[Compatibility] libIGCM=1.0 [UserChoices] # NINPUT_UPDATE=1Y: change in nitrogen input maps every year. # Nitrogen input maps should be set in BoundaryFiles/List for 1Y or in InitialStateFile for 0Y. NINPUT_UPDATE=0Y # STOMATE_IMPOSE_CN: impose nitrogen # If STOMATE_IMPOSE_CN=y the file leaf_cn.nc must be available except if STOMATE_READ_CN=n # If STOMATE_IMPOSE_CN=n the other N-input files are needed, see commented files below STOMATE_IMPOSE_CN=n # Specify output level for output files # Only the files stomate_history.nc and stomate_ipcc_history.nc can be set here. # output_level_filname=0 : lowest level writing only variables needed for the monitoring # output_level_filname=1 : highest level which will output all variables # output_level_filname=NONE : deactivate the file output_level_stomate_history = 0 output_level_stomate_ipcc_history = 0 # Specify output frequency for each file [1y, 1mo, 1d] # Settings using WriteFrequency in config.card are not longer used output_freq_stomate_history = 1mo output_freq_stomate_ipcc_history = 1mo [InitialStateFiles] List= (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_crop_nh4_2000.nc, Nfert_ammo_cropland.nc) ,\ (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_crop_no3_2000.nc, Nfert_nitr_cropland.nc) ,\ (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_pas_nh4_2000.nc, Nfert_ammo_pasture.nc) ,\ (${R_IN}/SRF/NITROGEN/N_FERTILISATION/NMIP2/synthetic/historical/nfer_pas_no3_2000.nc, Nfert_nitr_pasture.nc) ,\ (${R_IN}/SRF/NITROGEN/N_DEPOSITION/CMIP6.2/historical/nhx__2000.nc, Nammonium.nc), \ (${R_IN}/SRF/NITROGEN/N_DEPOSITION/CMIP6.2/historical/noy__2000.nc, Nnitrate.nc), \ (${R_IN}/SRF/NITROGEN/BNF/bnf_1850.nc, bnf.nc) [BoundaryFiles] List= () ListNonDel= () [SmoothFiles] List= () [ParametersFiles] List= () [RestartFiles] List= (stomate_rest_out.nc, stomate_rest.nc, stomate_rest_in.nc) [OutputText] List= () [OutputFiles] List= (stomate_history.nc, ${R_OUT_SBG_O_M}/${PREFIX}_1M_stomate_history.nc, Post_1M_stomate_history), \ (stomate_ipcc_history.nc, ${R_OUT_SBG_O_M}/${PREFIX}_1M_stomate_ipcc_history.nc, Post_1M_stomate_ipcc_history), \ (stomate_history_4dim.nc, ${R_OUT_SBG_O_M}/${PREFIX}_1M_stomate_history_4dim.nc, NONE), \ (stomate_fixed_dia.nc, ${R_OUT_SBG_O_Y}/${PREFIX}_1Y_stomate_fixed_dia.nc, NONE) [Post_1Y_stomate_history] Patches= () GatherWithInternal= (lon, lat, time_counter, Areas, CONTFRAC) 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) ChunckJob2D = NONE 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) ChunckJob3D = NONE Seasonal=ON [Post_1Y_stomate_ipcc_history] Patches= () GatherWithInternal= (lon, lat, time_counter, Areas, CONTFRAC) 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) ChunckJob2D = NONE TimeSeriesVars3D=() ChunckJob3D = NONE Seasonal=ON