Changeset 6452


Ignore:
Timestamp:
05/12/23 13:09:44 (14 months ago)
Author:
jgipsl
Message:

Updated orchidee parameter files for the trunk version (orchidee v4) to be coherent with ORCHIDEE/trunk revision 7994.

Location:
CONFIG/UNIFORM/v7/ICOLMDZOR_v7/GENERAL/PARAM
Files:
2 edited

Legend:

Unmodified
Added
Removed

  • CONFIG/UNIFORM/v7/ICOLMDZOR_v7/GENERAL/PARAM/orchidee.def_v4

    r6406 r6452  
    1 # $HeadURL$ 
    2 # $Date$ 
    3 # $Revision$ 
     1# $HeadURL: svn://forge.ipsl.jussieu.fr/orchidee/trunk/ORCHIDEE_OL/OOL_SEC_STO_FG2nd/PARAM/orchidee.def $ 
     2# $Date: 2023-05-12 13:04:57 +0200 (ven. 12 mai 2023) $ 
     3# $Revision: 8000 $ 
    44 
    55#************************************************************************** 
     
    1717# Parameters that should be removed once these issues are resolved 
    1818#************************************************************************** 
    19 # This patch should be accepted or rejected and the flag should then 
    20 # be removed 
    21 LNVGRASSPATCH=y 
    2219 
    2320# From a scientific point of view hydraulic architecture is much nicer 
     
    2825ENERGY_CONTROL=2 
    2926 
    30 # Although we now have global forest management maps that could be 
    31 # used in the spinup, the interpretation of the results is easier if 
    32 # all pixels have the same forest management. 
     27# Prescribe forest management to facilitate the interpretation of the 
     28# results when comparing versions. 
    3329OK_READ_FM_MAP=n 
    34 FOREST_MANAGED_FORCED=1 
    35  
     30 
     31# Hack to use a higher threshold for small lai in the calculation of kB_m1 in condveg  
     32HACK_KB_M1 = y 
    3633 
    3734# Parameters related to the restart file and the start date 
     
    5047# Use XIOS for writing diagnostics file 
    5148# (defualt y) 
    52 # All IOIPSL output are deactivated if XIOS_ORCHIDEE_OK=y 
    5349XIOS_ORCHIDEE_OK = y 
    54  
    5550 
    5651# Parameters related to debugging and error checking 
     
    106101# Hydrology parameters 
    107102#************************************************************************** 
    108 # Activate river routing. 
    109 # (default y) 
     103# Activate river routing 
     104# default = y 
    110105RIVER_ROUTING = _AUTO_ 
    111106 
     
    154149# Controls several settings related to the energy budget and water stress. 
    155150# 1 - DEFAULT uses the enerbil module in combination with the hydraulic 
    156 # architecture (ok_hydrol_arch and ok_gs_feedback true, while    
     151# architecture (ok_hydrol_arch and ok_gs_feedback true, while  
    157152# ok_mleb and ok_impose_canopy_structure are set to false). 
    158153# 2 - option to use enerbil module and original water stress 
     
    165160# 4 - multi-layer energy budget: ok_hydrol_arch, ok_gs_feedback and ok_mleb all TRUE. 
    166161# ok_impose_canopy_structure is False, and the energy budget is calculated for 
    167 # multiple layers (jnlvls=29,jnlvls_under=10,jnlvls_canopy=10,jnlvls_over=9). 
     162# multiple layers (jnlvls=29,jnlvls_under=10,jnlvls_canopy=10,jnlvls_over=9).     
    168163# No mleb output, ok_mleb_history_file is set to  FALSE. 
    169164# 5 - user specific: user specific settings for these controls and layers will need 
     
    171166#ENERGY_CONTROL=1 
    172167 
     168 
    173169# Carbon related parameters 
    174170#************************************************************************** 
    175 # Activate Stomate component 
    176 # (default y) 
    177 STOMATE_OK_STOMATE = _AUTOBLOCKER_  
    178  
    179171# Analytic spinup 
    180172# (default n) 
    181 SPINUP_ANALYTIC = n  
     173SPINUP_ANALYTIC = n 
    182174SPINUP_PERIOD = 10 
    183175 
     176# Activate Stomate component 
     177# (default y) 
     178STOMATE_OK_STOMATE = _AUTOBLOCKER_  
     179 
    184180# As an alternative to DO_WOOD_HARVEST forest management can be accounted 
    185 # for. Unless a map is read (OK_READ_FM_MAP=y) all forest will be 
    186 # managed by the same management strategy (FOREST_MANAGED_FORCED=iFM). 
    187 # iFM = 1 is unmanaged, iFM = 2 is a thin and fell strategy, iFM = 3 is a 
    188 # coppice strategy and iFM = 4 is a short rotation coppice strategy. 
    189 # (default 2)  
    190 #OK_READ_FM_MAP=y 
     181# for. DO_WOOD_HARVEST is not yet available in ORCHIDEE v4. 
     182# OK_READ_FM_MAP=y 
    191183 
    192184# Parameters related to nitrogen cycle 

  • CONFIG/UNIFORM/v7/ICOLMDZOR_v7/GENERAL/PARAM/orchidee_pft.def_15pft.1ac_v4

    r6406 r6452  
    1  
     1# $HeadURL: svn://forge.ipsl.jussieu.fr/orchidee/trunk/ORCHIDEE_OL/OOL_SEC_STO_FG2nd/PARAM/orchidee_pft.def_15pft.1ac $ 
     2# $Date: 2023-05-12 13:04:57 +0200 (ven. 12 mai 2023) $ 
     3# $Revision: 8000 $ 
    24#*************************************************************************** 
    35#            Set-up age classes 
     
    6567 
    6668# ALPHA_LL(mol e- (mol photon)-1) 
    67 ALPHA_LL__01=-9999 
    68 ALPHA_LL__02=0.53 
    69 ALPHA_LL__03=0.53 
    70 ALPHA_LL__04=0.3 
    71 ALPHA_LL__05=0.3 
    72 ALPHA_LL__06=0.3 
    73 ALPHA_LL__07=0.3 
    74 ALPHA_LL__08=0.3 
    75 ALPHA_LL__09=0.3 
    76 ALPHA_LL__10=0.3 
    77 ALPHA_LL__11=0.3 
    78 ALPHA_LL__12=0.3 
    79 ALPHA_LL__13=0.3 
    8069ALPHA_LL__14=0.3 
    8170ALPHA_LL__15=0.43 
    8271 
    8372 
    84 # COEFF_MAINT_INIT(???) 
    85 COEFF_MAINT_INIT__01=-9999 
    86 COEFF_MAINT_INIT__02=0.04531 
    87 COEFF_MAINT_INIT__03=0.04 
    88 COEFF_MAINT_INIT__04=0.07758 
    89 COEFF_MAINT_INIT__05=0.02938 
    90 COEFF_MAINT_INIT__06=0.361 
    91 COEFF_MAINT_INIT__07=0.0318 
    92 COEFF_MAINT_INIT__08=0.1072 
    93 COEFF_MAINT_INIT__09=0.1072 
    94 COEFF_MAINT_INIT__10=0.06 
    95 COEFF_MAINT_INIT__11=0.05 
    96 COEFF_MAINT_INIT__12=0.05 
    97 COEFF_MAINT_INIT__13=0.08 
     73# COEFF_MAINT_INIT(gC.gN.day-1) 
    9874COEFF_MAINT_INIT__14=0.07 
    9975COEFF_MAINT_INIT__15=0.13 
    10076 
    10177 
     78# GDD_THRESHOLD(Celcius) 
     79GDD_THRESHOLD__14=5.0 
     80GDD_THRESHOLD__15=-5.0 
     81 
     82 
    10283# HYDROL_HUMCSTE(unitless) 
    103 HYDROL_HUMCSTE__01=1.0 
    104 HYDROL_HUMCSTE__02=1.0 
    105 HYDROL_HUMCSTE__03=1.0 
    106 HYDROL_HUMCSTE__04=1.0 
    107 HYDROL_HUMCSTE__05=1.0 
    108 HYDROL_HUMCSTE__06=1.0 
    109 HYDROL_HUMCSTE__07=1.0 
    110 HYDROL_HUMCSTE__08=1.0 
    111 HYDROL_HUMCSTE__09=1.0 
    112 HYDROL_HUMCSTE__10=0.6 
    113 HYDROL_HUMCSTE__11=0.6 
    114 HYDROL_HUMCSTE__12=0.6 
    115 HYDROL_HUMCSTE__13=0.6 
    11684HYDROL_HUMCSTE__14=4.0 
    11785HYDROL_HUMCSTE__15=0.6 
     
    11987 
    12088# IS_BOREAL(y/n) 
    121 IS_BOREAL__01=FALSE 
    122 IS_BOREAL__02=FALSE 
    123 IS_BOREAL__03=FALSE 
    124 IS_BOREAL__04=FALSE 
    125 IS_BOREAL__05=FALSE 
    126 IS_BOREAL__06=FALSE 
    127 IS_BOREAL__07=TRUE 
    128 IS_BOREAL__08=TRUE 
    129 IS_BOREAL__09=TRUE 
    130 IS_BOREAL__10=FALSE 
    131 IS_BOREAL__11=FALSE 
    132 IS_BOREAL__12=FALSE 
    133 IS_BOREAL__13=FALSE 
    13489IS_BOREAL__14=FALSE 
    13590IS_BOREAL__15=TRUE 
     
    13792 
    13893# IS_TEMPERATE(y/n) 
    139 IS_TEMPERATE__01=FALSE 
    140 IS_TEMPERATE__02=FALSE 
    141 IS_TEMPERATE__03=FALSE 
    142 IS_TEMPERATE__04=TRUE 
    143 IS_TEMPERATE__05=TRUE 
    144 IS_TEMPERATE__06=TRUE 
    145 IS_TEMPERATE__07=FALSE 
    146 IS_TEMPERATE__08=FALSE 
    147 IS_TEMPERATE__09=FALSE 
    148 IS_TEMPERATE__10=TRUE 
    149 IS_TEMPERATE__11=TRUE 
    150 IS_TEMPERATE__12=TRUE 
    151 IS_TEMPERATE__13=TRUE 
    15294IS_TEMPERATE__14=FALSE 
    15395IS_TEMPERATE__15=FALSE 
     
    15597 
    15698# K_LATOSA_MAX(unitless) 
    157 K_LATOSA_MAX__01=-9999 
    158 K_LATOSA_MAX__02=15000 
    159 K_LATOSA_MAX__03=12000 
    160 K_LATOSA_MAX__04=11000 
    161 K_LATOSA_MAX__05=6000 
    162 K_LATOSA_MAX__06=30000 
    163 K_LATOSA_MAX__07=18000 
    164 K_LATOSA_MAX__08=30000 
    165 K_LATOSA_MAX__09=30000 
    166 K_LATOSA_MAX__10=7000 
    167 K_LATOSA_MAX__11=5500 
    168 K_LATOSA_MAX__12=9500 
    169 K_LATOSA_MAX__13=11000 
    17099K_LATOSA_MAX__14=8500 
    171100K_LATOSA_MAX__15=10000 
     
    173102 
    174103# K_LATOSA_MIN(unitless) 
    175 K_LATOSA_MIN__01=-9999 
    176 K_LATOSA_MIN__02=7500 
    177 K_LATOSA_MIN__03=6000 
    178 K_LATOSA_MIN__04=5600 
    179 K_LATOSA_MIN__05=2989 
    180 K_LATOSA_MIN__06=15310 
    181 K_LATOSA_MIN__07=9120 
    182 K_LATOSA_MIN__08=15310 
    183 K_LATOSA_MIN__09=15310 
    184 K_LATOSA_MIN__10=7000 
    185 K_LATOSA_MIN__11=5500 
    186 K_LATOSA_MIN__12=9500 
    187 K_LATOSA_MIN__13=11000 
    188104K_LATOSA_MIN__14=8500 
    189105K_LATOSA_MIN__15=10000 
    190106 
    191107 
    192 # LARGEST_TREE_DIA(m) 
    193 LARGEST_TREE_DIA__01=-9999 
    194 LARGEST_TREE_DIA__02=0.5 
    195 LARGEST_TREE_DIA__03=0.5 
    196 LARGEST_TREE_DIA__04=0.41 
    197 LARGEST_TREE_DIA__05=0.35 
    198 LARGEST_TREE_DIA__06=0.45 
    199 LARGEST_TREE_DIA__07=0.45 
    200 LARGEST_TREE_DIA__08=0.3 
    201 LARGEST_TREE_DIA__09=0.3 
    202 LARGEST_TREE_DIA__10=-9999 
    203 LARGEST_TREE_DIA__11=-9999 
    204 LARGEST_TREE_DIA__12=-9999 
    205 LARGEST_TREE_DIA__13=-9999 
    206 LARGEST_TREE_DIA__14=-9999 
    207 LARGEST_TREE_DIA__15=-9999 
    208  
    209  
    210108# LONGEVITY_SAP(days) 
    211 LONGEVITY_SAP__01=-9999 
    212 LONGEVITY_SAP__02=7300 
    213 LONGEVITY_SAP__03=3766 
    214 LONGEVITY_SAP__04=3600 
    215 LONGEVITY_SAP__05=6643 
    216 LONGEVITY_SAP__06=2140 
    217 LONGEVITY_SAP__07=4046 
    218 LONGEVITY_SAP__08=2140 
    219 LONGEVITY_SAP__09=2140 
    220 LONGEVITY_SAP__10=180 
    221 LONGEVITY_SAP__11=180 
    222 LONGEVITY_SAP__12=480 
    223 LONGEVITY_SAP__13=480 
    224109LONGEVITY_SAP__14=180 
    225110LONGEVITY_SAP__15=240 
     
    227112 
    228113# MAINT_RESP_SLOPE_B(unitless) 
    229 MAINT_RESP_SLOPE_B__02=-0.01 
    230 MAINT_RESP_SLOPE_B__03=-0.01 
    231 MAINT_RESP_SLOPE_B__04=-0.04 
    232 MAINT_RESP_SLOPE_B__05=-0.02 
    233 MAINT_RESP_SLOPE_B__06=-0.02 
    234 MAINT_RESP_SLOPE_B__07=-0.01 
    235 MAINT_RESP_SLOPE_B__08=-0.01 
    236 MAINT_RESP_SLOPE_B__09=-0.01 
    237 MAINT_RESP_SLOPE_B__10=-0.01 
    238 MAINT_RESP_SLOPE_B__11=-0.0 
    239 MAINT_RESP_SLOPE_B__12=-0.0 
    240 MAINT_RESP_SLOPE_B__13=-0.01 
    241114MAINT_RESP_SLOPE_B__14=-0.01 
    242115MAINT_RESP_SLOPE_B__15=-0.02 
     
    244117 
    245118# MAINT_RESP_SLOPE_C(unitless) 
    246 MAINT_RESP_SLOPE_C__02=0.44 
    247 MAINT_RESP_SLOPE_C__03=0.6 
    248 MAINT_RESP_SLOPE_C__04=0.2 
    249 MAINT_RESP_SLOPE_C__05=0.6 
    250 MAINT_RESP_SLOPE_C__06=0.3 
    251 MAINT_RESP_SLOPE_C__07=0.3 
    252 MAINT_RESP_SLOPE_C__08=0.4 
    253 MAINT_RESP_SLOPE_C__09=0.4 
    254 MAINT_RESP_SLOPE_C__10=0.5 
    255 MAINT_RESP_SLOPE_C__11=0.5 
    256 MAINT_RESP_SLOPE_C__12=0.5 
    257 MAINT_RESP_SLOPE_C__13=0.7 
    258119MAINT_RESP_SLOPE_C__14=0.55 
    259120MAINT_RESP_SLOPE_C__15=0.75 
     
    265126 
    266127 
     128# PHENO_GDD_CRIT_A(unitless) 
     129PHENO_GDD_CRIT_A__14=0.03125 
     130PHENO_GDD_CRIT_A__15=0.03125 
     131 
     132 
     133# PHENO_GDD_CRIT_B(unitless) 
     134PHENO_GDD_CRIT_B__14=6.25 
     135PHENO_GDD_CRIT_B__15=6.25 
     136 
     137 
     138# PHENO_GDD_CRIT_C(K) 
     139PHENO_GDD_CRIT_C__14=320 
     140PHENO_GDD_CRIT_C__15=320 
     141 
     142 
    267143# PHENO_MODEL(unitless) 
    268 PHENO_MODEL__10=moigdd 
    269 PHENO_MODEL__11=moigdd 
    270144PHENO_MODEL__14=moi 
    271145PHENO_MODEL__15=moigdd 
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