc ), \ 21 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/DOC_PISCES_monthly_r360x180xl75.nc , data_DOC_nomask.nc ), \ 22 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/Fer_FEMIP_model_median_r360x180xl75.nc , data_FER_nomask.nc ), \ 23 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/NO3_WOA2013_r360x180xl75.nc , data_NO3_nomask.nc ), \ 24 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/weights_3D_r360x180_eorca1_bilinear.nc , weights_3D_r360x180_bilin.nc ), \ 16 ListNonDel= (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/DIC_GLODAPv2.1_annual_eORCA_R1.nc , . ), \ 17 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/Alkalini_GLODAPv2.1_annual_eORCA_R1.nc , . ), \ 18 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/O2_WOA2009_monthly_eORCA_R1.nc , . ), \ 19 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/PO4_WOA2009_monthly_eORCA_R1.nc , . ), \ 20 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/Si_WOA2009_monthly_eORCA_R1.nc , . ), \ 21 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/DOC_PISCES_monthly_eORCA_R1.nc , . ), \ 22 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/Fer_PISCES_monthly_eORCA_R1.nc , . ), \ 23 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/NO3_WOA2009_monthly_eORCA_R1.nc , . ), \ 25 24 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/Dust_inca_LOI/DUST_INCA_LOI6012-histAER_1M_1850.nc, dust.orca.nc ), \ 26 25 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/Dust_inca_LOI/weights_LMD144142_eORCA1_bilinear.nc , weights_lmd144142_bilin.nc ), \ … … 29 28 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/${ORCAGRID}_pmarge_etopo.nc , bathy.orca.nc ), \ 30 29 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/${ORCAGRID}_river_global_news.nc , river.orca.nc ), \ 31 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/${ORCAGRID}_par_fraction_gewex_clim90s00s .nc , par.orca.nc ), \30 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/${ORCAGRID}_par_fraction_gewex_clim90s00s_366days.nc , par.orca.nc ), \ 32 31 (${R_IN}/OCE/NEMO/${opa9_UserChoices_ORCA_version}/PISCES/${ORCAGRID}_Solubility_T62_Mahowald.nc , solubility.orca.nc ) 33 32 … … 65 64 (${config_UserChoices_JobName}_1y_CFC12.nc , ${R_OUT_MBG_O_Y}/${PREFIX}_1Y_CFC12.nc , NONE ) , \ 66 65 (${config_UserChoices_JobName}_1m_bioscalar.nc , ${R_OUT_MBG_O_M}/${PREFIX}_1M_bioscalar.nc , Post_1M_bioscalar) , \ 67 (${config_UserChoices_JobName}_1m_ptrc_T.nc , ${R_OUT_MBG_O_M}/${PREFIX}_1M_ptrc_T.nc , Post_1M_ptrc_T) , \68 (${config_UserChoices_JobName}_1m_diad_T.nc , ${R_OUT_MBG_O_M}/${PREFIX}_1M_diad_T.nc , Post_1M_diad_T) , \66 (${config_UserChoices_JobName}_1m_ptrc_T.nc , ${R_OUT_MBG_O_M}/${PREFIX}_1M_ptrc_T.nc , NONE ) , \ 67 (${config_UserChoices_JobName}_1m_diad_T.nc , ${R_OUT_MBG_O_M}/${PREFIX}_1M_diad_T.nc , NONE ) , \ 69 68 (${config_UserChoices_JobName}_1d_bioscalar.nc , ${R_OUT_MBG_O_D}/${PREFIX}_1D_bioscalar.nc , NONE) 70 69 … … 104 103 ChunckJob3D = 50Y 105 104 Seasonal=OFF 106 107 [Post_1Y_ptrc_T]108 Patches = ()109 GatherWithInternal = (nav_lon, nav_lat, deptht, time_counter, time_centered, time_centered_bounds)110 TimeSeriesVars2D = ()111 ChunckJob2D = OFF112 TimeSeriesVars3D = (Alkalini, NCHL, DCHL, DIC, Fer, NO3, O2, PO4, Si )113 ChunckJob3D = NONE114 Seasonal=OFF115 116 [Post_1Y_diad_T]117 Patches = ()118 GatherWithInternal = (nav_lon, nav_lat, deptht, time_counter, time_centered, time_centered_bounds)119 TimeSeriesVars2D = (Cflx, Dpco2, EPC100, Heup, Nfix)120 ChunckJob2D = 50Y121 TimeSeriesVars3D = (PAR, TPP)122 ChunckJob3D = 50Y123 Seasonal=OFF124 125 [Post_1Y_inerttrc]126 Patches = ()127 GatherWithInternal = (nav_lon, nav_lat, deptht, time_counter, time_centered, time_centered_bounds)128 TimeSeriesVars2D = ()129 ChunckJob2D = OFF130 TimeSeriesVars3D = (Age)131 ChunckJob3D = NONE132 Seasonal=OFF -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/PARAM/namelist_ORCA1_cfg
r5066 r5109 130 130 sn_rcv_w10m = 'coupled' , 'no' , '' , '' , '' 131 131 sn_rcv_taumod = 'none' , 'no' , '' , '' , '' 132 sn_rcv_tau = ' oce and ice', 'no' , 'cartesian' , 'eastward-northward' , 'U,V'132 sn_rcv_tau = 'mixed oce-ice' , 'no' , 'cartesian' , 'eastward-northward' , 'U,V' 133 133 sn_rcv_dqnsdt = 'coupled' , 'no' , '' , '' , '' 134 134 sn_rcv_qsr = 'conservative' , 'no' , '' , '' , '' … … 414 414 rn_avts = 1.e-4 ! maximum avs (vertical mixing on salinity) 415 415 rn_hsbfr = 1.6 ! heat/salt buoyancy flux ratio 416 ln_zdfiwm = . false. ! internal wave-induced mixing (T => fill namzdf_iwm)416 ln_zdfiwm = .true. ! internal wave-induced mixing (T => fill namzdf_iwm) 417 417 ! ! Coefficients 418 418 rn_avm0 = 1.2e-4 ! vertical eddy viscosity [m2/s] (background Kz if ln_zdfcst=F) … … 424 424 &namzdf_tke ! turbulent eddy kinetic dependent vertical diffusion (ln_zdftke =T) 425 425 !----------------------------------------------------------------------- 426 nn_mxl = 2 ! mixing length: = 0 bounded by the distance to surface and bottom427 ! ! = 1 bounded by the local vertical scale factor428 ! ! = 2 first vertical derivative of mixing length bounded by 1429 ! ! = 3 as =2 with distinct dissipative an mixing length scale430 426 nn_mxl = 2 ! mixing length: = 2 first vertical derivative of mixing length bounded by 1 427 ln_mxl0 = .true. ! surface mixing length scale = F(wind stress) (T) or not (F) 428 nn_mxlice = 2 ! type of scaling under sea-ice 429 ! = 2 scaling with mean sea-ice thickness 430 nn_etau = 0 ! penetration of tke below the mixed layer (ML) due to NIWs 431 431 ! = 0 none ; = 1 add a tke source below the ML 432 ! = 2 add a tke source just at the base of the ML 433 ! = 3 as = 1 applied on HF part of the stress (ln_cpl=T) 434 rn_eice = 2 ! below sea ice: =0 ON ; =4 OFF when ice fraction > 1/4 435 ln_lc = .true. ! Langmuir cell parameterisation (Axell 2002) 436 rn_lc = 0.20 ! coef. associated to Langmuir cells 432 ln_lc = .true. ! Langmuir cell parameterisation (Axell 2002) 433 rn_lc = 0.20 ! coef. associated to Langmuir cells 437 434 / 438 435 !----------------------------------------------------------------------- -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/PARAM/namelist_ice_ORCA1_cfg
r5066 r5109 41 41 &namdyn_rhg ! Ice rheology 42 42 !------------------------------------------------------------------------------ 43 ln_aEVP = .false. ! adaptive rheology (Kimmritz et al. 2016 & 2017) 43 ln_rhg_EVP = .true. ! EVP rheology 44 ln_aEVP = .false. ! adaptive rheology (Kimmritz et al. 2016 & 2017) 45 rn_creepl = 2.0e-9 ! creep limit [1/s] 46 rn_ecc = 2.0 ! eccentricity of the elliptical yield curve 47 nn_nevp = 120 ! number of EVP subcycles 48 rn_relast = 0.333 ! ratio of elastic timescale to ice time step: Telast = dt_ice * rn_relast 49 ! advised value: 1/3 (rn_nevp=120) or 1/9 (rn_nevp=300) 50 ln_rhg_chkcvg = .false. ! check convergence of rheology (outputs: file ice_cvg.nc & variable uice_cvg) 44 51 / 45 52 !------------------------------------------------------------------------------ … … 50 57 &namsbc ! Ice surface boundary conditions 51 58 !------------------------------------------------------------------------------ 52 rn_blow_s = 0.66 ! mesure of snow blowing into the leads 59 rn_cio = 5.0e-03 ! ice-ocean drag coefficient (-) 60 nn_snwfra = 2 ! calculate the fraction of ice covered by snow (for zdf and albedo) 61 ! = 2 fraction = hsnw / (hsnw+0.02) [CICE formulation] 62 rn_snwblow = 0.66 ! mesure of snow blowing into the leads 53 63 ! = 1 => no snow blowing, < 1 => some snow blowing 54 64 nn_flxdist = 2 ! Redistribute heat flux over ice categories 55 65 ! = 2 Redistribute a single flux over categories 66 ln_cndflx = .false. ! Use conduction flux as surface boundary conditions (i.e. for Jules coupling) 67 ln_cndemulate = .false. ! emulate conduction flux (if not provided in the inputs) 68 nn_qtrice = 1 ! Solar flux transmitted thru the surface scattering layer: 69 ! = 1 Lebrun 2019 (equals 0.3 anytime with different melting/dry snw conductivities) 56 70 / 57 71 !------------------------------------------------------------------------------ 58 72 &namthd ! Ice thermodynamics 59 73 !------------------------------------------------------------------------------ 74 ln_icedH = .true. ! activate ice thickness change from growing/melting (T) or not (F) 75 ln_icedA = .true. ! activate lateral melting param. (T) or not (F) 76 ln_icedO = .true. ! activate ice growth in open-water (T) or not (F) 77 ln_icedS = .true. ! activate brine drainage (T) or not (F) 78 ! 79 ln_leadhfx = .false. ! heat in the leads is used to melt sea-ice before warming the ocean 60 80 / 61 81 !------------------------------------------------------------------------------ 62 82 &namthd_zdf ! Ice heat diffusion 63 83 !------------------------------------------------------------------------------ 64 rn_cnd_s = 0. 30 ! thermal conductivity of the snow (0.31 W/m/K, Maykut and Untersteiner, 1971)84 rn_cnd_s = 0.50 ! thermal conductivity of the snow (0.31 W/m/K, Maykut and Untersteiner, 1971) 65 85 ! Obs: 0.1-0.5 (Lecomte et al, JAMES 2013) 66 86 / … … 80 100 &namthd_pnd ! Melt ponds 81 101 !------------------------------------------------------------------------------ 102 ln_pnd = .true. ! activate melt ponds or not 103 ln_pnd_LEV = .true. ! level ice melt ponds (from Flocco et al 2007,2010 & Holland et al 2012) 104 rn_apnd_min = 0.15 ! minimum ice fraction that contributes to melt pond. range: 0.0 -- 0.15 ?? 105 rn_apnd_max = 0.85 ! maximum ice fraction that contributes to melt pond. range: 0.7 -- 0.85 ?? 106 ln_pnd_CST = .false. ! constant melt ponds 107 rn_apnd = 0.2 ! prescribed pond fraction, at Tsu=0 degC 108 rn_hpnd = 0.05 ! prescribed pond depth, at Tsu=0 degC 109 ln_pnd_lids = .true. ! frozen lids on top of the ponds (only for ln_pnd_LEV) 110 ln_pnd_alb = .true. ! effect of melt ponds on ice albedo 82 111 / 83 112 !------------------------------------------------------------------------------ 84 113 &namini ! Ice initialization 85 114 !------------------------------------------------------------------------------ 115 nn_iceini_file = _AUTO_ ! netcdf file provided for initialization 116 ! 86 117 rn_thres_sst = 0.5 ! max temp. above Tfreeze with initial ice = (sst - tfreeze) 87 rn_hti_ini_n = 3.0 ! initial ice thickness (m), North118 rn_hti_ini_n = 1.0 ! initial ice thickness (m), North 88 119 rn_hti_ini_s = 1.0 ! " " South 89 120 rn_hts_ini_n = 0.3 ! initial snow thickness (m), North … … 105 136 rn_hld_ini_n = 0.0 ! initial pond lid depth (m), North 106 137 rn_hld_ini_s = 0.0 ! " " South 107 nn_iceini_file = _AUTO_ ! netcdf file provided for initialization108 138 !______!______________________!___________________!___________!_____________!________!___________!__________________!__________!_______________! 109 139 ! ! file name ! frequency (hours) ! variable ! time interp.! clim ! 'yearly'/ ! weights filename ! rotation ! land/sea mask ! … … 124 154 &namalb ! albedo parameters 125 155 !------------------------------------------------------------------------------ 156 rn_alb_sdry = 0.87 ! dry snow albedo : 0.85 -- 0.87 157 rn_alb_smlt = 0.82 ! melting snow albedo : 0.72 -- 0.82 158 rn_alb_idry = 0.65 ! dry ice albedo : 0.54 -- 0.65 159 rn_alb_imlt = 0.58 ! bare puddled ice albedo : 0.49 -- 0.58 160 rn_alb_dpnd = 0.30 ! ponded ice albedo : 0.10 -- 0.30 126 161 / 127 162 !------------------------------------------------------------------------------ -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/PARAM/namelist_top_ORCA1_cfg
r5066 r5109 64 64 ! ! file name ! frequency (hours) ! variable ! time interp. ! clim ! 'yearly'/ ! weights ! rotation ! land/sea mask ! 65 65 ! ! ! (if <0 months) ! name ! (logical) ! (T/F) ! 'monthly' ! filename ! pairing ! filename ! 66 sn_trcdta(1) = ' data_DIC_nomask.nc', -12 , 'PiDIC' , .false. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''67 sn_trcdta(2) = ' data_ALK_nomask.nc', -12 , 'TALK' , .false. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''68 sn_trcdta(3) = ' data_OXY_nomask.nc', -12 , 'O2' , .true. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''69 sn_trcdta(5) = ' data_PO4_nomask.nc', -12 , 'PO4' , .true. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''70 sn_trcdta(7) = ' data_SIL_nomask.nc', -12 , 'Si' , .true. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''71 sn_trcdta(10) = ' data_DOC_nomask.nc', -1 , 'DOC' , .true. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''72 sn_trcdta(14) = ' data_FER_nomask.nc', -12 , 'Fer' , .true. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''73 sn_trcdta(23) = ' data_NO3_nomask.nc', -12 , 'NO3' , .true. , .true. , 'yearly' , 'weights_3D_r360x180_bilin.nc' , '' , ''66 sn_trcdta(1) = 'DIC_GLODAPv2.1_annual_eORCA_R1.nc' , -12 , 'PiDIC' , .false. , .true. , 'yearly' , '' , '' , '' 67 sn_trcdta(2) = 'Alkalini_GLODAPv2.1_annual_eORCA_R1.nc', -12 , 'Alkalini', .false. , .true. , 'yearly' , '' , '' , '' 68 sn_trcdta(3) = 'O2_WOA2009_monthly_eORCA_R1.nc' , -1 , 'O2' , .true. , .true. , 'yearly' , '' , '' , '' 69 sn_trcdta(5) = 'PO4_WOA2009_monthly_eORCA_R1.nc' , -1 , 'PO4' , .true. , .true. , 'yearly' , '' , '' , '' 70 sn_trcdta(7) = 'Si_WOA2009_monthly_eORCA_R1.nc' , -1 , 'Si' , .true. , .true. , 'yearly' , '' , '' , '' 71 sn_trcdta(10) = 'DOC_PISCES_monthly_eORCA_R1.nc' , -1 , 'DOC' , .true. , .true. , 'yearly' , '' , '' , '' 72 sn_trcdta(14) = 'Fer_PISCES_monthly_eORCA_R1.nc' , -1 , 'Fer' , .true. , .true. , 'yearly' , '' , '' , '' 73 sn_trcdta(23) = 'NO3_WOA2009_monthly_eORCA_R1.nc' , -1 , 'NO3' , .true. , .true. , 'yearly' , '' , '' , '' 74 74 rn_trfac(1) = 1.028e-06 ! multiplicative factor 75 75 rn_trfac(2) = 1.028e-06 ! - - - - -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_opa9_ORCA1.cfg
r5066 r5109 74 74 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]" 75 75 wfo_global | "wfo" | eORCA1.2_grid.nc | "(wfo[d=1])" | "Water flux (GLOBAL)" | "kg/m2/s" | "mask[k=1,d=2]*area[d=2]" 76 nadw_ocean_prio | "zomsfatl" | "" | "(zomsfatl[z=500:6000@max,J=212:266@max,d=1])" | "North Atlantic Deep Water" | "Sv" | "1"77 npdw_ocean | " zomsfpac" | "" | "(zomsfpac[z=500:6000@max,J=212:266@max,d=1])" | "North Pacific Deep Water" | "Sv" | "1"78 aabw_ocean | " zomsfglo" | "" | "(zomsfglo[z=2000:6000@max,J=115:274@max,d=1])" | "Antarctic Bottom Water" | "Sv" | "1"79 deacon_ocean | " zomsfglo" | "" | "(zomsfglo[z=2000:6000@max,J=31:140@max,d=1])" | "Deacon Cell" | "Sv" | "1"76 nadw_ocean_prio | "msftyz_atl" | "" | "(msftyz_atl[z=500:6000@max,J=212:266@max,d=1])" | "North Atlantic Deep Water" | "Sv" | "1" 77 npdw_ocean | "msftyz_ind" | "" | "(msftyz_ind[z=500:6000@max,J=212:266@max,d=1])" | "North Pacific Deep Water" | "Sv" | "1" 78 aabw_ocean | "msftyz_glo" | "" | "(msftyz_glo[z=2000:6000@max,J=115:274@max,d=1])" | "Antarctic Bottom Water" | "Sv" | "1" 79 deacon_ocean | "msftyz_glo" | "" | "(msftyz_glo[z=2000:6000@max,J=31:140@max,d=1])" | "Deacon Cell" | "Sv" | "1" 80 80 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]" 81 81 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]" -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_opa9_ORCA2.cfg
r5066 r5109 48 48 hc300_global | "hc300" | ORCA2.3_grid.nc | "(hc300[D=1])" | "Heat content 300 m (Global)" | "W" | "mask[K=1,D=2]*area[D=2]" 49 49 sohefldo_global | "sohefldo" | ORCA2.3_grid.nc | "(nshfls[D=1]+rsntds[D=1])" | "Net Downward Heat Flux (Global)" | "W/m^2" | "mask[K=1,D=2]*area[D=2]" 50 nadw_ocean | " zomsfatl" | "" | "(zomsfatl[Z=500:6000@MAX,J=90:120@MAX,D=1])" | "North Atlantic Deep Water" | "Sv" | "1"51 npdw_ocean | " zomsfpac" | "" | "(zomsfpac[Z=500:6000@MAX,J=90:120@MAX,D=1])" | "North Pacific Deep Water" | "Sv" | "1"52 aabw_ocean | " zomsfglo" | "" | "(zomsfglo[Z=2000:6000@MAX,J=37:118@MAX,D=1])" | "Antarctic Bottom Water" | "Sv" | "1"53 deacon_ocean | " zomsfglo" | "" | "(zomsfglo[Z=2000:6000@MAX,J=2:50@MAX,D=1])" | "Deacon Cell" | "Sv" | "1"50 nadw_ocean | "msftyz_atl" | "" | "(msftyz_atl[Z=500:6000@MAX,J=90:120@MAX,L=2,D=1])" | "North Atlantic Deep Water" | "Sv" | "1" 51 npdw_ocean | "msftyz_ind" | "" | "(msftyz_ind[Z=500:6000@MAX,J=90:120@MAX,L=3,D=1])" | "North Pacific Deep Water" | "Sv" | "1" 52 aabw_ocean | "msftyz_glo" | "" | "(msftyz_glo[Z=2000:6000@MAX,J=37:118@MAX,L=1,D=1])" | "Antarctic Bottom Water" | "Sv" | "1" 53 deacon_ocean | "msftyz_glo" | "" | "(msftyz_glo[Z=2000:6000@MAX,J=2:50@MAX,L=1,D=1])" | "Deacon Cell" | "Sv" | "1" 54 54 somxl010_north | "mldr10_1" | ORCA2.3_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])" 55 55 somxl010_south | "mldr10_1" | ORCA2.3_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])"
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