[4979] | 1 | #************************************************************************** |
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| 2 | # Suggested parameter set up for ORCHIDEE |
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[396] | 3 | # |
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[3528] | 4 | # See all optional parameters in modipsl/modeles/ORCHIDEE/orchidee.default |
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[4979] | 5 | # |
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| 6 | # Note when running with libIGCM, variables set here to _AUTOBLOCKER_ can |
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| 7 | # not be changed in run.def otherwise the simulation will stop. Variables |
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| 8 | # set to _AUTO_ can be changed from the comp.card but they can also be |
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| 9 | # changed directly in the run.def. A value set in run.def can never be |
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| 10 | # changed again by libIGCM. |
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[793] | 11 | #************************************************************************** |
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[2410] | 12 | |
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[4979] | 13 | |
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| 14 | # Parameters related to the restart file and the start date |
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[793] | 15 | #************************************************************************** |
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[4979] | 16 | # Name of restart file for sechiba part of the model |
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| 17 | # (default NONE) |
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[2410] | 18 | SECHIBA_restart_in = _AUTOBLOCKER_ |
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[793] | 19 | |
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[4979] | 20 | # Name of restart file for stomate part of the model |
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| 21 | # (default NONE) |
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[2410] | 22 | STOMATE_RESTART_FILEIN = _AUTOBLOCKER_ |
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[793] | 23 | |
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[4979] | 24 | |
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| 25 | # Parameters related to the diagnostic output files |
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| 26 | #************************************************************************** |
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[2410] | 27 | # Use XIOS for writing diagnostics file |
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[4979] | 28 | # (default y) |
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| 29 | # All IOIPSL output are deactivated if XIOS_ORCHIDEE_OK=y |
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| 30 | XIOS_ORCHIDEE_OK = y |
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[793] | 31 | |
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| 32 | |
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[4979] | 33 | # Parameters related to debugging and error checking |
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| 34 | #************************************************************************** |
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| 35 | # Mass balance and surface area checks |
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| 36 | # 1 - is recommended when running global long-term simulations. |
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| 37 | # Under this option, mass and area conservation are checked for all |
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| 38 | # biogeochemical processes but only at the highest level thus stomate.f90 |
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| 39 | # and stomate_lpj.f90. Although these checks are not very expensive in terms |
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| 40 | # of computer time, skipping the numerous lower level checks is expected to |
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| 41 | # save some time. Under this option the mass balance error is only written |
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| 42 | # to the history file. No information is provided in which subroutine the |
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| 43 | # problem occurred. |
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| 44 | # 2 - is recommended when developing and testing the model. Now the mass |
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| 45 | # balance is explicitly checked in stomate.f90, stomate_lpj.f90 and all |
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| 46 | # its subroutines. Under this option the mass balance error is written to |
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| 47 | # the history file and if the mass balance is not closed, the warning |
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| 48 | # message will indicate in which subroutine the problem likely |
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| 49 | # originated. |
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| 50 | # 3 - is recommended when having a problem with mass balance closure. The |
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| 51 | # mass balance is explicitly checked in stomate.f90, stomate_lpj.f90 and all |
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| 52 | # its subroutines. If a mass balance occurs, the model is stopped. |
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| 53 | # (default) |
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[5922] | 54 | ERR_ACT = 1 |
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[4979] | 55 | |
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| 56 | # If the model crashes and it is not clear in which subroutine the crash |
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| 57 | # occurs one could increase the print level for text output in out_orchidee_* |
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[3430] | 58 | # PRINTLEV = 1 : some output in initialization phase |
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| 59 | # PRINTLEV = 2 : more output in initialization phase and printing of new date |
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| 60 | # PRINTLEV = 3, 4,.. : more output also at each timestep |
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[4979] | 61 | # (default 2) |
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[4173] | 62 | PRINTLEV=2 |
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[3430] | 63 | |
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[4979] | 64 | # If the model crashes on an ipslerr there is a fair change that the pixel and |
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| 65 | # PFT where the crash occur will be printed in the out_orchidee_* file. Try to |
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| 66 | # re-run the model for a single pixel or a small region (for example, |
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| 67 | # 3 by 3). LIMIT_EAST, LIMIT_NORTH, LIMIT_SOUTH and LIMIT_WEST should |
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| 68 | # be set in the run.def |
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| 69 | |
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| 70 | # If it is known in which subroutine the model crashes, the local print level |
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| 71 | # of that subroutine could be increased. Additional write statements will then |
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| 72 | # be activated. These write statements print the values of specific variables. |
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| 73 | # (default 2) |
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| 74 | #PRINTLEV_sapiens_lcchange = 4 |
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| 75 | |
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| 76 | # When a local print level is set, the grid and pft number for which the |
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| 77 | # values needs to written should be set. This setting reduces reduces |
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| 78 | # the size and enhances the readability of the out_orchidee_* files. |
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| 79 | TEST_GRID = 1 |
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| 80 | TEST_PFT = 2 |
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| 81 | |
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| 82 | |
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[2410] | 83 | # Hydrology parameters |
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| 84 | #************************************************************************** |
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[4979] | 85 | # Activate river routing. This version has not yet been tested with river routing. |
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| 86 | # (default y) |
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| 87 | RIVER_ROUTING = y |
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[793] | 88 | |
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[3528] | 89 | # Activate creation of river_desc.nc file |
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[4979] | 90 | # RIVER_DESC will be activated only the first execution in the simulation |
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[3528] | 91 | RIVER_DESC = _AUTO_ |
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| 92 | |
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[4979] | 93 | # SOILTYPE_CLASSIF : Type of classification used for the map of soil types |
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| 94 | # (default zobler) |
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[3288] | 95 | SOILTYPE_CLASSIF = zobler |
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[3015] | 96 | |
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[3093] | 97 | |
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[4979] | 98 | # Parameters related to vegetation map |
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[2410] | 99 | #************************************************************************** |
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[4979] | 100 | # Update vegetation frequency |
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| 101 | # (default 0Y) |
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| 102 | VEGET_UPDATE = _AUTO_ |
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[793] | 103 | |
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[4979] | 104 | # Read lai map |
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| 105 | # (default n) |
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| 106 | LAI_MAP = _AUTO_ : DEFAULT = n |
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[793] | 107 | |
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[4979] | 108 | # Prescribed vegetation |
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| 109 | # (default n) |
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| 110 | IMPOSE_VEG = n |
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[793] | 111 | |
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| 112 | |
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[4979] | 113 | # Parameters related to surface and thermal physical properties |
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| 114 | #************************************************************************ |
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| 115 | # ROUGH_DYN : Account for a dynamic roughness height (activation of Su et |
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| 116 | # al. parametrization) |
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| 117 | # (default y) |
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| 118 | ROUGH_DYN = y |
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[3093] | 119 | |
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[4979] | 120 | # OK_FREEZE : Activate the complet soil freezing scheme |
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| 121 | # (default y) |
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| 122 | OK_FREEZE = y |
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[3093] | 123 | |
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[4979] | 124 | # OK_EXPLICITSNOW : Activate explict snow scheme |
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| 125 | # (default y) |
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| 126 | OK_EXPLICITSNOW = y |
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[3418] | 127 | |
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[4979] | 128 | # Controls several settings related to the energy budget and water stress. |
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| 129 | # 1 - DEFAULT uses the enerbil module in combination with the hydraulic |
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| 130 | # architecture (ok_hydrol_arch and ok_gs_feedback true, while |
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| 131 | # ok_mleb and ok_impose_canopy_structure are set to false). |
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| 132 | # 2 - option to use enerbil module and original water stress |
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| 133 | # (not hydraulic architecture) |
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| 134 | # 3 - The energy budget is calculated using the multi-layer energy scheme |
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| 135 | # with a single layer: ok_hydrol_arch, ok_gs_feedback, ok_impose_canopy_structure |
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| 136 | # and and ok_mleb all TRUE, but the energy budget is calculated for a single |
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| 137 | # layer (jnlvls=1,jnlvls_under=0,jnlvls_canopy=1,jnlvls_over=0). No mleb output, |
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| 138 | # ok_mleb_history_file is set to FALSE. |
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| 139 | # 4 - multi-layer energy budget: ok_hydrol_arch, ok_gs_feedback and ok_mleb all TRUE. |
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| 140 | # ok_impose_canopy_structure is False, and the energy budget is calculated for |
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| 141 | # multiple layers (jnlvls=29,jnlvls_under=10,jnlvls_canopy=10,jnlvls_over=9). |
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| 142 | # No mleb output, ok_mleb_history_file is set to FALSE. |
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| 143 | # 5 - user specific: user specific settings for these controls and layers will need |
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| 144 | # to be defined in the run.def by the user. |
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| 145 | ENERGY_CONTROL=1 |
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[3418] | 146 | |
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[4979] | 147 | # Carbon related parameters |
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| 148 | #************************************************************************** |
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| 149 | # Analytic spinup |
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| 150 | # (default n) |
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| 151 | SPINUP_ANALYTIC = n |
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| 152 | SPINUP_PERIOD = 10 |
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[3418] | 153 | |
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[4979] | 154 | # Activate Stomate component |
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| 155 | # (default y) |
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| 156 | STOMATE_OK_STOMATE = _AUTOBLOCKER_ |
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[3418] | 157 | |
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[4979] | 158 | # As an alternative to DO_WOOD_HARVEST forest management can be accounted |
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| 159 | # for. All forest will be managed by the same strategy unless a map is read |
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| 160 | # FM = 1 is unmanaged, FM = 2 is a thin and fell strategy, FM = 3 is a |
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| 161 | # coppice strategy and FM = 4 is a short rotation coppice strategy. |
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| 162 | # (default 2) |
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| 163 | FOREST_MANAGED_FORCED=2 |
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[3418] | 164 | |
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[3506] | 165 | |
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[4173] | 166 | # Parameters related to nitrogen cycle |
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| 167 | #************************************************************************** |
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[4979] | 168 | # Update nitrogen input maps |
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| 169 | # (default 0Y) |
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[4173] | 170 | NINPUT_UPDATE = _AUTO_ |
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| 171 | |
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| 172 | # Impose the CN ratio of leaves |
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| 173 | STOMATE_IMPOSE_CN = _AUTO_ |
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| 174 | |
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[4979] | 175 | # Set STOMATE_READ_CN=y to read cnleaf_map.nc file if STOMATE_IMPOSE_CN=y |
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[4177] | 176 | STOMATE_READ_CN = n |
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[4173] | 177 | CNLEAF_VAR = CN_LEAF |
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| 178 | |
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[2769] | 179 | |
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[4173] | 180 | # File and variable name for nitrogen input files |
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| 181 | #************************************************************************** |
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| 182 | Nammonium_FILE = ndep_nhx.nc |
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| 183 | Nammonium_VAR = nhx |
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| 184 | |
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| 185 | Nnitrate_FILE = ndep_noy.nc |
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| 186 | Nnitrate_VAR = noy |
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| 187 | |
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| 188 | Nfert_FILE = NONE |
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| 189 | Nfert_VAR = nfer |
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| 190 | |
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| 191 | Nmanure_FILE = NONE |
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| 192 | Nmanure_VAR = Nmanure |
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| 193 | |
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| 194 | Nfert_cropland_FILE = nfert_cropland.nc |
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| 195 | Nfert_cropland_VAR = nfer |
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| 196 | |
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| 197 | Nmanure_cropland_FILE = nmanure_cropland.nc |
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| 198 | Nmanure_cropland_VAR = Nmanure |
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| 199 | |
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| 200 | Nfert_pasture_FILE = nfert_pasture.nc |
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| 201 | Nfert_pasture_VAR = Nfer |
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| 202 | |
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| 203 | Nmanure_pasture_FILE = nmanure_pasture.nc |
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| 204 | Nmanure_pasture_VAR = Nmanure |
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| 205 | |
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| 206 | Nbnf_FILE= bnf.nc |
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| 207 | Nbnf_VAR= BNF_MGN_PERM2_PERYR |
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| 208 | |
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| 209 | |
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[4979] | 210 | # Parameters describing the canopy structure |
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| 211 | #************************************************************************** |
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| 212 | # Number of diameter classes - enables to create complex canopies |
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| 213 | # (default = 1) |
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| 214 | NCIRC = 3 |
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| 215 | |
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| 216 | # Use recruiment. Note that this is an overall flag that makes use |
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| 217 | # of the variable RECRUITMENT_PFT which specifies whether a specific |
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| 218 | # PFT grows recruits in canopy gaps. |
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| 219 | OK_RECRUITMENT=y |
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| 220 | |
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| 221 | |
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| 222 | # Parameters that should be removed once these issues are resolved |
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| 223 | #************************************************************************** |
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| 224 | # This patch should be accepted or rejected and the flag should then |
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| 225 | # be removed |
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| 226 | LNVGRASSPATCH=y |
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| 227 | |
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| 228 | # Parameters related to chemistry bvoc |
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| 229 | #************************************************************************ |
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| 230 | # CHEMISTRY_OK_BVOC : Activate chemistry |
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| 231 | CHEMISTRY_BVOC = _AUTO_: DEFAULT=n |
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| 232 | |
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| 233 | # CO2 FOR BVOC - WILKINSON : CO2 inhibition effect for isoprene based on Wilkinson approach? |
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| 234 | CO2_FOR_BVOC_WILKINSON=n |
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| 235 | |
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| 236 | # CO2 FOR BVOC - POSSELL : CO2 inhibition effect for isoprene based on Possell approach? |
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| 237 | CO2_FOR_BVOC_POSSELL=n |
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| 238 | |
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