source: CMIP6/CFMIP/CM61-LR-2xCO2-01/POST/monitoring01_orchidee.cfg @ 3987

Last change on this file since 3987 was 3987, checked in by lfairhead, 2 years ago

Import of CFMIP 2xCO2 IPSL-CM6A-LR configuration

File size: 6.9 KB
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1#**************************************************************
2# Author: Patrick Brockmann
3# Contact: Patrick.Brockmann@cea.fr
4# $Date: 2009/05/14 15:09:35 $
5# $Name: ATLAS_608_1_5 $
6# $Revision: 1.1.1.2 $
7# History:
8# Modification:
9#**************************************************************
10
11##################################################################################################################
12#-----------------------------------------------------------------------------------------------------------------
13#  field | files patterns | files additionnal | operations | title | units | calcul of area
14#-----------------------------------------------------------------------------------------------------------------
15#
16#   field = name of the field to monitore
17#   files patterns = pattern of the files used to monitore the field (must be discriminant)
18#   files additionnal = additionnal files accessible by $FER_DATA
19#   operations = operations to calculate the field
20#   title = variable title
21#   units = variable units
22#   calcul of area = expression to use for the weight average
23#
24# Notes:
25#   - Comment lines begin by # character.
26#   - Separator between fields is | character.
27#   - Operations must use the ferret syntax, if several files are used precise with the syntax d=x to refer to the x dataset.
28#     They must be enclosed by parenthesis if more than one variable is used.
29#   - files patterns,files additionnal,operations,title,units must be enclosed with character ".
30#     Use "" if empty.
31#   - Fields will be presented through an html page with thumbnails global, north, south, land, ocean.
32#     Use a field name with one of these pattern to display it under the corresponding thumbnail.
33#
34##################################################################################################################
35
36color=E7FFAB
37smooth=12
38#------------------------------------------------------------------------------------------------------------------------------------------------------
39#  field | files patterns | files additionnal | operations | title | units | calcul of area
40#------------------------------------------------------------------------------------------------------------------------------------------------------
41delta_water_stock | "nobiofrac DelSoilMoist_daily DelIntercept_daily DelSWE_daily delstock_routing" |  "" | "((1-nobiofrac[d=1,l=2:100000])*DelSoilMoist_daily[d=2,l=2:100000] + DelIntercept_daily[d=3,l=2:100000] + DelSWE_daily[d=4,l=2:100000] + delstock_routing[d=5,l=2:100000])" | "Change in total water stock (LANDS) " | "kg/day/m2 of land" | "Areas[d=2]*Contfrac[d=2]"
42water_budget_closure | "nobiofrac DelSoilMoist_daily DelIntercept_daily DelSWE_daily delstock_routing rain snowf evap riverflow coastalflow" | "" | "(((1-nobiofrac[d=1,l=2:100000])*DelSoilMoist_daily[d=2,l=2:100000] + DelIntercept_daily[d=3,l=2:100000] + DelSWE_daily[d=4,l=2:100000] +  delstock_routing[d=5,l=2:100000])*Areas[d=1]*Contfrac[d=1] -  ((rain[d=6,l=2:100000] + snowf[d=7,l=2:100000] - evap[d=8,l=2:100000])*Areas[d=1]*Contfrac[d=1]  - (riverflow[d=9,l=2:100000] + coastalflow[d=10,l=2:100000])*1000*86400 ))/(4*3.14*6370000*6370000*0.26)" | "Water budget closure (LANDS) " | "kg/day/m2 of land" | "2"
43twbr_lands       | "TWBR"             |  "" | "twbr[d=1,l=2:100000]*86400"       | "Hydrol water buget residu (LANDS)" | "kg/m^2/d" | "Areas[d=1]*Contfrac[d=1]"
44temp_sol_lands   | "temp_sol"         |  "" | "temp_sol[d=1]"                    | "TSOL (LANDS)"                      | "C"        | "Areas[d=1]*Contfrac[d=1]"
45fluxsens_lands   | "fluxsens"         |  "" | "fluxsens[d=1]"                    | "Sensible Flux (LANDS)"             | "W/m^2"    | "Areas[d=1]*Contfrac[d=1]"
46evap_lands       | "evap"             |  "" | "evap[d=1]"                        | "Evaporation (LANDS)"               | "mm/d"     | "Areas[d=1]*Contfrac[d=1]"
47evapnu_lands     | "evapnu"           |  "" | "evapnu[d=1]"                      | "Soil evaporation (LANDS)"          | "mm/d"     | "Areas[d=1]*Contfrac[d=1]"
48transpir_lands   | "transpir"         |  "" | "transpir[d=1,k=@sum]"             | "Transpiration (sum over all PFT, LANDS)" | "mm/d" | "Areas[d=1]*Contfrac[d=1]"
49subli_lands      | "subli"            |  "" | "subli[d=1]"                       | "Sublimation (LANDS)"               | "mm/d"     | "Areas[d=1]*Contfrac[d=1]"
50snow_swe_lands   | "frac_snow snow"   |  "" | "snow[d=2]"                        | "Snow Mass (LANDS)"                 | "kg/m^2"   | "Areas[d=2]*Contfrac[d=2]"
51snownobio_lands  | "snownobio"        |  "" | "snownobio[d=1]"                   | "Snow Other Surfaces (LANDS)"       | "kg/m^2"   | "Areas[d=1]*Contfrac[d=1]"
52snowf_lands      | "snowf"            |  "" | "snowf[d=1]"                       | "Snowfall (LANDS)"                  | "mm/d"     | "Areas[d=1]*Contfrac[d=1]"
53precip_lands     | "rain snowf"       |  "" | "rain[d=1] + snowf[d=2]"           | "Total precipitaion (LANDS)"        | "mm/d"     | "Areas[d=1]*Contfrac[d=1]"
54runoff_lands     | "runoff"           |  "" | "runoff[d=1]"                      | "Surface runoff  (LANDS)"           | "kg/m^2"   | "Areas[d=1]*Contfrac[d=1]"
55drainage_lands   | "drainage"         |  "" | "drainage[d=1]"                    | "Drainage  (LANDS)"                 | "kg/m^2"   | "Areas[d=1]*Contfrac[d=1]"
56humidity_lands   | "mrso"             |  "" | "mrso[d=1]"                        | "Total Soil Moisture  (LANDS)"      | "kg/m^2"   | "Areas[d=1]*Contfrac[d=1]"
57surface_humidity_lands | "mrsos"      |  "" | "mrsos[d=1]"                       | "Top 10cm soil moisture  (LANDS)"   | "kg/m^2"   | "Areas[d=1]*Contfrac[d=1]"
58albedo_lands     | "alb_vis alb_nir"  |  "" | "((alb_vis[d=1]+alb_nir[d=2])*0.5)"| "Mean Albedo (LANDS)"               | "1"        | "Areas[d=1]*Contfrac[d=1]"
59lai_lands        | "LAImean"          |  "" | "LAImean[d=1]"                     | "LAI (mean excluding PFT=1) (LANDS)"| "1"        | "Areas[d=1]*Contfrac[d=1]"
60nee_lands        | "nee maxvegetfrac" |  "" | "(nee[d=1]*365*86400*maxvegetfrac[d=2]*Areas[d=1]*Contfrac[d=1]/1e15)"   | "Net Ecosystem Exchange" | "PgC/yr" | "2"
61maxvegetagri_forcing | "maxvegetfrac" |  "" | "maxvegetfrac[d=1,K=12:13@sum]"    | "veget_max fraction of agriculture [sum of pft=12,13] "| "1"  | "Areas[d=1]*Contfrac[d=1]"
62maxvegetbare_forcing | "maxvegetfrac" |  "" | "maxvegetfrac[d=1,K=1]"            | "veget_max fraction on bare soil [pft=1] "             | "1"  | "Areas[d=1]*Contfrac[d=1]"
63vegetn_lands     | "vegetfrac"        |  "" | "vegetfrac[d=1,K=2:9@sum]"         | "veget trees[sum of pft=2:9] (LANDS)"                  | "1"  | "Areas[d=1]*Contfrac[d=1]"
64vegetg_lands     | "vegetfrac"        |  "" | "vegetfrac[d=1,K=10:11@sum]+vegetfrac[d=1,K=14:15@sum]"       | "veget natural grasses[sum of pft=10,11,14,15] (LANDS)"      | "1"  | "Areas[d=1]*Contfrac[d=1]"
65vegeta_lands     | "vegetfrac"        |  "" | "vegetfrac[d=1,K=12:13@sum]"       | "veget agriculture [sum of pft=12,13] (LANDS)"         | "1"  | "Areas[d=1]*Contfrac[d=1]"
66
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