- Timestamp:
- 06/03/24 15:18:06 (5 weeks ago)
- Location:
- CONFIG/UNIFORM/v7/IPSLCM7/EXPERIMENTS/IPSLCM-reg/piControl_TEST.orch4
- Files:
-
- 2 edited
- 2 copied
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CONFIG/UNIFORM/v7/IPSLCM7/EXPERIMENTS/IPSLCM-reg/piControl_TEST.orch4/COMP/orchidee.card
r6855 r6870 3 3 4 4 [UserChoices] 5 # Select the PFT and age class set-up. NOTE: the number of PFTs should match the 6 # number in the land cover and maps. The number of age classes does not affect the 7 # maps that can be used. 8 DefSuffix = 15pft.1ac 5 9 6 10 # VEGET_UPDATE_at_start=y : orchidee.driver will set VEGET_UPDATE=1Y at the first cumul period when starting a new simulation. … … 11 15 # VEGET_UPDATE=1Y : update the vegetation and woodharvest file 1st of January each year 12 16 VEGET_UPDATE=0Y 17 18 # Choice for routing scheme. Set ROUTING below to have following parameters set in orchidee.def : 19 # ROUTING=standard => in orchidee.def RIVER_ROUTING=y and ROUTING_METHOD=standard 20 # ROUTING=simple => in orchidee.def RIVER_ROUTING=y and ROUTING_METHOD=simple 21 # ROUTING=native => in orchidee.def RIVER_ROUTING=y and ROUTING_METHOD=native (note: routing_simple.nc is used also for this case) 22 # ROUTING=off => in orchidee.def RIVER_ROUTING=n 23 ROUTING=simple 13 24 14 25 # Specify output level for output files … … 25 36 output_freq_sechiba_history = 1mo 26 37 output_freq_sechiba_out_2 = 1d 27 output_freq_sechiba_history_4dim = 1d 28 38 output_freq_sechiba_history_4dim = 1mo 29 39 30 40 [InitialStateFiles] 31 List= (${R_IN}/SRF/SOIL/soils_param_zobler_coord.nc, soils_param.nc), \32 (${R_IN}/SRF/SOIL/soils_param_zobler_coord.nc, soilcolor.nc), \33 (${R_IN}/SRF/reftemp.nc, .), \34 (${R_IN}/SRF/routing.nc, .), \35 (${R_IN}/SRF/albedo/alb_bg_modisopt_2D_ESA_v2.nc, alb_bg.nc), \36 (${R_IN}/SRF/cartepente2d_15min.nc, .)41 List= (${R_IN}/SRF/SOIL/soil_bulk_and_ph.nc, .), \ 42 (${R_IN}/SRF/SOIL/soils_param_usda_with_clay_oxisol_coord.nc, soils_param.nc), \ 43 (${R_IN}/SRF/SOIL/soils_param_zobler_coord.nc, soilcolor.nc), \ 44 (${R_IN}/SRF/cartepente2d_15min4.nc, cartepente2d_15min.nc), \ 45 (${R_IN}/SRF/reftemp4.nc, reftemp.nc), \ 46 (${R_IN}/SRF/PFTMAPS/CMIP6/ESA-LUH2v2/historical/15PFT.v2023.1/PFTmap_1700.nc, PFTmap.nc) 37 47 38 48 [BoundaryFiles] 39 List= () 40 ListNonDel= (${R_IN}/SRF/PFTMAPS/CMIP6/ESA-LUH2v2/historical/15PFT.v1/PFTmap_1850.nc, PFTmap.nc),\ 41 (${R_IN}/SRF/WOODHARVEST/LUH2v2/historical/woodharvest_1850.nc, woodharvest.nc) 42 49 List= () 50 ListNonDel= (${R_IN}/SRF/ROUTING/routing_simple.nc, .) 43 51 44 52 [SmoothFiles] … … 46 54 47 55 [ParametersFiles] 48 List= (${SUBMIT_DIR}/PARAM/ORCHIDEE/orchidee.def_v22, orchidee.def) ,\49 (${SUBMIT_DIR}/PARAM/ORCHIDEE/ping_orchidee.xml, . ),\50 (${SUBMIT_DIR}/PARAM/ORCHIDEE/dr2xml_IPSL_orchidee.xml, dr2xml_orchidee.xml),\51 (${MODIPSL}/modeles/ORCHIDEE_2_2/src_xml/file_def_orchidee.xml, .),\52 (${MODIPSL}/modeles/ORCHIDEE_2_2/src_xml/context_input_orchidee.xml, .),\53 (${MODIPSL}/modeles/ORCHIDEE_2_2/src_xml/context_orchidee.xml, .) ,\54 (${MODIPSL}/modeles/ORCHIDEE_2_2/src_xml/field_def_orchidee.xml, .)56 List= (${SUBMIT_DIR}/PARAM/ORCHIDEE/orchidee.def_v4, orchidee.def) ,\ 57 (${SUBMIT_DIR}/PARAM/ORCHIDEE/orchidee_pft.def_${DefSuffix}_v4, orchidee_pft.def) ,\ 58 (${MODIPSL}/modeles/ORCHIDEE_4/src_xml/file_def_orchidee.xml, .) ,\ 59 (${MODIPSL}/modeles/ORCHIDEE_4/src_xml/context_input_orchidee.xml, .) ,\ 60 (${MODIPSL}/modeles/ORCHIDEE_4/src_xml/context_orchidee.xml, .) ,\ 61 (${MODIPSL}/modeles/ORCHIDEE_4/src_xml/context_routing_orchidee.xml, .) ,\ 62 (${MODIPSL}/modeles/ORCHIDEE_4/src_xml/field_def_orchidee.xml, .) 55 63 56 64 [RestartFiles] 57 List= (sechiba_rest_out.nc, sechiba_rest.nc, sechiba_rest_in.nc) 65 List= (sechiba_rest_out.nc, sechiba_rest.nc, sechiba_rest_in.nc) ,\ 66 (routing_restart.nc, routing_restart.nc, routing_start.nc) 58 67 59 68 [OutputText] 60 List= (out_orchidee*, orchidee.def, used_orchidee.def, iodef.xml, context_orchidee.xml, field_def_orchidee.xml, file_def_orchidee.xml, context_input_orchidee.xml, river_desc.nc)69 List= (out_orchidee*, orchidee.def, orchidee_pft.def, used_orchidee.def, used_orchidee_pft.def, iodef.xml, context_orchidee.xml, context_input_orchidee.xml, context_routing_orchidee.xml, field_def_orchidee.xml, file_def_orchidee.xml, river_desc.nc) 61 70 62 71 [OutputFiles] 63 List= (sechiba_history.nc, ${R_OUT_SRF_O_M}/${PREFIX}_1M_sechiba_history.nc, Post_1M_sechiba_history), \64 (sechiba_history_4dim.nc, ${R_OUT_SRF_O_M}/${PREFIX}_1M_sechiba_history_4dim.nc, NONE), \65 (sechiba_out_2.nc, ${R_OUT_SRF_O_H}/${PREFIX}_HF_sechiba_out_2.nc, NONE), \72 List= (sechiba_history.nc, ${R_OUT_SRF_O_M}/${PREFIX}_1M_sechiba_history.nc, Post_1M_sechiba_history), \ 73 (sechiba_history_4dim.nc, ${R_OUT_SRF_O_M}/${PREFIX}_1M_sechiba_history_4dim.nc, NONE), \ 74 (sechiba_out_2.nc, ${R_OUT_SRF_O_H}/${PREFIX}_HF_sechiba_out_2.nc, NONE), \ 66 75 (ORCHIDEE_interp_diag.nc, ${R_OUT_SRF_O_D}/${PREFIX}_ORCHIDEE_interp_diag.nc, NONE), \ 67 (forcing_by_ORCHIDEE.nc, ${R_OUT_SRF_O_H}/${PREFIX}_forcing_by_ORCHIDEE.nc, NONE) 76 (forcing_by_ORCHIDEE.nc, ${R_OUT_SRF_O_H}/${PREFIX}_forcing_by_ORCHIDEE.nc, NONE), \ 77 (diag_routing.nc, ${R_OUT_SRF_O_D}/${PREFIX}_1D_sechiba_routing.nc, NONE),\ 78 (diag_routing_r.nc, ${R_OUT_SRF_O_D}/${PREFIX}_1D_sechiba_routing_r.nc, NONE) 68 79 69 80 -
CONFIG/UNIFORM/v7/IPSLCM7/EXPERIMENTS/IPSLCM-reg/piControl_TEST.orch4/COMP/stomate.card
r6661 r6870 3 3 4 4 [UserChoices] 5 # NINPUT_UPDATE=1Y: change in nitrogen input maps every year. 6 # Nitrogen input maps should be set in BoundaryFiles/List for 1Y or in InitialStateFile for 0Y. 7 NINPUT_UPDATE=0Y 8 9 # STOMATE_IMPOSE_CN: impose nitrogen 10 # If STOMATE_IMPOSE_CN=y the file leaf_cn.nc must be available except if STOMATE_READ_CN=n 11 # If STOMATE_IMPOSE_CN=n the other N-input files are needed, see commented files below 12 STOMATE_IMPOSE_CN=n 5 13 6 14 # Specify output level for output files … … 17 25 output_freq_stomate_ipcc_history = 1mo 18 26 19 20 27 [InitialStateFiles] 21 List= () 28 List= (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_crop_nh4_1850.nc, Nfert_ammo_cropland.nc) ,\ 29 (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_crop_no3_1850.nc, Nfert_nitr_cropland.nc) ,\ 30 (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_pas_nh4_1850.nc, Nfert_ammo_pasture.nc) ,\ 31 (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_pas_no3_1850.nc, Nfert_nitr_pasture.nc) ,\ 32 (${R_IN}/SRF/NITROGEN/N_DEPOSITION/CMIP6.2/historical/nhx__1850.nc, Nammonium.nc), \ 33 (${R_IN}/SRF/NITROGEN/N_DEPOSITION/CMIP6.2/historical/noy__1850.nc, Nnitrate.nc), \ 34 (${R_IN}/SRF/NITROGEN/BNF/bnf_1850.nc, bnf.nc) 22 35 23 36 [BoundaryFiles] 24 List= 37 List= () 25 38 ListNonDel= () 26 39 … … 39 52 [OutputFiles] 40 53 List= (stomate_history.nc, ${R_OUT_SBG_O_M}/${PREFIX}_1M_stomate_history.nc, Post_1M_stomate_history), \ 41 (stomate_ipcc_history.nc, ${R_OUT_SBG_O_M}/${PREFIX}_1M_stomate_ipcc_history.nc, Post_1M_stomate_ipcc_history) 54 (stomate_ipcc_history.nc, ${R_OUT_SBG_O_M}/${PREFIX}_1M_stomate_ipcc_history.nc, Post_1M_stomate_ipcc_history), \ 55 (stomate_history_4dim.nc, ${R_OUT_SBG_O_M}/${PREFIX}_1M_stomate_history_4dim.nc, NONE), \ 56 (stomate_fixed_dia.nc, ${R_OUT_SBG_O_Y}/${PREFIX}_1Y_stomate_fixed_dia.nc, NONE) 42 57 43 [Post_1 M_stomate_history]44 Patches 45 GatherWithInternal = (lon, lat, Areas, CONTFRAC, time_counter, time_centered, time_centered_bounds)46 TimeSeriesVars2D = (CONVFLUX,CFLUX_PROD10,CFLUX_PROD100,HARVEST_ABOVE,WOOD_HARVEST)58 [Post_1Y_stomate_history] 59 Patches= () 60 GatherWithInternal= (lon, lat, time_counter, Areas, CONTFRAC) 61 TimeSeriesVars2D= (T2M_MONTH,RESOLUTION_X,RESOLUTION_Y,FLUX_PROD_S_LCC_c,FLUX_PROD_M_LCC_c,FLUX_PROD_L_LCC_c,FLUX_PROD_S_HARVEST_c,FLUX_PROD_M_HARVEST_c,FLUX_PROD_L_HARVEST_c) 47 62 ChunckJob2D = NONE 48 TimeSeriesVars3D = (VEGET_COV_MAX,NPP,GPP,HET_RESP,MAINT_RESP,GROWTH_RESP,TOTAL_M,TOTAL_BM_LITTER,TOTAL_SOIL_CARB,WOOD_HARVEST_PFT)63 TimeSeriesVars3D= (LAI_MEAN,VEGET_MAX,NPP,GPP,HET_RESP,MAINT_RESP,GROWTH_RESP,TOTAL_M_n,TOTAL_M_c,TOTAL_BM_LITTER_c,TOTAL_BM_LITTER_n,ADAPTATION,REGENERATION,SOIL_ACTIVE_c,SOIL_ACTIVE_n,SOIL_SLOW_c,SOIL_SLOW_n,SOIL_PASSIVE_c,SOIL_PASSIVE_n,SOIL_SURF_c,SOIL_SURF_n,LITTER_STR_AB_c,LITTER_STR_AB_n,LITTER_STR_BE_c,LITTER_STR_BE_n,LITTER_MET_AB_c,LITTER_MET_AB_n,LITTER_MET_BE_c,LITTER_MET_BE_n,LITTER_WOD_AB_c,LITTER_WOD_AB_n,LITTER_WOD_BE_c,LITTER_WOD_BE_n,TOTAL_TURN_c,TOTAL_TURN_n,LEAF_M_n,LEAF_M_c,N_UPTAKE_NO3,N_UPTAKE_NH4,NH3_EMISSION,N2_EMISSION,N2O_EMISSION,NOX_EMISSION,NBP_pool_c,NBP_flux_c,MBC_NBP1_c,MBC_NBP1_n,MBC_NBP2_c,MBC_NBP2_n) 49 64 ChunckJob3D = NONE 50 Seasonal =ON65 Seasonal=ON 51 66 52 [Post_1 M_stomate_ipcc_history]53 Patches 54 GatherWithInternal = (lon, lat, Areas, CONTFRAC, time_counter, time_centered, time_centered_bounds)55 TimeSeriesVars2D = (cProduct, lai, gpp, ra, fLuc, nbp, fVegLitter, fLitterSoil, cLeaf, cWood, cRoot, cMisc, cLitterAbove, cLitterBelow, cSoilFast, cSoilMedium, cSoilSlow, cMassVariation, treeFracPrimDec, treeFracPrimEver, c3PftFrac, c4PftFrac, rGrowth, rMaint, nppLeaf, nppWood, nppRoot, nep, fWoodharvest, cVegCrop, cLitterCrop, cSoilCrop, nppCrop, raCrop)67 [Post_1Y_stomate_ipcc_history] 68 Patches= () 69 GatherWithInternal= (lon, lat, time_counter, Areas, CONTFRAC) 70 TimeSeriesVars2D=(cVeg, cLitter, cSoil, cProduct, cMassVariation, lai, gpp, ra, npp, rh, fFire, fHarvest, fLuc, nbp_c, nbp_n, fVegLitter, fLitterSoil, cLeaf, cWood, cRoot, cMisc, cLitterAbove, cLitterBelow, cSoilFast, cSoilMedium, cSoilSlow, landCoverFrac, treeFracPrimDec, treeFracPrimEver, c3PftFrac, c4PftFrac, rGrowth, rMaint, nppLeaf, nppWood, nppRoot, nep_c, nep_n, fWoodharvest) 56 71 ChunckJob2D = NONE 57 TimeSeriesVars3D =()72 TimeSeriesVars3D=() 58 73 ChunckJob3D = NONE 59 Seasonal = ON 74 Seasonal=ON 75
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