From aedd038341577a2e662272f88001ee615e770cee Mon Sep 17 00:00:00 2001 From: Gregory Lemieux Date: Thu, 4 Jun 2020 16:53:20 -0700 Subject: [PATCH] removing clm4 namelist definition --- .../namelist_definition_clm4_0.xml | 822 ------------------ 1 file changed, 822 deletions(-) delete mode 100644 bld/namelist_files/namelist_definition_clm4_0.xml diff --git a/bld/namelist_files/namelist_definition_clm4_0.xml b/bld/namelist_files/namelist_definition_clm4_0.xml deleted file mode 100644 index b699022f8e..0000000000 --- a/bld/namelist_files/namelist_definition_clm4_0.xml +++ /dev/null @@ -1,822 +0,0 @@ - - - - - - - - - - - -Full pathname of initial conditions file. If blank CLM will startup from -arbitrary initial conditions. - - - -Full pathname of master restart file for a branch run. (only used if RUN_TYPE=branch) -(Set with RUN_REFCASE and RUN_REFDATE) - - - -Full pathname of land fraction data file. - - - -Clumps per processor. - - - -Atmospheric CO2 molar ratio (by volume) only used when co2_type==constant (umol/mol) -(Set by CCSM_CO2_PPMV) - - - -Type of CO2 feedback. - constant = use the input co2_ppmv value - prognostic = use the prognostic value sent from the atmosphere - diagnostic = use the diagnostic value sent from the atmosphere - - - - -Supplemental Nitrogen mode and for what type of vegetation it's turned on for. -In this mode Nitrogen is unlimited rather than prognosed and in general vegetation is -over-productive. It does act as a proxy for fertilization for crops however. - NONE = No vegetation types get supplemental Nitrogen - PROG_CROP_ONLY = Supplemental Nitrogen is only active for prognostic Crops - ALL = Supplemental Nitrogen is active for all vegetation types - - - -If TRUE, separate the vegetated landunit into a crop landunit and a natural vegetation landunit - - - -Number of multiple elevation classes over glacier points. -Normally this is ONLY used when running CESM with the active glacier model. - - - -If TRUE, dynamically change topographic height over glacier points. -Only works when glc_nec is greater than zero. -(EXPERIMENTAL AND NOT FUNCTIONAL!) - - - -Visible and Near-infrared albedo's for glacier ice - - - -Time step (seconds) - - - -Override the start type from the driver: it can only be -set to 3 meaning branch. - - - -Full pathname of land-ice mask data file (on lnd grid). - - - -Full pathname of topography data file. Only required when -land-ice model is active. - - - -Full pathname datafile with plant function type (PFT) constants - - - -Full pathname of time varying PFT data file. This causes the land-use types of -the initial surface dataset to vary over time. - - - -Full pathname of surface data file. - - - -SNICAR (SNow, ICe, and Aerosol Radiative model) optical data file name - - - -SNICAR (SNow, ICe, and Aerosol Radiative model) snow aging data file name - - - -Per file averaging flag. - 'A' (average over history period) - 'I' (instantaneous) - 'X' (maximum over history period) - 'M' (minimum over history period) - - - -Averaging type of output for 1D vector output (when hist_dov2xy is false). - GRID means average all land-units up to the grid-point level - LAND means average all columns up to the land-unit level - COLS means average all PFT's up to the column level - PFTS means report everything on native PFT level - - - -If TRUE, implies output data on a 2D latitude/longitude grid. False means -output in 1D vector format. One setting per history tape series. - - - -If TRUE, indicates do NOT output any default history fields (requires you to use -hist_fincl* to set the exact output fields to use).. - - - -Fields to exclude from history tape series 1. - - - -Fields to exclude from history tape series 2. - - - -Fields to exclude from history tape series 3. - - - -Fields to exclude from history tape series 4. - - - -Fields to exclude from history tape series 5. - - - -Fields to exclude from history tape series 6. - - - -Fields to add to history tape series 1. - - - -Fields to add to history tape series 2. - - - -Fields to add to history tape series 3. - - - -Fields to add to history tape series 4. - - - -Fields to add to history tape series 5. - - - -Fields to add to history tape series 6. - - - -Per tape series maximum number of time samples. - - - -Per tape series history file density (i.e. output precision) - 1=double precision - 2=single precision -Default: 2,2,2,2,2,2 - - - -Per tape series history write frequency. - positive means in time steps - 0=monthly - negative means hours -(i.e. 5 means every 24 time-steps and -24 means every day -Default: 0,-24,-24,-24,-24,-24 - - - -number of segments per clump for decomposition -Default: 20 - - - -Perturbation limit when doing error growth test - - - -If FALSE, don't write any restart files. - - - -Turn urban air conditioning/heating ON or OFF and add wasteheat: - OFF = Air conditioning/heating is OFF in buildings, internal temperature allowed to float freely - ON = Air conditioning/heating is ON in buildings, internal temperature constrained - ON_WASTEHEAT = Air conditioning/heating is ON and waste-heat sent to urban canyon - - - -If TRUE, urban traffic flux will be activated (Currently NOT implemented). - - - -If TRUE, write diagnostic of global radiative temperature written to CLM log file. - - - - - - -SCRIP format grid data file - - - -Flag to pass to the ESMF mapping utility, telling it what kind of large -file support is needed for an output file generated with this grid as -either the source or destination ('none', '64bit_offset' or 'netcdf4'). - - - -Flag to pass to the ESMF mapping utility, telling it what kind of grid -file this is (SCRIP or UGRID). - - - -For UGRID files, flag to pass to the ESMF mapping utility, telling it the -name of the dummy variable that has all of the topology information stored -in its attributes. (Only used if scripgriddata_src_type = UGRID.) - - - - - - -Filename for mksurfdata_map to remap raw data into the output surface dataset - - - -Plant Function Type dataset for mksurfdata - - - -Dataset for percent glacier land-unit for mksurfdata - - - -Dataset for topography used to define urban threshold - - - -Dataset for land topography - - - -Leaf Area Index dataset for mksurfdata - - - -Soil texture dataset for mksurfdata - - - -Soil color dataset for mksurfdata - - - -Soil max fraction dataset for mksurfdata - - - -High resolution land mask/fraction dataset for mksurfdata -(used for glacier_mec land-units) - - - -Type of grid to create for mksurfdata - - - -Grid file at the output resolution for mksurfdata - - - -Text file with filepaths (or list of XML elements) for vegetation fractions -and harvesting for each year to run over for mksurfdata to be able to model -transient land-use change - - - -High resolution topography dataset for mksurfdata -(used for glacier_mec land-units) - - - -Irrigation dataset for mksurfdata - - - -Organic soil dataset for mksurfdata - - - -Lake water dataset for mksurfdata - - - -Wetland dataset for mksurfdata - - - -Urban dataset for mksurfdata - - - -Biogenic Volatile Organic Compounds (VOC) emissions dataset for mksurfdata - - - -If TRUE, output variables in double precision for mksurfdata - - - -If TRUE, ignore other files, and set the output percentage to 100% urban and -zero for other land-use types. - - - -Number of Plant Functional Types (excluding bare-soil) - - - -Plant Function Type index to override global file with for mksurfdata - - - -Plant Function Type fraction to override global file with for mksurfdata - - - -Soil color index to override global file with for mksurfdata - - - -Soil maximum fraction to override global file with for mksurfdata - - - -Soil percent sand to override global file with for mksurfdata - - - -Soil percent clay to override global file with for mksurfdata - - - - - - - -Orography file with surface heights and land area fraction - - - -CLM grid file - - - -CESM domain file - - - -CAM file - - - -Raw topography file - - - -CAM topography file - - - -Number of longitudes to use for a regional grid (for single-point set to 1) - - - -Number of latitudes to use for a regional grid (for single-point set to 1) - - - -Northern edge of the regional grid - - - -Southern edge of the regional grid - - - -Eastern edge of the regional grid - - - -Western edge of the regional grid - - - - - - - -Historical greenhouse gas concentrations from CAM, only used -by getco2_historical.ncl - - - - - - -Aerosol deposition file name (only used for aerdepregrid.ncl) - - - -Full pathname of CLM fraction dataset (only used for mkdatadomain). - - - -Full pathname of CLM grid dataset (only used for mkdatadomain). - - - -Full pathname of output domain dataset (only used for mkdatadomain). - - - -Type of domain file to create (ocean or atmosphere) (only used for mkdatadomain) - - - - - - - -First year to loop over for Nitrogen Deposition data - - - -Last year to loop over for Nitrogen Deposition data - - - -Simulation year that aligns with stream_year_first_ndep value - - - -Filename of input stream data for Nitrogen Deposition - - - -Mapping method from Nitrogen deposition input file to the model resolution - bilinear = bilinear interpolation - nn = nearest neighbor - nnoni = nearest neighbor on the "i" (longitude) axis - nnonj = nearest neighbor on the "j" (latitude) axis - spval = set to special value - copy = copy using the same indices - - - -datm input directory - - -datm output directory - - -Datm logfile name - - - - - - - -Mapping file to go from one resolution/land-mask to another resolution/land-mask - - - -Land mask description for mksurfdata input files - - - -Horizontal grid resolutions for mksurfdata input files - - - - - - - -Check that the resolution and land-mask is valid before continuing. - - - -Shared Socioeconomic Pathway (SSP) and Representative Concentration Pathway (RCP) combination for future scenarios -The form is SSPn-m.m Where n is the SSP number and m.m is RCP radiative forcing at peak or 2100 in W/m^2 -n is just the whole number of the specific SSP scenario. The lower numbers have higher mitigation -- the higher numbers less mitigation, more than one SSP can result in the same RCP forcing -hist means do NOT use a future scenario, just use historical data. - - - -Add a note to the output namelist about the options given to build-namelist - - - -CLM run type. - 'default' use the default type of clm_start type for this configuration - 'cold' is a run from arbitrary initial conditions - 'arb_ic' is a run using initial conditions if provided, OR arbitrary initial conditions if no files can be found - 'startup' is an initial run with initial conditions provided. - 'continue' is a restart run. - 'branch' is a restart run in which properties of the output history files may be changed. - - - -Horizontal resolutions -Note: 0.1x0.1, 0.5x0.5, 5x5min, 10x10min, 3x3min and 0.33x0.33 are only used for CLM tools - - - -Land mask description - - - -Command line argument for setting up your simulation in a mode for faster -throughput. By default turns off some options, and sets up for a lower level -of output. When bgc_mode is some level of prognostic BGC (so NOT Satellite Phenology) -it also sets up for accelerated decomposition. -NOTE: THIS CORRESPONDS DIRECTLY TO THE env_run.xml VARIABLE OF THE SAME NAME. - Set the env_run variable, rather than setting this directly. - - - -General configuration of model version and atmospheric forcing to tune the model to run under. -This sets the model to run with constants that were set to run well under the configuration -of model version and atmospheric forcing. To run well constants would need to be changed -to run with a different type of atmospheric forcing. - - - -If TRUE, irrigation will be active (find surface datasets with active irrigation). - - - -If 1, turn on the MEGAN model for BVOC's (Biogenic Volitile Organic Compounds) - - - -Year to simulate and to provide datasets for (such as surface datasets, initial conditions, aerosol-deposition, Nitrogen deposition rates etc.) -A sim_year of 1000 corresponds to data used for testing only, NOT corresponding to any real datasets. -Most years are only used for clm_tools and there aren't CLM datasets that correspond to them. -CLM datasets exist for years: 1000 (for testing), 1850, and 2000 - - - -Range of years to simulate transitory datasets for (such as dynamic: land-use datasets, aerosol-deposition, Nitrogen deposition rates etc.) -Constant means simulation will be held at a constant year given in sim_year. -A sim_year_range of 1000-1002 or 1000-1004 corresponds to data used for testing only, NOT corresponding to any real datasets. -A sim_year_range that goes beyond 2005 corresponds to historical data until 2005 and then scenario data beyond that point. - - - -Namelist entries to demand be provided on the namelist. - - - -Description of the use case selected. - - - - - - - -Where dry deposition is calculated (from land, atmosphere, or from a table) - - - - -List of chemical constituents that dry deposition will be calculated for - - - - - - - -File containing MEGAN emissions factors. Includes the list of MEGAN compounds that can be -used in the Comp_Name variable on the file. - - - -MEGAN specifier. This is in the form of: Chem-compound = megan_compound(s) -where megan_compound(s) can be the sum of megan compounds with a "+" between them. -In each equation, the item to the left of the equal sign is a CAM chemistry compound, the -items to the right are compounds known to the MEGAN model (single or combinations). -For example, -megan_specifier = 'ISOP = isoprene', - 'C10H16 = pinene_a + carene_3 + thujene_a' - - - -MEGAN mapped isoprene emissions factors switch -If TRUE then use mapped MEGAN emissions factors for isoprene. - - - -List of possible MEGAN compounds to use - (the list used by the simulation is on the megan_factors_file as the Comp_Name) - - - - - -Enable C13 model - - - -Enable C14 model - - -