Changes between Version 14 and Version 15 of Documentation/OrchideeParameters
- Timestamp:
- 2013-03-21T22:29:37+01:00 (11 years ago)
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Documentation/OrchideeParameters
v14 v15 14 14 || DEBUG_INFO || n || [FLAG] || Flag for debug information || This option allows to switch on the output of debug information without recompiling the code. || [-] || 15 15 || FORCING_FILE || forcing_file.nc || [FILE] || Name of file containing the forcing data || This is the name of the file which should be opened for reading the forcing data of the dim0 model. The format of the file has to be netCDF and COADS compliant. || [-] || 16 || HEIGHT_LEV1 || 2.0 || [m] || Height at which T and Q are given || The atmospheric variables (temperature and specific humidity) are measured at a specific level. The height of this level is needed to compute correctly the turbulent transfer coefficients. Look at the description of the forcing DATA for the correct value. || [-] ||17 || HEIGHT_LEVW || 10.0 || [m] || Height at which the wind is given || The height at which wind is needed to compute correctly the turbulent transfer coefficients. || [-] ||18 16 || INTER_LIN || n || [FLAG] || Interpolation IF split is larger than 1 || Choose IF you wish to interpolate linearly. || [-] || 19 17 || LIMIT_EAST || 180. || [Degrees] || Eastern limit of region || Eastern limit of the region we are interested in. Between -180 and +180 degrees The model will use the smalest regions from region specified here and the one of the forcing file. || [-] || … … 41 39 || RELAX_A || 1.0 || [days?] || Time constant of the relaxation layer || The time constant associated to the atmospheric conditions which are going to be computed in the relaxed layer. To avoid too much damping the value should be larger than 1000. || RELAXATION || 42 40 || GET_SLOPE || .FALSE. || [FLAG] || Read slopes from file and do the interpolation || Needed for reading the slopesfile and doing the interpolation. This will be || || 41 || ORCHIDEE_WATCHOUT || n || [FLAG] || ORCHIDEE will write out its forcing to a file || This flag allows to write to a file all the variables which are used to force the land-surface. The file has exactly the same format than a normal off-line forcing and thus this forcing can be used for forcing ORCHIDEE. || || 43 42 || ALLOW_WEATHERGEN || n || [FLAG] || Allow weather generator to create data || This flag allows the forcing-reader to generate synthetic data if the data in the file is too sparse and the temporal resolution would not be enough to run the model. || || 44 43 || SLOPE_NOREINF || 0.5 || [-] || See slope_noreinf above || The slope above which there is no reinfiltration || || … … 48 47 || OBLIQUITY || 23.446 || [Degrees] || Use prescribed values || || ALLOW_WEATHERGEN || 49 48 || PERIHELIE || 102.04 || [-] || Use prescribed values || || ALLOW_WEATHERGEN || 49 || CANOPY_MULTILAYER || n || [FLAG] || Use canopy radiative transfer model with multi-layers || set to TRUE if canopy radiative transfer model is with multiple layers || CANOPY_EXTINCTION || 50 50 || EM_FACTOR_ACETAL || 0., 0.1, 0.1, 0.3, 0.15, 0.1, 0.3, 0.3, 0.3, 0.1, 0.15, 0.025, 0.025 || [ugC/g/h] || Acetaldehyde emissions factor || || DIFFUCO_OK_INCA || 51 51 || EM_FACTOR_FORMIC || 0., 0.01, 0.01, 0.03, 0.015, 0.01, 0.03, 0.03, 0.03, 0.01, 0.015, 0.0025, 0.0025 || [ugC/g/h] || Formic Acid emissions factor || || DIFFUCO_OK_INCA || … … 55 55 || EM_FACTOR_OVOC || 0., 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5 || [ugC/g/h] || OVOC emissions factor || || DIFFUCO_OK_INCA || 56 56 || ISO_ACTIVITY || 0.5, 1.5, 1.5, 0.5 || [-] || Biogenic activity for each age class : isoprene || || DIFFUCO_OK_INCA || 57 || LEAFAGE_OK_INCA || n || [FLAG] || Activate LEAFAGE? || set to TRUE if biogenic emissions calculation takes leaf age into account || DIFFUCO_OK_INCA || 57 58 || METHANOL_ACTIVITY || 1., 1., 0.5, 0.5 || [-] || Isoprene emission factor for each age class : methanol || || DIFFUCO_OK_INCA || 59 || CANOPY_EXTINCTION || n || [FLAG] || Use canopy radiative transfer model? || set to TRUE if canopy radiative transfer model is used for biogenic emissions || DIFFUCO_OK_INCA || 58 60 || EM_FACTOR_ACETIC || 0., 0.002, 0.002, 0.006, 0.003, 0.002, 0.006, 0.006, 0.006, 0.002, 0.003, 0.0005, 0.0005 || [ugC/g/h] || Acetic Acid emissions factor || || DIFFUCO_OK_INCA || 59 61 || EM_FACTOR_ACETONE || 0., 0.29, 0.29, 0.87, 0.43, 0.29, 0.87, 0.87, 0.87, 0.29, 0.43, 0.07, 0.07 || [ugC/g/h] || Acetone emissions factor || || DIFFUCO_OK_INCA || … … 64 66 || EM_FACTOR_ORVOC || 0., 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5, 1.5 || [ugC/g/h] || ORVOC emissions factor || || DIFFUCO_OK_INCA || 65 67 || LARCH || 0., 0.015, 0.015, 0.003, 0.005, 0.005, 0.003, 0.005, 0.003, 0.005, 0.005, 0.008, 0.008 || [-] || Larcher 1991 SAI/LAI ratio || || DIFFUCO_OK_INCA || 68 || NOx_BBG_FERTIL || n || [FLAG] || Calculate NOx emissions with bbg fertilizing effect? || set to TRUE if NOx emissions are calculated with bbg effect Fertil effect of bbg on NOx soil emissions || DIFFUCO_OK_INCA || 69 || NOx_FERTILIZERS_USE || n || [FLAG] || Calculate NOx emissions with fertilizers use? || set to TRUE if NOx emissions are calculated with fertilizers use Fertilizers use effect on NOx soil emissions || DIFFUCO_OK_INCA || 70 || NOx_RAIN_PULSE || n || [FLAG] || Calculate NOx emissions with pulse? || set to TRUE if NOx rain pulse is taken into account || DIFFUCO_OK_INCA || 66 71 || FLOOD_CRI || 2000. || [mm] || Potential height for which all the basin is flooded || || DO_FLOODPLAINS or DO_PONDS || 67 72 || POND_CRI || 2000. || [mm] || Potential height for which all the basin is a pond || || DO_FLOODPLAINS or DO_PONDS || … … 99 104 || CONDVEG_Z0 || 0.15 || [m] || Surface roughness || Surface rougness to be used on the point if a 0-dim version of SECHIBA is used. Look at the description of the forcing data for the correct value. || IMPOSE_AZE || 100 105 || ROUGHHEIGHT || 0.0 || [m] || Height to be added to the height of the first level || ORCHIDEE assumes that the atmospheric level height is counted from the zero wind level. Thus to take into account the roughness of tall vegetation we need to correct this by a certain fraction of the vegetation height. This is called the roughness height in ORCHIDEE talk. || IMPOSE_AZE || 106 || SOILTYPE_CLASSIF || zobler || [-] || Type of classification used for the map of soil types || The classification used in the file that we use here There are three classification supported: FAO (3 soil types), Zobler (7 converted to 3) and USDA (12) || !IMPOSE_VEG || 101 107 || IMPOSE_SOILT || n || [FLAG] || Should the soil type be prescribed ? || This flag allows the user to impose a soil type distribution. It is espacially interesting for 0D simulations. On the globe it does not make too much sense as it imposes the same soil everywhere || IMPOSE_VEG || 102 108 || REINF_SLOPE || 0.1 || [-] || Slope coef for reinfiltration || Determines the reinfiltration ratio in the grid box due to flat areas || IMPOSE_VEG || … … 155 161 || ALB_LEAF_NIR || .00, .20, .22, .22, .22,.22, .22, .22, .22, .30, .30, .30, .30 || [-] || leaf albedo of vegetation type, near infrared albedo || || OK_SECHIBA || 156 162 || ALB_LEAF_VIS || .00, .04, .06, .06, .06,.06, .06, .06, .06, .10, .10, .10, .10 || [-] || leaf albedo of vegetation type, visible albedo || || OK_SECHIBA || 163 || ALMA_OUTPUT || n || [FLAG] || Should the output follow the ALMA convention || If this logical flag is set to true the model will output all its data according to the ALMA convention. It is the recommended way to write data out of ORCHIDEE. || OK_SECHIBA || 157 164 || CDRAG_FROM_GCM || y || [FLAG] || Keep cdrag coefficient from gcm. || Set to .TRUE. if you want q_cdrag coming from GCM (if q_cdrag on initialization is non zero). Keep cdrag coefficient from gcm for latent and sensible heat fluxes. || OK_SECHIBA || 165 || CHECKTIME || n || [FLAG] || ORCHIDEE will print messages on time || This flag permits to print debug messages on the time. || OK_SECHIBA || 166 || CHECK_WATERBAL || FALSE || [FLAG] || Should we check the global water balance || This parameters allows the user to check the integrated water balance at the end of each time step || OK_SECHIBA || 158 167 || CONDVEG_SNOWA || 1.E+20 || [-] || The snow albedo used by SECHIBA || This option allows the user to impose a snow albedo. Default behaviour is to use the model of snow albedo developed by Chalita (1993). || OK_SECHIBA || 159 168 || DEW_VEG_POLY_COEFF || 0.887773, 0.205673, 0.110112, 0.014843, 0.000824, 0.000017 || [-] || coefficients of the polynome of degree 5 for the dew || || OK_SECHIBA || 160 169 || DIFFUCO_LEAFCI || 233. || [ppm] || Initial leaf CO2 level if not found in restart || The initial value of leaf_ci if its value is not found in the restart file. This should only be used if the model is started without a restart file. || OK_SECHIBA || 170 || DIFFUCO_OK_INCA || n || [FLAG] || Activate DIFFUCO_INCA? || set to TRUE if biogenic emissions calculation is to be activated || OK_SECHIBA || 161 171 || DRY_SOIL_HEAT_COND || 0.40 || [W.m^{-2}.K^{-1}] || Dry soil Thermal Conductivity of soils || Values taken from : PIELKE,'MESOSCALE METEOROLOGICAL MODELING',P.384. || OK_SECHIBA || 172 || HYDROL_CWRR || n || [FLAG] || Allows to switch on the multilayer hydrology of CWRR || This flag allows the user to decide if the vertical hydrology should be treated using the multi-layer diffusion scheme adapted from CWRR by Patricia de Rosnay. by default the Choisnel hydrology is used. || OK_SECHIBA || 162 173 || HYDROL_HUMCSTE || 5., .4, .4, 1., .8, .8, 1., 1., .8, 4., 1., 4., 1. || [m] || Root profile || Default values were defined for 4 meters soil depth. For 2 meters soil depth, you may use those ones : 5., .8, .8, 1., .8, .8, 1., 1., .8, 4., 4., 4., 4. || OK_SECHIBA || 163 174 || HYDROL_QSV || 0.0 || || Initial water on canopy if not found in restart || The initial value of moisture on canopy if its value is not found in the restart file. This should only be used if the model is started without a restart file. || OK_SECHIBA || … … 170 181 || KZERO || 0.0, 12.E-5, 12.E-5, 12.e-5, 12.e-5, 25.e-5, 12.e-5,25.e-5, 25.e-5, 30.e-5, 30.e-5, 30.e-5, 30.e-5 || [kg/m^2/s] || A vegetation dependent constant used in the calculation of the surface resistance. || || OK_SECHIBA || 171 182 || LAIMAX || || [m^2/m^2] || Maximum LAI || || OK_SECHIBA || 183 || LONGPRINT || n || [FLAG] || ORCHIDEE will print more messages || This flag permits to print more debug messages in the run. || OK_SECHIBA || 172 184 || MAX_SNOW_AGE || 50. || [days?] || Maximum period of snow aging || || OK_SECHIBA || 173 185 || MIN_WIND || 0.1 || [m/s] || Minimum wind speed || || OK_SECHIBA || 174 186 || NLAI || 20 || [-] || Number of LAI levels || || OK_SECHIBA || 187 || OUTPUT_FILE || sechiba_history.nc || [FILE] || Name of file in which the output is going to be written || This file is going to be created by the model and will contain the output from the model. This file is a truly COADS compliant netCDF file. It will be generated by the hist software from the IOIPSL package. || OK_SECHIBA || 188 || RIVER_ROUTING || n || [FLAG] || Decides if we route the water or not || This flag allows the user to decide if the runoff and drainage should be routed to the ocean and to downstream grid boxes. || OK_SECHIBA || 175 189 || RSTRUCT_CONST || 0.0, 25.0, 25.0, 25.0, 25.0, 25.0, 25.0, 25.0, 25.0, 2.5, 2.0, 2.0, 2.0 || [s/m] || Structural resistance || || OK_SECHIBA || 176 190 || RVEG_PFT || 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1., 1. || [-] || Artificial parameter to increase or decrease canopy resistance. || This parameter is set by PFT. || OK_SECHIBA || 177 191 || SECHIBA_DAY || 0.0 || [days] || Time within the day simulated || This is the time spent simulating the current day. This variable is prognostic as it will trigger all the computations which are only done once a day. || OK_SECHIBA || 192 || SECHIBA_HISTFILE2 || n || [FLAG] || Flag to switch on histfile 2 for SECHIBA (hi-frequency ?) || This Flag switch on the second SECHIBA writing for hi (or low) frequency writing. This second output is optional and not written by default. || OK_SECHIBA || 193 || SECHIBA_reset_time || n || [FLAG] || Option to overrides the time of the restart || This option allows the model to override the time found in the restart file of SECHIBA with the time of the first call. That is the restart time of the GCM. || OK_SECHIBA || 194 || SECHIBA_rest_out || sechiba_rest_out.nc || [FILE] || Name of restart files to be created by SECHIBA || This variable give the name for the restart files. The restart software within IOIPSL will add .nc if needed. || OK_SECHIBA || 178 195 || SLOWPROC_HEIGHT || 0., 30., 30., 20., 20., 20., 15., 15., 15., .5, .6, 1.0, 1.0 || [m] || Height for all vegetation types || The height used in the 0dim mode. The values should be found in the restart file. The new values of height will be computed anyway at the end of the current day. The need for this variable is caused by the fact that the model may stop during a day and thus we have not yet been through the routines which compute the new surface conditions. || OK_SECHIBA || 179 196 || SLOWPROC_HEIGHT || 0., 30., 30., 20., 20., 20., 15., 15., 15., .5, .6, 1., 1. || [m] || prescribed height of vegetation || || OK_SECHIBA || … … 185 202 || WET_SOIL_HEAT_CAPACITY || 3.03e+6 || [J.m^{-3}.K^{-1}] || Wet soil Heat capacity of soils || || OK_SECHIBA || 186 203 || WMAX_VEG || 150., 150., 150., 150., 150., 150., 150.,150., 150., 150., 150., 150., 150. || [kg/m^3] || Maximum field capacity for each of the vegetations (Temporary): max quantity of water || || OK_SECHIBA || 204 || WRITE_STEP || one_day || [seconds] || Frequency in seconds at which to WRITE output || This variables gives the frequency the output of the model should be written into the netCDF file. It does not affect the frequency at which the operations such as averaging are done. That is IF the coding of the calls to histdef are correct ! || OK_SECHIBA || 187 205 || Z0CDRAG_AVE || y || [FLAG] || Average method for z0 || If this flag is set to true (y) then the neutral Cdrag is averaged instead of the log(z0). This should be the prefered option. We still wish to keep the other option so we can come back if needed. If this is || OK_SECHIBA || 188 206 || ALB_DEADLEAF || 0.12, 0.35 || [-] || albedo of dead leaves, VIS+NIR || || OK_SECHIBA || … … 201 219 || HYDROL_SNOW_NOBIO || 0.0 || [m] || Initial snow amount on ice, lakes, etc. if not found in restart || The initial value of snow if its value is not found in the restart file. This should only be used if the model is started without a restart file. || OK_SECHIBA || 202 220 || HYDROL_SNOW_NOBIO_AGE || 0.0 || [days] || Initial snow age on ice, lakes, etc. if not found in restart || The initial value of snow age if its value is not found in the restart file. This should only be used if the model is started without a restart file. || OK_SECHIBA || 221 || HYDROL_SOIL_DEPTH || 4./ 2. (if HYDROL_CWRR) || [m] || Total depth of soil reservoir || By default, ORCHIDEE uses the AR5 configuration (Choisnel-4m). || OK_SECHIBA || 203 222 || MIN_VEGFRAC || 0.001 || [-] || Minimal fraction of mesh a vegetation type can occupy || || OK_SECHIBA || 204 223 || NIR_DRY || 0.48, 0.44, 0.40, 0.36, 0.32, 0.28, 0.24, 0.20, 0.55 || [-] || The correspondance table for the soil color numbers and their albedo || || OK_SECHIBA || … … 206 225 || SECHIBA_QSINT || 0.1 || [m] || Interception reservoir coefficient || Transforms leaf area index into size of interception reservoir for slowproc_derivvar or stomate || OK_SECHIBA || 207 226 || SECHIBA_QSINT || 0.1 || [m] || Interception reservoir coefficient || Transforms leaf area index into size of interception reservoir for slowproc_derivvar or stomate || OK_SECHIBA || 227 || SECHIBA_restart_in || NONE || [FILE] || Name of restart to READ for initial conditions || This is the name of the file which will be opened to extract the initial values of all prognostic values of the model. This has to be a netCDF file. Not truly COADS compliant. NONE will mean that no restart file is to be expected. || OK_SECHIBA || 208 228 || SNOW_DENSITY || 330.0 || [-] || Snow density for the soil thermodynamics || || OK_SECHIBA || 209 229 || STEMPDIAG_BID || 280. || [K] || only needed for an initial LAI if there is no restart file || || OK_SECHIBA || 230 || STOMATE_OK_CO2 || n || [FLAG] || Activate CO2? || set to TRUE if photosynthesis is to be activated || OK_SECHIBA || 231 || STOMATE_WATCHOUT || n || [FLAG] || STOMATE does minimum service || set to TRUE if you want STOMATE to read and write its start files and keep track of longer-term biometeorological variables. This is useful if OK_STOMATE is not set, but if you intend to activate STOMATE later. In that case, this run can serve as a spinup for longer-term biometeorological variables. || OK_SECHIBA || 210 232 || TCST_SNOWA || 5.0 || [days] || Time constant of the albedo decay of snow || || OK_SECHIBA || 211 233 || VIS_DRY || 0.24, 0.22, 0.20, 0.18, 0.16, 0.14, 0.12, 0.10, 0.27 || [-] || The correspondance table for the soil color numbers and their albedo || || OK_SECHIBA || … … 218 240 || SNOW_HEAT_COND || 0.3 || [W.m^{-2}.K^{-1}] || Thermal Conductivity of snow || || OK_SECHIBA || 219 241 || VIS_WET || 0.12, 0.11, 0.10, 0.09, 0.08, 0.07, 0.06, 0.05, 0.15 || [-] || The correspondance table for the soil color numbers and their albedo || || OK_SECHIBA || 242 || SECHIBA_HISTLEVEL || 5 || [-] || SECHIBA history output level (0..10) || Chooses the list of variables in the history file. Values between 0: nothing is written; 10: everything is written are available More details can be found on the web under documentation. || OK_SECHIBA and HF || 220 243 || CHOISNEL_DIFF_EXP || 1.5 || [-] || The exponential in the diffusion law || || OK_SECHIBA and .NOT.(HYDROL_CWRR) || 221 244 || CHOISNEL_DIFF_MAX || 0.1 || [kg/m^2/dt] || Diffusion constant for the fast regime || || OK_SECHIBA and .NOT.(HYDROL_CWRR) || … … 231 254 || VCMAX_FIX || 0., 40., 50., 30., 35., 40.,30., 40., 35., 60., 60., 70., 70. || [micromol/m^2/s] || values used for vcmax when STOMATE is not activated || || OK_SECHIBA and NOT(OK_STOMATE) || 232 255 || VJMAX_FIX || 0., 80., 100., 60., 70., 80., 60., 80., 70., 120., 120., 140., 140. || [micromol/m^2/s] || values used for vjmax when STOMATE is not activated || || OK_SECHIBA and NOT(OK_STOMATE) || 256 || STOMATE_OK_STOMATE || n || [FLAG] || Activate STOMATE? || set to TRUE if STOMATE is to be activated || OK_SECHIBA and OK_CO2 || 233 257 || NATURAL || y, y, y, y, y, y, y, y, y, y, y, n, n || [BOOLEAN] || natural? || || OK_SECHIBA, OK_STOMATE || 234 258 || MAXMASS_GLACIER || 3000. || [kg/m^2] || The maximum mass of a glacier || || OK_SECHIBA or HYDROL_CWRR || … … 239 263 || AGRICULTURE || y || [FLAG] || agriculture allowed? || With this variable, you can determine whether agriculture is allowed || OK_SECHIBA or OK_STOMATE || 240 264 || EXT_COEFF || .5, .5, .5, .5, .5, .5, .5, .5, .5, .5, .5, .5, .5 || [-] || extinction coefficient of the Monsi&Seaki relationship (1953) || || OK_SECHIBA or OK_STOMATE || 265 || IMPOSE_PARAM || y || [FLAG] || Do you impose the values of the parameters? || This flag can deactivate the reading of some parameters. || OK_SECHIBA or OK_STOMATE || 241 266 || IMPOSE_VEG || n || [FLAG] || Should the vegetation be prescribed ? || This flag allows the user to impose a vegetation distribution and its characteristics. It is espacially interesting for 0D simulations. On the globe it does not make too much sense as it imposes the same vegetation everywhere || OK_SECHIBA or OK_STOMATE || 242 267 || IS_C4 || n, n, n, n, n, n, n, n, n, n, n, y, n, y || [BOOLEAN] || flag for C4 vegetation types || || OK_SECHIBA or OK_STOMATE || 243 268 || LAI_MAP || n || [FLAG] || Read the LAI map || It is possible to read a 12 month LAI map which will then be interpolated to daily values as needed. || OK_SECHIBA or OK_STOMATE || 244 269 || LAND_USE || y || [FLAG] || Read a land_use vegetation map || pft values are needed, max time axis is 293 || OK_SECHIBA or OK_STOMATE || 270 || NVM || 13 || [-] || number of PFTs || The number of vegetation types define by the user || OK_SECHIBA or OK_STOMATE || 245 271 || PFT_NAME || bare ground, tropical broad-leaved evergreen, tropical broad-leaved raingreen, || [-] || Name of a PFT || the user can name the new PFTs he/she introducing for new species || OK_SECHIBA or OK_STOMATE || 246 272 || PFT_TO_MTC || 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 || [-] || correspondance array linking a PFT to MTC || || OK_SECHIBA or OK_STOMATE || … … 300 326 || STOMATE_FORCING_MEMSIZE || 50 || [MegaBytes] || Size of STOMATE forcing data in memory || This variable determines how many forcing states will be kept in memory. Must be a compromise between memory use and frequeny of disk access. || OK_STOMATE || 301 327 || STOMATE_FORCING_NAME || NONE || [FILE] || Name of STOMATE's forcing file || Name that will be given to STOMATE's offline forcing file Compatible with Nicolas Viovy's driver || OK_STOMATE || 328 || STOMATE_HIST_DT || 10. || [days] || STOMATE history time step || Time step of the STOMATE history file || OK_STOMATE || 329 || STOMATE_HISTLEVEL || 10 || [-] || STOMATE history output level (0..10) || 0: nothing is written; 10: everything is written || OK_STOMATE || 330 || STOMATE_IPCC_HIST_DT || 0. || [days] || STOMATE IPCC history time step || Time step of the STOMATE IPCC history file || OK_STOMATE || 331 || STOMATE_IPCC_OUTPUT_FILE || stomate_ipcc_history.nc || [FILE] || Name of file in which STOMATE's output is going to be written || This file is going to be created by the model and will contain the output from the model. This file is a truly COADS compliant netCDF file. It will be generated by the hist software from the IOIPSL package. || OK_STOMATE || 332 || STOMATE_OK_DGVM || n || [FLAG] || Activate DGVM? || set to TRUE if DGVM is to be activated || OK_STOMATE || 333 || STOMATE_OUTPUT_FILE || stomate_history.nc || [FILE] || Name of file in which STOMATE's output is going to be written || This file is going to be created by the model and will contain the output from the model. This file is a truly COADS compliant netCDF file. It will be generated by the hist software from the IOIPSL package. || OK_STOMATE || 302 334 || TAU_FRUIT || undef, 90., 90., 90., 90., 90., 90., 90., 90., undef, undef, undef, undef || [days] || fruit lifetime || || OK_STOMATE || 303 335 || TAU_SAP || undef, 730., 730., 730., 730., 730., 730., 730., 730., undef, undef, undef, undef || [days] || sapwood -> heartwood conversion time || || OK_STOMATE || … … 442 474 || VMAX_OFFSET || 0.3 || [-] || offset (minimum relative vcmax) || offset (minimum vcmax/vmax_opt) || OK_STOMATE || 443 475 || Z_DECOMP || 0.2 || [m] || scaling depth for soil activity || || OK_STOMATE || 476 || DT_WATCHOUT || dt || [seconds] || ORCHIDEE will write out with this frequency || This flag indicates the frequency of the write of the variables. || ORCHIDEE_WATCHOUT || 477 || WATCHOUT_FILE || orchidee_watchout.nc || [FILE] || Filenane for the ORCHIDEE forcing file || This is the name of the file in which the forcing used here will be written for later use. || ORCHIDEE_WATCHOUT || 444 478 || RIVER_DESC_FILE || river_desc.txt || [FILE] || Filename in which we write the description of the rivers. If suffix is ".nc" a netCDF file is created || File name where we will write the information. If the suffix is ".nc" a netCDF file is generated. Else a simple text file will contain some information. The netCDF file is valuable for post-processing the || RIVER_DESC || 445 479 || DO_FLOODINFILT || FALSE || [FLAG] || Should floodplains reinfiltrate into the soil || This parameters allows the user to ask the model to take into account the flood plains reinfiltration into the soil moisture. It then can go back to the slow and fast reservoirs || RIVER_ROUTING || … … 455 489 || STREAM_TCST || FALSE || [days] || Time constant for the stream reservoir || This parameters allows the user to fix the time constant (in days) of the stream reservoir in order to get better river flows for particular regions. || RIVER_ROUTING || 456 490 || SWAMP_CST || 0.2 || [-] || Fraction of the river that flows back to swamps || This parameters allows the user to fix the fraction of the river transport that flows to swamps || RIVER_ROUTING || 491 || DO_FLOODPLAINS || n || [FLAG] || Should we include floodplains || This parameters allows the user to ask the model to take into account the flood plains and return the water into the soil moisture. It then can go back to the atmopshere. This tried to simulate internal deltas of rivers. || RIVER_ROUTING || 492 || DO_IRRIGATION || n || [FLAG] || Should we compute an irrigation flux || This parameters allows the user to ask the model to compute an irigation flux. This performed for the on very simple hypothesis. The idea is to have a good map of irrigated areas and a simple function which estimates the need to irrigate. || RIVER_ROUTING || 457 493 || FAST_TCST || FALSE || [days] || Time constant for the fast reservoir || This parameters allows the user to fix the time constant (in days) of the fast reservoir in order to get better river flows for particular regions. || RIVER_ROUTING || 458 494 || SLOW_TCST || FALSE || [days] || Time constant for the slow reservoir || This parameters allows the user to fix the time constant (in days) of the slow reservoir in order to get better river flows for particular regions. || RIVER_ROUTING || 495 || SECHIBA_HISTLEVEL2 || 1 || [-] || SECHIBA history 2 output level (0..10) || Chooses the list of variables in the history file. Values between 0: nothing is written; 10: everything is written are available More details can be found on the web under documentation. web under documentation. First level contains all ORCHIDEE outputs. || SECHIBA_HISTFILE2 || 496 || SECHIBA_OUTPUT_FILE2 || sechiba_out_2.nc || [FILE] || Name of file in which the output number 2 is going to be written || This file is going to be created by the model and will contain the output 2 from the model. || SECHIBA_HISTFILE2 || 497 || WRITE_STEP2 || 1800.0 || [seconds] || Frequency in seconds at which to WRITE output || This variables gives the frequency the output 2 of the model should be written into the netCDF file. It does not affect the frequency at which the operations such as averaging are done. That is IF the coding of the calls to histdef are correct ! || SECHIBA_HISTFILE2 || 459 498 || EPS_CARBON || 0.01 || [%] || Allowed error on carbon stock || || SPINUP_ANALYTIC || 499 || STOMATE_RESTART_FILEIN || NONE || [FILE] || Name of restart to READ for initial conditions of STOMATE || This is the name of the file which will be opened to extract the initial values of all prognostic values of STOMATE. || STOMATE_OK_STOMATE or STOMATE_WATCHOUT || 500 || STOMATE_RESTART_FILEOUT || stomate_restart.nc || [FILE] || Name of restart files to be created by STOMATE || This is the name of the file which will be opened to write the final values of all prognostic values of STOMATE. || STOMATE_OK_STOMATE or STOMATE_WATCHOUT || 501