source: BOL/LMDZ_Setup/DEF/orchidee.def_6.4work @ 5041

Last change on this file since 5041 was 4615, checked in by asima, 17 months ago

Initial import of LMDZ_Setup environment
(former TEST_PROD which was distributed as tutorial_prod.tar).

See also related doc LMDZ_Setup_HowTo (former tutorial_prod_FAQ) :
https://docs.google.com/document/d/1OLZG6e-86NiXuv5-aALxKIh-QPkp4BdCwWtiBFot-6c

This initial import corresponds to TEST_PROD from
https://lmdz.lmd.jussieu.fr/pub/Training/Archive/tutorial_prod.tar_v20230707.

Previous versions of tutorial_prod.tar are available at
https://lmdz.lmd.jussieu.fr/pub/Training/Archive

File size: 8.7 KB
RevLine 
[4615]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 $
4
5#**************************************************************************
6#           Suggested parameter set up for ORCHIDEE trunk
7#
8# See all optional parameters in modipsl/modeles/ORCHIDEE/orchidee.default
9#
10# Note when running with libIGCM, variables set here to _AUTOBLOCKER_ can
11# not be changed in run.def otherwise the simulation will stop. Variables
12# set to _AUTO_ can be changed from the comp.card but they can also be
13# changed directly in the run.def. A value set in run.def can never be
14# changed again by libIGCM.
15#**************************************************************************
16
17# Parameters that should be removed once these issues are resolved
18#**************************************************************************
19
20# From a scientific point of view hydraulic architecture is much nicer
21# than a direct dependency on soil water. Julien is working on both
22# the nummerics and the science of the hydraulic architecture. To
23# avoid further delays with milestone 4.1 we decided to change the
24# settings.
25ENERGY_CONTROL=2
26
27# Prescribe forest management to facilitate the interpretation of the
28# results when comparing versions.
29OK_READ_FM_MAP=n
30
31# Hack to use a higher threshold for small lai in the calculation of kB_m1 in condveg
32HACK_KB_M1 = y
33
34# Parameters related to the restart file and the start date
35#**************************************************************************
36# Name of restart file for sechiba part of the model
37# (default NONE)
38SECHIBA_restart_in = sechiba_rest_in.nc
39
40# Name of restart file for stomate part of the model
41# (default NONE)
42STOMATE_RESTART_FILEIN = stomate_rest_in.nc
43
44
45# Parameters related to the diagnostic output files
46#**************************************************************************
47# Use XIOS for writing diagnostics file
48# (defualt y)
49XIOS_ORCHIDEE_OK = y
50
51
52# Parameters related to debugging and error checking
53#**************************************************************************
54# Mass balance and surface area checks
55# 1 - is recommended when running global long-term simulations.
56# Under this option, mass and area conservation are checked for all
57# biogeochemical processes but only at the highest level thus stomate.f90
58# and stomate_lpj.f90. Although these checks are not very expensive in terms
59# of computer time, skipping the numerous lower level checks is expected to
60# save some time. Under this option the mass balance error is only written
61# to the history file. No information is provided in which subroutine the
62# problem occurred.
63# 2 - is recommended when developing and testing the model. Now the mass
64# balance is explicitly checked in stomate.f90, stomate_lpj.f90 and all
65# its subroutines. Under this option the mass balance error is written to
66# the history file and if the mass balance is not closed, the warning
67# message will indicate in which subroutine the problem likely
68# originated.
69# 3 - is recommended when having a problem with mass balance closure. The
70# mass balance is explicitly checked in stomate.f90, stomate_lpj.f90 and all
71# its subroutines. If a mass balance occurs, the model is stopped.
72# (default)
73ERR_ACT = 3
74
75# If the model crashes and it is not clear in which subroutine the crash
76# occurs one could increase the print level for text output in out_orchidee_*
77# PRINTLEV = 1 : some output in initialization phase
78# PRINTLEV = 2 : more output in initialization phase and printing of new date
79# PRINTLEV = 3, 4,.. : more output also at each timestep
80# (default 2)
81PRINTLEV=1
82
83# If the model crashes on an ipslerr there is a fair change that the pixel and
84# PFT where the crash occur will be printed in the out_orchidee_* file. Try to
85# re-run the model for a single pixel or a small region (for example,
86# 3 by 3). LIMIT_EAST, LIMIT_NORTH, LIMIT_SOUTH and LIMIT_WEST should
87# be set in the run.def
88
89# If it is known in which subroutine the model crashes, the local print level
90# of that subroutine could be increased. Additional write statements will then
91# be activated. These write statements print the values of specific variables.
92# (default 2)
93#PRINTLEV_sapiens_lcchange = 4
94
95# When a local print level is set, the grid and pft number for which the
96# values needs to written should be set. This setting reduces reduces
97# the size and enhances the readability of the out_orchidee_* files. 
98TEST_GRID = 1
99TEST_PFT = 2
100
101
102# Hydrology parameters
103#**************************************************************************
104# Activate river routing
105# default = y
106RIVER_ROUTING = n
107
108# Choice of routing method: standard or simple
109#ROUTING_METHOD = simple
110
111# Activate creation of river_desc.nc file
112# RIVER_DESC will be activated only the first execution in the simulation
113RIVER_DESC = n
114
115# SOILTYPE_CLASSIF :  Type of classification used for the map of soil types
116# (default zobler)
117SOILTYPE_CLASSIF = zobler
118
119
120# Parameters related to vegetation map
121#**************************************************************************
122# Update vegetation frequency
123# (default 0Y)
124VEGET_UPDATE =0Y
125
126# Read lai map
127# (default n)
128LAI_MAP = n
129
130# Prescribed vegetation
131# (default n)
132IMPOSE_VEG = n
133
134
135# Parameters related to surface and thermal physical properties
136#************************************************************************
137# ROUGH_DYN : Account for a dynamic roughness height (activation of Su et
138# al. parametrization)
139# (default y)
140ROUGH_DYN = y
141
142# OK_FREEZE :  Activate the complet soil freezing scheme
143# (default y)
144OK_FREEZE = y
145
146# OK_EXPLICITSNOW :  Activate explict snow scheme
147# (default y)
148OK_EXPLICITSNOW = y
149
150# Controls several settings related to the energy budget and water stress.
151# 1 - DEFAULT uses the enerbil module in combination with the hydraulic
152# architecture (ok_hydrol_arch and ok_gs_feedback true, while
153# ok_mleb and ok_impose_canopy_structure are set to false).
154# 2 - option to use enerbil module and original water stress
155# (not hydraulic architecture)
156# 3 - The energy budget is calculated using the multi-layer energy scheme
157# with a single layer: ok_hydrol_arch, ok_gs_feedback, ok_impose_canopy_structure
158# and and ok_mleb all TRUE, but the energy budget is calculated for a single
159# layer (jnlvls=1,jnlvls_under=0,jnlvls_canopy=1,jnlvls_over=0). No mleb output,
160# ok_mleb_history_file is set to  FALSE.
161# 4 - multi-layer energy budget: ok_hydrol_arch, ok_gs_feedback and ok_mleb all TRUE.
162# ok_impose_canopy_structure is False, and the energy budget is calculated for
163# multiple layers (jnlvls=29,jnlvls_under=10,jnlvls_canopy=10,jnlvls_over=9).   
164# No mleb output, ok_mleb_history_file is set to  FALSE.
165# 5 - user specific: user specific settings for these controls and layers will need
166# to be defined in the run.def by the user.
167#ENERGY_CONTROL=1
168
169
170# Carbon related parameters
171#**************************************************************************
172# Analytic spinup
173# (default n)
174SPINUP_ANALYTIC = n
175SPINUP_PERIOD = 10
176
177# Activate Stomate component
178# (default y)
179STOMATE_OK_STOMATE = y
180
181# As an alternative to DO_WOOD_HARVEST forest management can be accounted
182# for. DO_WOOD_HARVEST is not yet available in ORCHIDEE v4.
183# OK_READ_FM_MAP=y
184
185# Parameters related to nitrogen cycle
186#**************************************************************************
187# Update nitrogen input maps
188# (default 0Y)
189NINPUT_UPDATE = 0Y
190
191# Impose the CN ratio of leaves
192STOMATE_IMPOSE_CN = n
193
194# Set STOMATE_READ_CN=y to read cnleaf_map.nc file if STOMATE_IMPOSE_CN=y
195STOMATE_READ_CN = n
196CNLEAF_VAR = CN_LEAF
197
198
199# File and variable name for nitrogen input files
200#**************************************************************************
201Nammonium_FILE = ndep_nhx.nc
202Nammonium_VAR = nhx
203
204Nnitrate_FILE = ndep_noy.nc
205Nnitrate_VAR = noy
206
207Nfert_FILE = NONE
208Nfert_VAR = nfer
209
210Nmanure_FILE = NONE
211Nmanure_VAR = Nmanure
212
213Nfert_cropland_FILE = nfert_cropland.nc
214Nfert_cropland_VAR = nfer
215
216Nmanure_cropland_FILE = nmanure_cropland.nc
217Nmanure_cropland_VAR = Nmanure
218
219Nfert_pasture_FILE = nfert_pasture.nc
220Nfert_pasture_VAR = Nfer
221
222Nmanure_pasture_FILE = nmanure_pasture.nc
223Nmanure_pasture_VAR = Nmanure
224
225Nbnf_FILE= bnf.nc
226Nbnf_VAR= BNF_MGN_PERM2_PERYR
227
228
229# Parameters describing the canopy structure
230#**************************************************************************
231# Number of diameter classes - enables to create complex canopies
232# (default = 1)
233NCIRC = 3
234
235
236# Parameters related to chemistry bvoc
237#************************************************************************
238# CHEMISTRY_OK_BVOC :  Activate chemistry
239CHEMISTRY_BVOC = n
240
241# CO2 FOR BVOC - WILKINSON :  CO2 inhibition effect for isoprene based on Wilkinson approach?
242CO2_FOR_BVOC_WILKINSON=n
243
244# CO2 FOR BVOC - POSSELL :  CO2 inhibition effect for isoprene based on Possell approach?
245CO2_FOR_BVOC_POSSELL=n
246
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