Changeset 7475 for branches/ORCHIDEE_2_2/ORCHIDEE/orchidee.default
- Timestamp:
- 2022-02-16T11:24:32+01:00 (2 years ago)
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- 1 edited
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branches/ORCHIDEE_2_2/ORCHIDEE/orchidee.default
r7444 r7475 51 51 RELAX_A = 1.0 52 52 53 # SPREAD_PREC ([-]) : On how long we spread the precipitation, value in nb of dt_sechiba {[-]} 54 SPREAD_PREC = Half of the forcing time step or uniform, depending on dt_force (greater than 3h or not, respectively) 55 56 # SPREAD_PREC_SEC ([s]) : On how long we spread the precipitation, value in seconds {NEW_DRIVER} 57 # If this keyword is not set, SPREAD_PREC is used, whether defined in run.def or by default 58 SPREAD_PREC_SEC = 3600 59 60 # SPREAD_PREC_CONT ([s]) : Makes the spreading uniform if it still rains at following forcing time step {NEW_DRIVER} 61 SPREAD_PREC_CONT = n 62 63 # ATM_CO2 ([ppm]) : Value to precribe atmospheric CO2 {[FORCE_CO2_VEG=y or Offline mode]} 53 # SPREAD_PREC ([nb of dt_sechiba]) : On how long we spread the precipitation {[orchidee_ol]} 54 SPREAD_PREC = Half of the forcing time step or uniform, depending on dt_force and dt_sechiba 55 56 # ATM_CO2 ([ppm]) : Value to precribe atmosoheric CO2 {[FORCE_CO2_VEG=y or Offline mode]} 64 57 ATM_CO2 = 350. 58 59 # SPREAD_PREC ([FLAG]) : Spread the precipitation. {orchideedriver} 60 SPREAD_PREC = Spread the precipitation. 61 62 # SPREAD_PREC_SEC ([-]) : On how long we spread the precipitation {orchideedriver and nb_spread < 0} 63 SPREAD_PREC_SEC = 3600 64 65 # SPREAD_PREC_CONT ([s]) : Take into account precipitation on the next forcing step for spreading it. {orchideedriver} 66 SPREAD_PREC_CONT = FALSE 65 67 66 68 # ALLOW_WEATHERGEN ([FLAG]) : Allow weather generator to create data {[-]} … … 120 122 121 123 # SOILTYPE_CLASSIF ([-]) : Type of soil texture classification (for hydraulic and thermic properties) {!IMPOSE_VEG} 122 SOILTYPE_CLASSIF = zobler 123 124 # SPMIPEXP ([-]) : For alternative ways to prescribe hydraulic soil parameters (thermic params still defined from soil texture) 125 # maps to read maps of soil parameter as in the SP-MIP project 126 # unif to impose uniforme texture over the globe (4 texture options, see UNIF_CASE, with parameter values imposed by SP-MIP) 127 # texture for default behavior in which all soil parameters stem from soil texture 128 SPMIPEXP = texture 129 130 # UNIF_CASE ([-]) to define one of 4 uniform textures: 'a' for loamy sand, 'b' for loam, 'c' for silt, 'd' for clay {SPMIPEXP} 131 UNIF_CASE = b 132 133 # KFACT_ROOT_TYPE ([-]): var or cons, to make kfact_root=1 throughout the soil (no impact of roots on ks profile) 134 KFACT_ROOT_TYPE = var 124 SOILTYPE_CLASSIF = zobler 135 125 136 126 # RIVER_ROUTING ([FLAG]) : Decides if we route the water or not {OK_SECHIBA} … … 779 769 IMPOSE_VEG = n 780 770 781 # IMPOSE_SOILT ([FLAG]) : Should the soil type be prescribed ? 771 # IMPOSE_SOILT ([FLAG]) : Should the soil type be prescribed ? {} 782 772 IMPOSE_SOILT = n 783 773 … … 1013 1003 GB_REF = 1./25. 1014 1004 1015 # CLAYFRACTION_DEFAULT ([-] ) : default fraction of clay {OK_SECHIBA }1016 CLAYFRACTION_DEFAULT = 0.21017 1018 # SANDFRACTION_DEFAULT ([-] ) : default fraction of sand {OK_SECHIBA }1019 SANDFRACTION_DEFAULT = 0.41020 1021 # SILTFRACTION_DEFAULT ([-] ) : default fraction of silt {OK_SECHIBA }1022 SILTFRACTION_DEFAULT = 0.41023 1024 1005 # MIN_VEGFRAC ([-] ) : Minimal fraction of mesh a vegetation type can occupy {OK_SECHIBA } 1025 1006 MIN_VEGFRAC = 0.001 … … 1425 1406 1426 1407 # DRY_SOIL_HEAT_COND ([W.m^{-2}.K^{-1}] ) : Dry soil Thermal Conductivity of soils {OK_SECHIBA} 1427 DRY_SOIL_HEAT_COND = 0.40 1408 DRY_SOIL_HEAT_COND = 0.40 1428 1409 1429 1410 # SNOW_HEAT_COND ([W.m^{-2}.K^{-1}]) : Thermal Conductivity of snow {OK_SECHIBA } … … 1466 1447 CHECK_CWRR = n 1467 1448 1449 # SOIL_FRACTIONS ([-]) : Areal fraction of the 13 soil USDA textures; the dominant one is selected, Loam by default {IMPOSE_SOILT} 1450 SOIL_FRACTIONS = 0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 1451 1452 # CLAY_FRACTION ([-]) : Fraction of the clay fraction (0-dim mode) {IMPOSE_SOIL} 1453 CLAY_FRACTION = 0.2 if Loam 1454 1455 # SAND_FRACTION ([-] ) : Fraction of the clay fraction (0-dim mode) {IMPOSE_SOIL} 1456 SAND_FRACTION = 0.4 1457 1458 # nvan ([-]) : nvan parameter from Van genutchen equations {IMPOSE_SOIL} 1459 nvan = 1.56 if Loam 1460 1461 # avan ([-]) : avan parameter from Van genutchen equations {IMPOSE_SOIL} 1462 avan = 0.0036 if Loam 1463 1464 # mcr ([-]) : residual soil moisture {IMPOSE_SOIL} 1465 mcr = 0.078 if Loam 1466 1467 # mcs ([-]) : saturation soil moisture {IMPOSE_SOIL} 1468 mcs = 0.43 if Loam 1469 1470 # ks ([mm/d]) : saturation conductivity {IMPOSE_SOIL} 1471 ks = 249.6 if Loam 1472 1473 # mcfc ([-]) : field capacity soil moisture {IMPOSE_SOIL} 1474 mcfc = 0.1654 if caclulated from default 5 parameters above 1475 1476 # mcw ([-]) : wilting point soil moisture {IMPOSE_SOIL} 1477 mcw = 0.0884 if caclulated from default 5 parameters above 1478 1479 # GET_SLOPE ([FLAG]) : Read slopes from file and do the interpolation {} 1480 GET_SLOPE = n 1481 1482 # REINF_SLOPE ([-]) : Fraction of reinfiltrated surface runoff {} 1483 REINF_SLOPE = 0.1 1484 1485 # SECHIBA_QSINT ([m]) : Interception reservoir coefficient {OK_SECHIBA } 1486 SECHIBA_QSINT = 0.02 1487 1488 # SECHIBA_ZCANOP ([m]) : Soil level used for canopy development (if STOMATE disactivated) {OK_SECHIBA and .NOT. OK_STOMATE } 1489 SECHIBA_ZCANOP = 0.5 1490 1468 1491 # VEGET_UPDATE ([years]) : Update vegetation frequency: 0Y or 1Y {} 1469 1492 VEGET_UPDATE = 0Y 1470 1493 1471 # SECHIBA_ZCANOP ([m]) : Soil level used for canopy development (if STOMATE disactivated) {OK_SECHIBA and .NOT. OK_STOMATE }1472 SECHIBA_ZCANOP = 0.51473 1474 # SECHIBA_QSINT ([m]) : Interception reservoir coefficient {OK_SECHIBA }1475 SECHIBA_QSINT = 0.11476 1477 1494 # SECHIBA_VEGMAX ([-]) : Maximum vegetation distribution within the mesh (0-dim mode) {IMPOSE_VEG} 1478 1495 SECHIBA_VEGMAX = 0.2, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.8, 0.0, 0.0, 0.0 … … 1484 1501 SECHIBA_LAI = 0., 8., 8., 4., 4.5, 4.5, 4., 4.5, 4., 2., 2., 2., 2. 1485 1502 1486 # SOIL_FRACTIONS ([-]) : Areal fraction of the 13 soil USDA textures; the dominant one is selected (0-dim mode) {IMPOSE_SOILT}1487 SOIL_FRACTIONS = 0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.01488 1489 # CLAY_FRACTION ([-] ) : Fraction of the clay fraction (0-dim mode) {IMPOSE_SOILT}1490 CLAY_FRACTION = 0.21491 1492 # SAND_FRACTION ([-] ) : Fraction of the clay fraction (0-dim mode) {IMPOSE_SOILT}1493 SAND_FRACTION = 0.41494 1495 # NVAN_IMP ([-] ) : nvan parameter from Van Genutchen equations (0-dim mode) {IMPOSE_SOILT}1496 NVAN_IMP = 1.561497 1498 # AVAN_IMP ([-] ) : avan parameter from Van Genutchen equations (0-dim mode) {IMPOSE_SOILT}1499 AVAN_IMP = 0.00361500 1501 # MCR_IMP ([-] ) : residual soil moisture (0-dim mode) {IMPOSE_SOILT}1502 MCR_IMP = 0.0781503 1504 # MCS_IMP ([-] ) : saturated soil moisture (0-dim mode) {IMPOSE_SOILT}1505 MCS_IMP = 0.431506 1507 # KS_IMP ([mm/d] ) : saturated conductivity (0-dim mode) {IMPOSE_SOILT}1508 KS_IMP = 249.61509 1510 # MCFC_IMP ([-] ) : field capacity soil moisture (0-dim mode) {IMPOSE_SOILT}1511 MCFC_IMP = 0.16541512 1513 # MCW_IMP ([-] ) : wilting point soil moisture (0-dim mode) {IMPOSE_SOILT}1514 MCW_IMP = 0.08841515 1516 # GET_SLOPE ([FLAG]) : Read slopes from file and do the interpolation {}1517 GET_SLOPE = n1518 1519 # REINF_SLOPE ([-]) : Fraction of reinfiltrated surface runoff1520 REINF_SLOPE = 0.11521 1522 1503 # SLOWPROC_HEIGHT ([m]) : Height for all vegetation types {OK_SECHIBA} 1523 1504 SLOWPROC_HEIGHT = 0., 30., 30., 20., 20., 20., 15., 15., 15., .5, .6, 1.0, 1.0 … … 1532 1513 VEGETATION_FILE = PFTmap.nc 1533 1514 1515 # SPMIPEXP ([-]) : Types of alternative hydraulic parameters {} 1516 SPMIPEXP = 'texture' 1517 1518 # UNIF_CASE ([-]) : Types of uniform soil textures in SPMIP {SPMIPEXP='unif'} 1519 UNIF_CASE = 'b' 1520 1534 1521 # SOILCLASS_FILE ([FILE]) : Name of file from which soil types are read {NOT(IMPOSE_VEG)} 1535 1522 SOILCLASS_FILE = soils_param.nc 1536 1523 1524 # PARAM_FILE ([FILE]) : Name of file from which soil parameter values are read {params_sp_mip.nc} 1525 PARAM_FILE = params_sp_mip.nc 1526 1537 1527 # SLOPE_NOREINF ([%]) : Slope over which surface runoff does not reinfiltrate {} 1538 1528 SLOPE_NOREINF = 0.5 … … 1574 1564 SOIL_REFTEMP_FILE = reftemp.nc 1575 1565 1566 # KFACT_ROOT_TYPE ([mm/d]) : keyword added for spmip exp1 and exp4 to get a constant ks over soil depth and rootzone {spmip exp1 or exp4} 1567 KFACT_ROOT_TYPE = var 1568 1576 1569 # DO_PONDS ([FLAG]) : Should we include ponds {} 1577 1570 DO_PONDS = n … … 1592 1585 OK_DYNROOT = n 1593 1586 1594 # CWRR_N_VANGENUCHTEN ([-]) : Van genuchten coefficient n {} 1595 CWRR_N_VANGENUCHTEN = 1.89, 1.56, 1.31 1596 1597 # CWRR_A_VANGENUCHTEN ([1/mm] ) : Van genuchten coefficient a {} 1598 CWRR_A_VANGENUCHTEN = 0.0075, 0.0036, 0.0019 1599 1600 # VWC_RESIDUAL ([m3/m3] ) : Residual soil water content {} 1601 VWC_RESIDUAL = 0.065, 0.078, 0.095 1602 1603 # VWC_SAT ([m3/m3] ) : Saturated soil water content {} 1604 VWC_SAT = 0.41, 0.43, 0.41 1605 1606 # CWRR_KS ([mm/d] ) : Hydraulic conductivity Saturation {} 1607 CWRR_KS = 1060.8, 249.6, 62.4 1608 1609 # WETNESS_TRANSPIR_MAX ([-]) : Soil moisture above which transpir is max, for each texture class {} 1587 # WETNESS_TRANSPIR_MAX ([-] ) : Soil moisture above which transpir is max, for each soil texture class {} 1610 1588 WETNESS_TRANSPIR_MAX = 0.8, 0.8, 0.8, 0.8, 0.8, 0.8, 0.8, 0.8, 0.8, 0.8, 0.8, 0.8, 0.8 1611 1612 # VWC_FC ([m3/m3] ) : Volumetric water content field capacity {}1613 VWC_FC = 0.32, 0.32, 0.321614 1615 # VWC_WP ([m3/m3] ) : Volumetric water content Wilting pt {}1616 VWC_WP = 0.10, 0.10, 0.101617 1589 1618 1590 # VWC_MIN_FOR_WET_ALB ([m3/m3] ) : Vol. wat. cont. above which albedo is cst {}
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