From e03837f767c0d0fe5ddd5a28fab35fb18845d3bc Mon Sep 17 00:00:00 2001 From: Eline Date: Mon, 16 Dec 2024 16:21:13 +0100 Subject: [PATCH] update CMIP6 --- .../Drafts/CMIP6/pcrglobwb_sonoran_05min.ini | 466 ++++++++++++++++++ .../Drafts/CMIP6/sonoran_desert_05min.map | Bin 0 -> 20992 bytes 2 files changed, 466 insertions(+) create mode 100644 book/thesis_projects/BSc/2024_Q2_ElineMol_CEG/Drafts/CMIP6/pcrglobwb_sonoran_05min.ini create mode 100644 book/thesis_projects/BSc/2024_Q2_ElineMol_CEG/Drafts/CMIP6/sonoran_desert_05min.map diff --git a/book/thesis_projects/BSc/2024_Q2_ElineMol_CEG/Drafts/CMIP6/pcrglobwb_sonoran_05min.ini b/book/thesis_projects/BSc/2024_Q2_ElineMol_CEG/Drafts/CMIP6/pcrglobwb_sonoran_05min.ini new file mode 100644 index 0000000..ff05f22 --- /dev/null +++ b/book/thesis_projects/BSc/2024_Q2_ElineMol_CEG/Drafts/CMIP6/pcrglobwb_sonoran_05min.ini @@ -0,0 +1,466 @@ +[globalOptions] + +# Set the pcrglobwb output directory in an absolute path. +outputDir = /data/output +# Set the input directory map in an absolute path. +# - The input forcing and parameter directories and files will be relative to this. +inputDir = /data/input + +# Map of clone (must be provided in PCRaster maps) +# - Spatial resolution and coverage are based on this map: +cloneMap = global_05min/cloneMaps/sonoran_desert_05min.map +# The area/landmask of interest: +# If None, area/landmask is limited for cells with ldd value. +landmask = global_05min/cloneMaps/sonoran_desert_05min.map + + +# netcdf attributes for output files: +institution = Department of Physical Geography, Utrecht University +title = PCR-GLOBWB 2 output (not coupled to MODFLOW) +description = by Edwin H. Sutanudjaja (contact: e.h.sutanudjaja@uu.nl) + +startTime = 2002-01-01 +endTime = 2002-12-31 +# Format: YYYY-MM-DD ; The model runs on daily time step. + + +# spinning up options: +maxSpinUpsInYears = 0 +minConvForSoilSto = 0.0 +minConvForGwatSto = 0.0 +minConvForChanSto = 0.0 +minConvForTotlSto = 0.0 + + + +[meteoOptions] + +# Set the forcing temperature and precipitation files (relative to inputDir) +precipitationNC = global_05min/meteo/pcrglobwb_OBS6_ERA5_reanaly_1_day_pr_2002-2016_merrimack.nc +temperatureNC = global_05min/meteo/pcrglobwb_OBS6_ERA5_reanaly_1_day_tas_2002-2016_merrimack.nc + +# Method to calculate referencePotETP (reference potential evaporation+transpiration) +# options are "Hamon" and "Input" ; If "Input", the netcdf input file must be given: +referenceETPotMethod = Hamon +refETPotFileNC = 'test' + +# variable names in the forcing files (optional) +precipitationVariableName = pr +temperatureVariableName = tas +referenceEPotVariableName = potentialEvaporation + +# conversion constants and factors to correct forcing values (optional) so that the units are in m.day-1 and degree Celcius +precipitationConstant = 0.0 +precipitationFactor = 1.0 +temperatureConstant = -273.15 +temperatureFactor = 1.0 +referenceEPotConstant = 0.0 +referenceEPotFactor = 1.0 + + +[meteoDownscalingOptions] +# This section is for a 5 arcmin run, for downscaling meteorological forcing at 30 arcmin to 5 arcmin. + +downscalePrecipitation = True +downscaleTemperature = True +downscaleReferenceETPot = True + +# downscaling (based on the digital elevation model): +# The downscaling will be performed by providing the "cellIds" (meteoDownscaleIds) of lower resolution cells. +meteoDownscaleIds = global_05min/meteo/downscaling_from_30min/uniqueIds_30min.map +highResolutionDEM = global_05min/meteo/downscaling_from_30min/gtopo05min.map + +# lapse rates: +temperLapseRateNC = global_05min/meteo/downscaling_from_30min/temperature_slope.nc +precipLapseRateNC = global_05min/meteo/downscaling_from_30min/precipitation_slope.nc + +# downscaling criteria (TODO: remove these): +temperatCorrelNC = global_05min/meteo/downscaling_from_30min/temperature_correl.nc +precipitCorrelNC = global_05min/meteo/downscaling_from_30min/precipitation_correl.nc + +# windows length (unit: arc-degree) for smoothing/averaging forcing data (not recommended): +smoothingWindowsLength = 0 + + +[landSurfaceOptions] +debugWaterBalance = True + +numberOfUpperSoilLayers = 2 + +# soil and parameters +# - they are used for all land cover types, unless they are are defined in certain land cover type options +# (e.g. different/various soil types for agriculture areas) +topographyNC = global_05min/landSurface/topography/topography_parameters_5_arcmin_october_2015.nc +soilPropertiesNC = global_05min/landSurface/soil/soilProperties5ArcMin.nc + + +includeIrrigation = True + +# netcdf time series for historical expansion of irrigation areas (unit: hectares). +# Note: The resolution of this map must be consisten with the resolution of cellArea. +historicalIrrigationArea = global_05min/waterUse/irrigation/irrigated_areas/irrigationArea05ArcMin.nc + +# a pcraster map/value defining irrigation efficiency (dimensionless) - optional +irrigationEfficiency = global_30min/waterUse/irrigation/irrigation_efficiency/efficiency.map + + +includeDomesticWaterDemand = True +includeIndustryWaterDemand = True +includeLivestockWaterDemand = True + +# domestic, industrial and livestock water demand data (unit must be in m.day-1) +domesticWaterDemandFile = global_05min/waterUse/waterDemand/domestic/domestic_water_demand_version_april_2015.nc +industryWaterDemandFile = global_05min/waterUse/waterDemand/industry/industry_water_demand_version_april_2015.nc +livestockWaterDemandFile = global_05min/waterUse/waterDemand/livestock/livestock_water_demand_version_april_2015.nc + + +# desalination water supply (maximum/potential/capacity) +desalinationWater = global_05min/waterUse/desalination/desalination_water_version_april_2015.nc + + +# zone IDs (scale) at which allocations of groundwater and surface water (as well as desalinated water) are performed +allocationSegmentsForGroundSurfaceWater = global_05min/waterUse/abstraction_zones/abstraction_zones_60min_05min.map + +# pcraster maps defining the partitioning of groundwater - surface water source +# +# - predefined surface water - groundwater partitioning for irrigation demand (e.g. based on Siebert, Global Map of Irrigation Areas version 5) +irrigationSurfaceWaterAbstractionFractionData = global_05min/waterUse/source_partitioning/surface_water_fraction_for_irrigation/AEI_SWFRAC.map +# -- quality map +irrigationSurfaceWaterAbstractionFractionDataQuality = global_05min/waterUse/source_partitioning/surface_water_fraction_for_irrigation/AEI_QUAL.map +# +# - threshold values defining the preference for surface water source for irrigation purpose +# -- treshold to maximize surface water irrigation use (cells with irrSurfaceWaterAbstractionFraction above this will prioritize irrigation surface water use) +treshold_to_maximize_irrigation_surface_water = 0.50 +# -- treshold to minimize fossil water withdrawal for irrigation (cells with irrSurfaceWaterAbstractionFraction below this have no fossil withdrawal for irrigation) +treshold_to_minimize_fossil_groundwater_irrigation = 0.70 +# +# - predefined surface water - groundwater partitioning for non irrigation demand (e.g. based on McDonald, 2014) +maximumNonIrrigationSurfaceWaterAbstractionFractionData = global_30min/waterUse/source_partitioning/surface_water_fraction_for_non_irrigation/max_city_sw_fraction.map + + +[forestOptions] + +name = forest +debugWaterBalance = True + +# snow module properties +snowModuleType = Simple +freezingT = 0.0 +degreeDayFactor = 0.0025 +snowWaterHoldingCap = 0.1 +refreezingCoeff = 0.05 + +# other paramater values +minTopWaterLayer = 0.0 +minCropKC = 0.2 + +cropCoefficientNC = global_05min/landSurface/landCover/naturalTall/cropCoefficientForest.nc +interceptCapNC = global_05min/landSurface/landCover/naturalTall/interceptCapInputForest.nc +coverFractionNC = global_05min/landSurface/landCover/naturalTall/coverFractionInputForest.nc + +landCoverMapsNC = None +# If NC file is not provided, we have to provide the following pcraster maps: +fracVegCover = global_05min/landSurface/landCover/naturalTall/vegf_tall.map +minSoilDepthFrac = global_30min/landSurface/landCover/naturalTall/minf_tall_permafrost.map +maxSoilDepthFrac = global_30min/landSurface/landCover/naturalTall/maxf_tall.map +rootFraction1 = global_05min/landSurface/landCover/naturalTall/rfrac1_tall.map +rootFraction2 = global_05min/landSurface/landCover/naturalTall/rfrac2_tall.map +maxRootDepth = 1.0 +# Note: The maxRootDepth is not used for non irrigated land cover type. +# +# Parameters for the Arno's scheme: +arnoBeta = None +# If arnoBeta is defined, the soil water capacity distribution is based on this. +# If arnoBeta is NOT defined, maxSoilDepthFrac must be defined such that arnoBeta will be calculated based on maxSoilDepthFrac and minSoilDepthFrac. + +# initial conditions: +interceptStorIni = global_05min/initialConditions/interceptStor_forest_1999-12-31.map +snowCoverSWEIni = global_05min/initialConditions/snowCoverSWE_forest_1999-12-31.map +snowFreeWaterIni = global_05min/initialConditions/snowFreeWater_forest_1999-12-31.map +topWaterLayerIni = global_05min/initialConditions/topWaterLayer_forest_1999-12-31.map +storUppIni = global_05min/initialConditions/storUpp_forest_1999-12-31.map +storLowIni = global_05min/initialConditions/storLow_forest_1999-12-31.map +interflowIni = global_05min/initialConditions/interflow_forest_1999-12-31.map + + +[grasslandOptions] + +name = grassland +debugWaterBalance = True + +# snow module properties +snowModuleType = Simple +freezingT = 0.0 +degreeDayFactor = 0.0025 +snowWaterHoldingCap = 0.1 +refreezingCoeff = 0.05 + +# other paramater values +minTopWaterLayer = 0.0 +minCropKC = 0.2 + +cropCoefficientNC = global_05min/landSurface/landCover/naturalShort/cropCoefficientGrassland.nc +interceptCapNC = global_05min/landSurface/landCover/naturalShort/interceptCapInputGrassland.nc +coverFractionNC = global_05min/landSurface/landCover/naturalShort/coverFractionInputGrassland.nc + +landCoverMapsNC = None +# If NC file is not provided, we have to provide the following values: +fracVegCover = global_05min/landSurface/landCover/naturalShort/vegf_short.map +minSoilDepthFrac = global_30min/landSurface/landCover/naturalShort/minf_short_permafrost.map +maxSoilDepthFrac = global_30min/landSurface/landCover/naturalShort/maxf_short.map +rootFraction1 = global_05min/landSurface/landCover/naturalShort/rfrac1_short.map +rootFraction2 = global_05min/landSurface/landCover/naturalShort/rfrac2_short.map +maxRootDepth = 0.5 +# Note: The maxRootDepth is not used for non irrigated land cover type. +# +# Parameters for the Arno's scheme: +arnoBeta = None +# If arnoBeta is defined, the soil water capacity distribution is based on this. +# If arnoBeta is NOT defined, maxSoilDepthFrac must be defined such that arnoBeta will be calculated based on maxSoilDepthFrac and minSoilDepthFrac. + +# initial conditions: +interceptStorIni = global_05min/initialConditions/interceptStor_grassland_1999-12-31.map +snowCoverSWEIni = global_05min/initialConditions/snowCoverSWE_grassland_1999-12-31.map +snowFreeWaterIni = global_05min/initialConditions/snowFreeWater_grassland_1999-12-31.map +topWaterLayerIni = global_05min/initialConditions/topWaterLayer_grassland_1999-12-31.map +storUppIni = global_05min/initialConditions/storUpp_grassland_1999-12-31.map +storLowIni = global_05min/initialConditions/storLow_grassland_1999-12-31.map +interflowIni = global_05min/initialConditions/interflow_grassland_1999-12-31.map + + +[irrPaddyOptions] + +name = irrPaddy +debugWaterBalance = True + +# snow module properties +snowModuleType = Simple +freezingT = 0.0 +degreeDayFactor = 0.0025 +snowWaterHoldingCap = 0.1 +refreezingCoeff = 0.05 +# +landCoverMapsNC = None +# If NC file is not provided, we have to provide the following values: +fracVegCover = global_05min/landSurface/landCover/irrPaddy/fractionPaddy.map +minSoilDepthFrac = global_30min/landSurface/landCover/irrPaddy/minf_paddy_permafrost.map +maxSoilDepthFrac = global_30min/landSurface/landCover/irrPaddy/maxf_paddy.map +rootFraction1 = global_30min/landSurface/landCover/irrPaddy/rfrac1_paddy.map +rootFraction2 = global_30min/landSurface/landCover/irrPaddy/rfrac2_paddy.map +maxRootDepth = 0.5 +# +# Parameters for the Arno's scheme: +arnoBeta = None +# If arnoBeta is defined, the soil water capacity distribution is based on this. +# If arnoBeta is NOT defined, maxSoilDepthFrac must be defined such that arnoBeta will be calculated based on maxSoilDepthFrac and minSoilDepthFrac. +# +# other paramater values +minTopWaterLayer = 0.05 +minCropKC = 0.2 +cropDeplFactor = 0.2 +minInterceptCap = 0.0002 + +cropCoefficientNC = global_30min/landSurface/landCover/irrPaddy/Global_CropCoefficientKc-IrrPaddy_30min.nc + +# initial conditions: +interceptStorIni = global_05min/initialConditions/interceptStor_irrPaddy_1999-12-31.map +snowCoverSWEIni = global_05min/initialConditions/snowCoverSWE_irrPaddy_1999-12-31.map +snowFreeWaterIni = global_05min/initialConditions/snowFreeWater_irrPaddy_1999-12-31.map +topWaterLayerIni = global_05min/initialConditions/topWaterLayer_irrPaddy_1999-12-31.map +storUppIni = global_05min/initialConditions/storUpp_irrPaddy_1999-12-31.map +storLowIni = global_05min/initialConditions/storLow_irrPaddy_1999-12-31.map +interflowIni = global_05min/initialConditions/interflow_irrPaddy_1999-12-31.map + + +[irrNonPaddyOptions] + +name = irrNonPaddy +debugWaterBalance = True + +# snow module properties +snowModuleType = Simple +freezingT = 0.0 +degreeDayFactor = 0.0025 +snowWaterHoldingCap = 0.1 +refreezingCoeff = 0.05 +# +landCoverMapsNC = None +# If NC file is not provided, we have to provide the following values: +fracVegCover = global_05min/landSurface/landCover/irrNonPaddy/fractionNonPaddy.map +minSoilDepthFrac = global_30min/landSurface/landCover/irrNonPaddy/minf_nonpaddy_permafrost.map +maxSoilDepthFrac = global_30min/landSurface/landCover/irrNonPaddy/maxf_nonpaddy.map +rootFraction1 = global_30min/landSurface/landCover/irrNonPaddy/rfrac1_nonpaddy.map +rootFraction2 = global_30min/landSurface/landCover/irrNonPaddy/rfrac2_nonpaddy.map +maxRootDepth = 1.0 +# +# Parameters for the Arno's scheme: +arnoBeta = None +# If arnoBeta is defined, the soil water capacity distribution is based on this. +# If arnoBeta is NOT defined, maxSoilDepthFrac must be defined such that arnoBeta will be calculated based on maxSoilDepthFrac and minSoilDepthFrac. +# +# other paramater values +minTopWaterLayer = 0.0 +minCropKC = 0.2 +cropDeplFactor = 0.5 +minInterceptCap = 0.0002 + +cropCoefficientNC = global_30min/landSurface/landCover/irrNonPaddy/Global_CropCoefficientKc-IrrNonPaddy_30min.nc + +# initial conditions: +interceptStorIni = global_05min/initialConditions/interceptStor_irrNonPaddy_1999-12-31.map +snowCoverSWEIni = global_05min/initialConditions/snowCoverSWE_irrNonPaddy_1999-12-31.map +snowFreeWaterIni = global_05min/initialConditions/snowFreeWater_irrNonPaddy_1999-12-31.map +topWaterLayerIni = global_05min/initialConditions/topWaterLayer_irrNonPaddy_1999-12-31.map +storUppIni = global_05min/initialConditions/storUpp_irrNonPaddy_1999-12-31.map +storLowIni = global_05min/initialConditions/storLow_irrNonPaddy_1999-12-31.map +interflowIni = global_05min/initialConditions/interflow_irrNonPaddy_1999-12-31.map + + + + +[groundwaterOptions] + +debugWaterBalance = True + +groundwaterPropertiesNC = global_05min/groundwater/properties/groundwaterProperties5ArcMin.nc +# The file will containspecificYield (m3.m-3), kSatAquifer, recessionCoeff (day-1) +# +# - minimum value for groundwater recession coefficient (day-1) +minRecessionCoeff = 1.0e-4 + +# some options for constraining groundwater abstraction +limitFossilGroundWaterAbstraction = True +estimateOfRenewableGroundwaterCapacity = 0.0 +estimateOfTotalGroundwaterThickness = global_05min/groundwater/aquifer_thickness_estimate/thickness_05min.map +# minimum and maximum total groundwater thickness +minimumTotalGroundwaterThickness = 100. +maximumTotalGroundwaterThickness = None + +# annual pumping capacity for each region (unit: billion cubic meter per year), should be given in a netcdf file +pumpingCapacityNC = global_30min/waterUse/groundwater_pumping_capacity/regional_abstraction_limit.nc + +# initial conditions: +storGroundwaterIni = global_05min/initialConditions/storGroundwater_1999-12-31.map +storGroundwaterFossilIni = global_05min/initialConditions/storGroundwaterFossil_1999-12-31.map +# +# additional initial conditions for pumping behaviors +avgNonFossilGroundwaterAllocationLongIni = global_05min/initialConditions/avgNonFossilGroundwaterAllocationLong_1999-12-31.map +avgNonFossilGroundwaterAllocationShortIni = global_05min/initialConditions/avgNonFossilGroundwaterAllocationShort_1999-12-31.map +avgTotalGroundwaterAbstractionIni = global_05min/initialConditions/avgTotalGroundwaterAbstraction_1999-12-31.map +avgTotalGroundwaterAllocationLongIni = global_05min/initialConditions/avgTotalGroundwaterAllocationLong_1999-12-31.map +avgTotalGroundwaterAllocationShortIni = global_05min/initialConditions/avgTotalGroundwaterAllocationShort_1999-12-31.map +# +# additional initial conditions (needed only for MODFLOW run) +relativeGroundwaterHeadIni = global_05min/initialConditions/relativeGroundwaterHead_1999-12-31.map +baseflowIni = global_05min/initialConditions/baseflow_1999-12-31.map + +# zonal IDs (scale) at which zonal allocation of groundwater is performed +allocationSegmentsForGroundwater = global_05min/waterUse/abstraction_zones/abstraction_zones_30min_05min.map + +# assumption for the minimum transmissivity value (unit: m2/day) that can be extracted (via capillary rise and/or groundwater abstraction) - optional +minTransimissivityForProductiveAquifer = 50.0 +# - if None, abstraction and/or capillary rise can always occur everywhere and unlimited + + + +[routingOptions] + +debugWaterBalance = True + +# drainage direction map +lddMap = global_05min/routing/ldd_and_cell_area/lddsound_05min.map + +# cell area (unit: m2) +cellAreaMap = global_05min/routing/ldd_and_cell_area/cellsize05min.correct.map + +# routing method: #accuTravelTime or kinematicWave +routingMethod = accuTravelTime + +# manning coefficient +manningsN = 0.04 + +# Option for flood plain simulation +dynamicFloodPlain = False + +# manning coefficient for floodplain +floodplainManningsN = 0.07 + + +# channel gradient +gradient = global_05min/routing/channel_properties/channel_gradient.map + +# constant channel depth +constantChannelDepth = global_05min/routing/channel_properties/bankfull_depth.map + +# constant channel width (optional) +constantChannelWidth = global_05min/routing/channel_properties/bankfull_width.map + +# minimum channel width (optional) +minimumChannelWidth = global_05min/routing/channel_properties/bankfull_width.map + +# channel properties for flooding +bankfullCapacity = None +# - If None, it will be estimated from (bankfull) channel depth (m) and width (m) + + +# files for relative elevation (above minimum dem) +relativeElevationFiles = global_05min/routing/channel_properties/dzRel%04d.map +relativeElevationLevels = 0.0, 0.01, 0.05, 0.10, 0.20, 0.30, 0.40, 0.50, 0.60, 0.70, 0.80, 0.90, 1.00 + + +# composite crop factors for WaterBodies: +cropCoefficientWaterNC = global_30min/routing/kc_surface_water/cropCoefficientForOpenWater.nc +minCropWaterKC = 1.00 + + +# lake and reservoir parameters +waterBodyInputNC = global_05min/routing/surface_water_bodies/waterBodies5ArcMin.nc +onlyNaturalWaterBodies = False + + +# initial conditions: +waterBodyStorageIni = global_05min/initialConditions/waterBodyStorage_1999-12-31.map +channelStorageIni = global_05min/initialConditions/channelStorage_1999-12-31.map +readAvlChannelStorageIni = global_05min/initialConditions/readAvlChannelStorage_1999-12-31.map +avgDischargeLongIni = global_05min/initialConditions/avgDischargeLong_1999-12-31.map +avgDischargeShortIni = global_05min/initialConditions/avgDischargeShort_1999-12-31.map +m2tDischargeLongIni = global_05min/initialConditions/m2tDischargeLong_1999-12-31.map +avgBaseflowLongIni = global_05min/initialConditions/avgBaseflowLong_1999-12-31.map +riverbedExchangeIni = global_05min/initialConditions/riverbedExchange_1999-12-31.map +# +# initial condition of sub-time step discharge (needed for estimating number of time steps in kinematic wave methods) +subDischargeIni = global_05min/initialConditions/subDischarge_1999-12-31.map +# +avgLakeReservoirInflowShortIni = global_05min/initialConditions/avgLakeReservoirInflowShort_1999-12-31.map +avgLakeReservoirOutflowLongIni = global_05min/initialConditions/avgLakeReservoirOutflowLong_1999-12-31.map +# +# number of days (timesteps) that have been performed for spinning up initial conditions in the routing module (i.e. channelStorageIni, avgDischargeLongIni, avgDischargeShortIni, etc.) +timestepsToAvgDischargeIni = global_05min/initialConditions/timestepsToAvgDischarge_1999-12-31.map +# Note that: +# - maximum number of days (timesteps) to calculate long term average flow values (default: 5 years = 5 * 365 days = 1825) +# - maximum number of days (timesteps) to calculate short term average values (default: 1 month = 1 * 30 days = 30) + + + + +[reportingOptions] + +# output files that will be written in the disk in netcdf files: +# - daily resolution +#outDailyTotNC = temperature,precipitation,totalEvaporation,gwRecharge,totalRunoff,totalGroundwaterAbstraction,discharge,surfaceWaterStorage,interceptStor,snowFreeWater,snowCoverSWE,topWaterLayer,storUppTotal,storLowTotal,storGroundwater,totalWaterStorageThickness,channelStorage,surfaceWaterAbstraction,nonIrrGrossDemand,nonIrrWaterConsumption,irrPaddyWaterWithdrawal,domesticWaterWithdrawal,industryWaterWithdrawal,precipitation_at_irrigation,evaporation_from_irrigation,surfaceWaterStorage,dynamicFracWat,floodVolume,floodDepth,surfaceWaterLevel +outDailyTotNC = temperature,precipitation,totalEvaporation,gwRecharge,totalRunoff,totalGroundwaterAbstraction,discharge,surfaceWaterStorage,interceptStor,snowFreeWater,snowCoverSWE,topWaterLayer,storUppTotal,storLowTotal,storGroundwater,totalWaterStorageThickness,channelStorage,surfaceWaterAbstraction,nonIrrGrossDemand,nonIrrWaterConsumption,irrPaddyWaterWithdrawal,domesticWaterWithdrawal,industryWaterWithdrawal,precipitation_at_irrigation,evaporation_from_irrigation,surfaceWaterStorage,dynamicFracWat,surfaceWaterLevel +# - monthly resolution +outMonthTotNC = None +outMonthAvgNC = None +outMonthEndNC = None +# - annual resolution +outAnnuaTotNC = None +outAnnuaAvgNC = None +outAnnuaEndNC = None +# - monthly and annual maxima +outMonthMaxNC = None +outAnnuaMaxNC = None + +# netcdf format and zlib setup +formatNetCDF = NETCDF4 +zlib = True diff --git a/book/thesis_projects/BSc/2024_Q2_ElineMol_CEG/Drafts/CMIP6/sonoran_desert_05min.map 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