Package net.simplace.sim.components.experimental.oryza

Class Oryza

java.lang.Object

net.simplace.sim.model.FWSimComponent

net.simplace.sim.components.experimental.oryza.Oryza

All Implemented Interfaces:

net.simplace.sim.util.FWSimFieldContainer

public class Oryza
extends net.simplace.sim.model.FWSimComponent

Notice: this model is current under development. It may produce erroneous values and it has not yet implemented all functionality.

Author:

Gunther Krauss

Component Variables

Content Type	Name	Description	Data Type	Unit	Min Value	Max Value	Default Value
constant	cANGA	Angstrom A parameter	DOUBLE	1	-	-	0.29
constant	cANGB	Angstrom B parameter	DOUBLE	1	-	-	0.45
constant	cASLA	Parameter A of SLA	DOUBLE	1	-	-	0.0024
constant	cBSLA	Parameter B of SLA	DOUBLE	1	-	-	0.0025
constant	cCO2	Ambient CO2 concentration (ppm), as input	DOUBLE	μmol/mol	-	-	340.0
constant	cCO2REF	Reference level of atmospheric CO2 (ppm) ! don't touch this parameter	DOUBLE	μmol/mol	-	-	340.0
constant	cCOLDEAD	Consecutive number of days below COLDMIN that crop dies (-)	DOUBLE	1	-	-	3.0
constant	cCOLDMIN	Lower air temperature treshhold for growth (oC)	DOUBLE	°C	-	-	12.0
constant	cCRGLV	Carbohydrate requirement for dry matter production of leaves	DOUBLE	kg/kg	-	-	1.326
constant	cCRGRT	Carbohydrate requirement for dry matter production of roots	DOUBLE	kg/kg	-	-	1.326
constant	cCRGSO	Carbohydrate requirement for dry matter production of storage organs (panicles)	DOUBLE	kg/kg	-	-	1.462
constant	cCRGST	Carbohydrate requirement for dry matter production of stems	DOUBLE	kg/kg	-	-	1.326
constant	cCRGSTR	Carbohydrate requirement for dry matter production of stem reserves	DOUBLE	kg/kg	-	-	1.11
constant	cCSLA	Parameter C of SLA	DOUBLE	1	-	-	-4.5
constant	cDELT	Time step (day)	DOUBLE	1	-	-	1.0
constant	cDRLVTTableCoefficient	- y value Leaf death coefficient (d-1)	DOUBLEARRAY	per_day	-	-	0.0 0.0 0.015 0.025 0.05 0.05
constant	cDRLVTTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.6 1.0 1.6 2.1 2.5
constant	cDSLA	Parameter D of SLA	DOUBLE	1	-	-	0.14
constant	cDVRI	Development rate in photoperiod-sensitive phase (oCd-1)	DOUBLE	degree_Celsius_per_day	-	-	0.0135417
constant	cDVRJ	Development rate in juvenile phase (oCd-1)	DOUBLE	degree_Celsius_per_day	-	-	0.0135417
constant	cDVRP	Development rate in panicle development (oCd-1)	DOUBLE	degree_Celsius_per_day	-	-	0.0184211
constant	cDVRR	Development rate in reproductive phase (oCd-1)	DOUBLE	degree_Celsius_per_day	-	-	0.05
constant	cDVSI	Initial development stage (data at emergence, for either direct-seeding or seed-bed)	DOUBLE	1	-	-	0.0
constant	cDVSIrriMAX	Maximum of DVS where irrigation occurs	DOUBLE	1	-	-	2.0
constant	cEFFTableFactorCoefficient	- y value Table of light use efficiency coefficient as a function of temperature	DOUBLEARRAY	1	-	-	0.54 0.54 0.36 0.0
constant	cEFFTableTemperature	- x value Table of temperature	DOUBLEARRAY	°C	-	-	0.0 10.0 40.0 100.0
constant	cEMD	Day of emergence (either direct or in seed-bed)	INT	1	-	-	0
constant	cEMYR	Year of emergence	INT	1	-	-	2006
constant	cESTAB	Method of plant establishment either TRANSPLANT or DIRECT-SEED	CHAR	1	-	-
constant	cETMOD	Method for evapotranspiraton calculation, either PENMAN - Penman-based (Van Kraalingen & Stol,1996), PRIESTLEY TAYLOR: - Priestleu-Taylor, and MAKKINK - Makkink (van Kraalingen and Stol, 1996)	CHAR	1	-	-
constant	cFAOF	MultipL. factor for potential evapotranspiration (FAO)	DOUBLE	1	-	-	1.0
constant	cFCLV	Mass fraction carbon of leaves	DOUBLE	kg/kg	-	-	0.419
constant	cFCRT	Mass fraction carbon of roots	DOUBLE	kg/kg	-	-	0.431
constant	cFCSO	Mass fraction carbon of storage organs (panicles)	DOUBLE	kg/kg	-	-	0.487
constant	cFCST	Mass fraction carbon of stems	DOUBLE	kg/kg	-	-	0.431
constant	cFCSTR	Mass fraction carbon of stem reserves	DOUBLE	kg/kg	-	-	0.444
constant	cFERTILTableDayAfterSowing	- x value Table of day after sowing	INTARRAY	1	-	-	0 1 11 12 13 29 30 31 66 67 68 94 95 96 366
constant	cFERTILTableFertilizer	- y value Table of fertilizer rate in the seed-bed	DOUBLEARRAY	kg/ha	-	-	0.0 0.0 0.0 60.0 0.0 0.0 60.0 0.0 0.0 60.0 0.0 0.0 45.0 0.0 0.0
constant	cFIXPERC	Fixed percolation rate when SWITVP = -1	DOUBLE	mm/d	-	-	10000.0
constant	cFLVTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.5 0.75 1.0 1.2 2.5
constant	cFLVTableFraction	- y value Total dry matter partitioned to the leaf	DOUBLEARRAY	1	-	-	0.6 0.6 0.3 0.0 0.0 0.0
constant	cFNLVI	Initial leaf N fraction (on weight basis: kg N kg-1 leaf)	DOUBLE	kg/kg	-	-	0.025
constant	cFNTRT	Fraction N translocation from roots (additonal) fraction of total N translocation from stems and leaves (-)	DOUBLE	1	-	-	0.15
constant	cFRPAR	Fraction of sunlight energy that is photosynthetically active	DOUBLE	1	-	-	0.5
constant	cFSHTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.43 1.0 2.5
constant	cFSHTableFraction	- y value Fraction total dry matter partitioned to the shoot	DOUBLEARRAY	1	-	-	0.5 0.75 1.0 1.0
constant	cFSOTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.5 0.75 1.0 1.2 2.5
constant	cFSOTableFraction	- y value Total dry matter partitioned to the panicles	DOUBLEARRAY	1	-	-	0.0 0.0 0.0 0.6 1.0 1.0
constant	cFSTR	Fraction of carbohydrates allocated to stems that is stored as reserves	DOUBLE	1	-	-	0.2
constant	cFSTTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.5 0.75 1.0 1.2 2.5
constant	cFSTTableFraction	- y value Total dry matter partitioned to the stem	DOUBLEARRAY	1	-	-	0.4 0.4 0.7 0.4 0.0 0.0
constant	cIRRI	Supply amount of irrigation as Irrigation gift (mm) when SWITIR = 2-5	DOUBLE	milimetre	-	-	0.0
constant	cKDFTableCoefficient	- y value Table of light extinction coefficient for leaves	DOUBLEARRAY	1	-	-	0.4 0.4 0.6 0.6
constant	cKDFTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.65 1.0 2.5
constant	cKNFTableCoefficient	- y value Table of Extinction coefficient of N profile in the canopy	DOUBLEARRAY	1	-	-	0.4 0.4
constant	cKNFTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 2.5
constant	cKPAMIN	Minimum soil water potential (Kpa) if SWITIR = 3	DOUBLE	kPa	-	-	50.0
constant	cKST	Saturated hydraulic conductivity, for each soil layer	DOUBLEARRAY	cm/d	-	-	-
constant	cLAPE	Initial leaf area per plant (data at emergence, for either direct-seeding or seed-bed)	DOUBLE	1	-	-	1.0E-4
constant	cLAT	Latitude	DOUBLE	°	-90.0	90.0	0.0
constant	cLLDL	Lower limit death of leaves (kPa)	DOUBLE	kPa	-	-	1584.89
constant	cLLLE	Lower limit leaf expansion (kPa) !PVO20131104: oryza2000 book	DOUBLE	kPa	-	-	260.0
constant	cLLLS	Lower limit leaf rolling (kPa)	DOUBLE	kPa	-	-	794.33
constant	cLLRT	Lower limit relative transpiration reduction (kPa)	DOUBLE	kPa	-	-	1584.89
constant	cLRSTR	Fraction of allocated stem reserves that is available for growth	DOUBLE	1	-	-	0.947
constant	cMAINLV	Maintenance respiration coefficient of leaves	DOUBLE	kilogram_per_kilogram_per_day	-	-	0.02
constant	cMAINRT	Maintenance respiration coefficient of roots	DOUBLE	kilogram_per_kilogram_per_day	-	-	0.01
constant	cMAINSO	Maintenance respiration coefficient of storage organs (panicles)	DOUBLE	kilogram_per_kilogram_per_day	-	-	0.003
constant	cMAINST	Maintenance respiration coefficient of stems	DOUBLE	kilogram_per_kilogram_per_day	-	-	0.015
constant	cMAXGW	Maximum groundwater table depth (cm)	DOUBLE	cm	-	-	1000.0
constant	cMINGW	Minimum groundwater table depth (cm)	DOUBLE	cm	-	-	20.0
constant	cMOPP	Maximum optimum photoperiod (h)	DOUBLE	h	-	-	10.0
constant	cMSKPAIrriTableDVS	- x value Table of development stage for MSKPA min	DOUBLEARRAY	1	-	-	-
constant	cMSKPAIrriTableMin	- y value Table of MSKPAMin	DOUBLEARRAY	1	-	-	-
constant	cNFLVI	Initial leaf N fraction (on area basis: g N m-2 leaf)	DOUBLE	g/m2	-	-	0.5
constant	cNFLVTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.16 0.33 0.65 0.79 1.0 1.46 2.02 2.5
constant	cNFLVTableFraction	- y value Table of N fraction in leaves per unit of leaf area as function of development stage	DOUBLEARRAY	g/m2	-	-	0.54 0.54 1.53 1.22 1.56 1.29 1.37 0.83 0.83
constant	cNH	Number of hills	DOUBLE	1	-	-	25.0
constant	cNITROENV	Nitrogen production situation setting: either POTENTIAL: - Potential production or NITROGEN BALANCE - Production may be nitrogen-limited	CHAR	1	-	-
constant	cNL	Number of soil layers (maximum is 10) (-)	INT	1	-	-	-
constant	cNLPUD	Number of puddled soil layers, including the plow sole - value between 0 (top layer) and cNL - 2	INT	1	-	-	0
constant	cNMAXLTTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.4 0.75 1.0 2.0 2.5
constant	cNMAXLTTableFraction	- y value Maximum leaf N fraction on weight basis	DOUBLEARRAY	kg/kg	-	-	0.053 0.053 0.04 0.028 0.022 0.015
constant	cNMAXSO	Maximum N concentration in storage organs (kg N kg-1)	DOUBLE	kg/kg	-	-	0.0175
constant	cNMAXUP	Maximum daily N uptake (kg N ha-1 d-1)	DOUBLE	kilogram_per_hectare_per_day	-	-	8.0
constant	cNMINLTTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 1.0 2.1 2.5
constant	cNMINLTTableFraction	- y value Minimum leaf N fraction on weight basis	DOUBLEARRAY	kg/kg	-	-	0.025 0.012 0.007 0.007
constant	cNMINSOTTableAmountN	- x value Table of the amount N in the crop till flowering	DOUBLEARRAY	kg/ha	-	-	0.0 50.0 150.0 250.0 400.0 1000.0
constant	cNMINSOTTableMinNSO	- y value Minimum N concentration in storage organs	DOUBLEARRAY	kg/ha	-	-	0.006 8.0E-4 0.0125 0.015 0.017 0.017
constant	cNPLDS	Number of plants/m2 direct-seeded	DOUBLE	1	-	-	200.0
constant	cNPLH	Number of plants per hill	DOUBLE	1	-	-	2.0
constant	cNPLSB	Number of plants in seed-bed (???)	DOUBLE	1	-	-	1000.0
constant	cNSLLVTTableFactor	- y value Effect of N stress on leaf death rate	DOUBLEARRAY	1	-	-	1.0 1.0 1.4 1.5 1.5
constant	cNSLLVTTableNStressLevel	- x value Table of N stress level	DOUBLEARRAY	1	-	-	0.0 1.1 1.5 2.0 2.5
constant	cNSP_FRC	Switch to simulate number of spikelet (NSP) (0 = Simulate NSP and 2 = force NSP to observed value)	INT	1	-	-	0
constant	cNSP_OBS	Observed number of spikelets per hectare	DOUBLE	1	-	-	4.0E8
constant	cPERTableRate	- y value Supply tale of percolation rate when SWITVP = 0	DOUBLEARRAY	mm/d	-	-	3.0 3.0
constant	cPERTableWaterTableDepth	- x value Table of water table depth	DOUBLEARRAY	cm	-	-	0.0 200.0
constant	cPFCR	Soil water tension of puddled soil layer at which cracks reach break through the plow sole (pF)	DOUBLE	1	-	-	6.0
constant	cPN	Power function parameters, for each soil layer (-) (needed if SWITKH = 2):	DOUBLEARRAY	1	-	-	-
constant	cPPSE	Photoperiod sensitivity (h-1)	DOUBLE	per_hour	-	-	0.0
constant	cPRODENV	Water production situation setting (either POTENTIAL - Potential production or WATER BALANCE - production may be water-limited	CHAR	1	-	-
constant	cPTABLETableCalendarDay	- x value Table of calendar day	INTARRAY	d	-	-	1 50 100 366
constant	cPTABLETableRate	- y value Table of given percolation rate when SWITVP = 2	DOUBLEARRAY	mm/d	-	-	1.0 1.0 20.0 20.0
constant	cQ10	Factor accounting for increase in maintenance respiration with a 10 oC rise in temperature	DOUBLE	1	-	-	2.0
constant	cRECNITTableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.2 0.4 0.8 1.0 2.5
constant	cRECNITTableFraction	- y value Table of recovery fraction of nitrogen in the soil	DOUBLEARRAY	1	-	-	0.3 0.35 0.5 0.75 0.75 0.75
constant	cREDFTTableFactor	- y value Table of factor considering the effect of temperature on maximum assimilation rate AMAX	DOUBLEARRAY	1	-	-	0.0 0.0 1.0 1.0 0.0 0.0
constant	cREDFTTableTemperature	- x value Table of Temperature	DOUBLEARRAY	°C	-	-	-10.0 10.0 20.0 37.0 43.0 99.0
constant	cRFNLV	Residual N fraction of leaves (kg N kg-1 leaves)	DOUBLE	kg/kg	-	-	0.004
constant	cRFNST	Residual N fraction of stems (kg N kg-1 stems)	DOUBLE	kg/kg	-	-	0.0015
constant	cRGRA	RGRA parameter for RGRMAX	DOUBLE	1	-	-	12.4
constant	cRGRB	RGRB parameter for RGRMAX	DOUBLE	1	-	-	-0.73
constant	cRGRLMN	Minimum relative growth rate of leaf area (oCd-1)	DOUBLE	degree_Celsius_per_day	-	-	0.004
constant	cRGRLMX	Maximum relative growth rate of leaf area (oCd-1)	DOUBLE	degree_Celsius_per_day	-	0.0095	0.0085
constant	cRGRMX	RGRMX parameter for RGRMAX	DOUBLE	1	-	-	0.16
constant	cRHX100	Switch to consider the vapor pressure (0 = take VP from weather file, 1 = set RH = 100% at TMIN from this calculate VP)	CHAR	1	-	-
constant	cRIRRITTableDOY	- x value Table of day of year	INTARRAY	1	-	-	0
constant	cRIRRITTableIrrigationAmount	- y value Table of supply amount of irrigation	DOUBLEARRAY	milimetre	-	-	50.0
constant	cRIWCLI	Re-initialize switch for the WCLI, RIWCLI = NO, RIWCLI = YES	CHAR	1	-	-
constant	cSBDUR	Seed-bed duration (days between emerging and transplanting)	INT	d	-	-	21
constant	cSCP	Scattering coefficient of leaves for PAR (-)	DOUBLE	1	-	-	0.2
constant	cSHCKD	Relation between seedling age and delay in phenological	DOUBLE	degree_Celsius _day_per_degree_Celsius_day	-	-	0.4
constant	cSHCKL	Relation between seedling age and delay in leaf area development	DOUBLE	degree_Celsius _day_per_degree_Celsius_day	-	-	0.25
constant	cSLA	Specific leaf area as function of development stage, ASLA, BSLA, CSLA, DSLA, and SLAMAX	DOUBLE	hectares_per_kilogram	-	-	0.02
constant	cSLAMAX	maximum value of SLA (ha/kg)	DOUBLE	hectares_per_kilogram	-	-	0.0045
constant	cSLATableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 2.1
constant	cSLATableSLA	- y value Table of specific leaf area (ha kg-1)	DOUBLEARRAY	hectares_per_kilogram	-	-	0.00333 0.00177
constant	cSLMIN	Soil layer for which KPAMIN or WCMIN applies (-) in case of SWITIR =3 or 4	INT	1	-	-	4
constant	cSOILSP	Indigenous soil N-supply rate (kg N/ha/d) (0.8)	DOUBLE	kilogram_per_hectare_per_day	-	-	0.8
constant	cSPGF	Spikelet growth factor (no kg-1) ! value for IR72	DOUBLE	number_per_kilogram	-	-	64900.0
constant	cSSGATableDVS	- x value Table of development stage	DOUBLEARRAY	1	-	-	0.0 0.9 2.1 2.5
constant	cSSGATableSSGA	- y value Table of specific green stem area (ha kg-1)	DOUBLEARRAY	hectares_per_kilogram	-	-	3.0E-4 3.0E-4 0.0 0.0
constant	cSWIRTR	Switch to use function that built in ORYZA for the reduction in relative transpiration (DATA = use data and FUNCTIONS = use function)	CHAR	1	-	-
constant	cSWISLA	Switch to use SLA from calculated function or as provied table (FUNCTION = Give function parameters ASLA, BSLA, CSLA, DSLA, SLAMAX and TABLE = Give SLA as a function of DVS in the table SLATB)	CHAR	1	-	-
constant	cSWITGW	Switch of groundwater mode (0 = Deep groundwater, 1 = groundwater from supplied data and 2 = Calculated ground water)	INT	1	-	-	0
constant	cSWITIR	Switch for considering the irrigation modes (0 = No irrigation, rainfed, 1 = Irrigation supplied as input data, 2 = Irrigation at minimum standing soil water depth, 3 = Irrigation at minimum soil water potential, = irrigation at minimul soil water content, and 5 = Irrigation at x days after disappeared standing water)	INT	1	-	-	0
constant	cSWITKH	Switch for consideration of soil conductivity (0 = nodata, 1 = van Genuchten, 2 = power function used)	INT	1	-	-	1
constant	cSWITPD	Switch to consider ( 0= Non puddled and 1 = pubbled)	INT	1	-	-	0
constant	cSWITPF	Switch for considration of water retention (0 = no data, 1 =van Genuchten, When DATA, data have to be supplied for saturation, field capacity, wilting point and at air dryness	INT	1	-	-	1
constant	cSWITVP	Switch to consider the percolation (SWITVP can not be 1 (CALCULATE) for nonpuddled soil, -1 = fixed percolation rate, 0 = percolation as function of groundwater depth , 1 = calculation percolation, and 2 = fixed percolation rate as function of time)	INT	1	-	-	0
constant	cTBD	Base temperature for development (oC)	DOUBLE	°C	-	-	8.0
constant	cTCLSTR	Time coefficient for loss of stem reserves (1 d-1)	DOUBLE	per_day	-	-	10.0
constant	cTCNTRF	Time coefficient for N translocation to grains (d)	DOUBLE	d	-	-	10.0
constant	cTKL	Thickness of each soil layer (m)	DOUBLEARRAY	m	-	-	-
constant	cTMCTableDayOfYear	x value Table of day of year	INTARRAY	1	-	-	0 366
constant	cTMCTableValue	y value Table for temperature increase for climate change stuides	DOUBLEARRAY	1	-	-	0.0 0.0
constant	cTMD	Maximum temperature for development (oC)	DOUBLE	°C	-	-	42.0
constant	cTMPSB	Temperature increase in seed-bed due to cover, Zero when no cover over seed-bed, 9.5 with seed-bed	DOUBLE	1	-	-	0.0
constant	cTOD	Optimum temperature for development (oC)	DOUBLE	°C	-	-	30.0
constant	cTREF	Reference temperature (oC) (ORYZA2000)	DOUBLE	°C	-	-	25.0
constant	cULDL	Upper limit death of leaves (kPa)	DOUBLE	kPa	-	-	630.95
constant	cULLE	Upper limit leaf expansion (kPa) !PVO20131104: oryza2000 book	DOUBLE	kPa	-	-	50.0
constant	cULLS	Upper limit leaf rolling (kPa)	DOUBLE	kPa	-	-	74.13
constant	cULRT	Upper limit relative transpiration reduction (kPa)	DOUBLE	kPa	-	-	74.13
constant	cVGA	Van Genuchten parameters, for each soil layer, a parameter (cm-1)	DOUBLEARRAY	per_centimetre	-	-	-
constant	cVGL	Van Genuchten parameters, for each soil layer, l parameter (-)	DOUBLEARRAY	1	-	-	-
constant	cVGN	Van Genuchten parameters, for each soil layer, n parameter (-)	DOUBLEARRAY	1	-	-	-
constant	cVGR	Van Genuchten parameters, for each soil layer, residual water content (-)	DOUBLEARRAY	1	-	-	-
constant	cWATBAL	Choice of water balance, this only used when PRODENV = WATER BALANCE, either PADDY - paddy water balacen for lowland soils, SAHEL - Sahel water balance for freely draining upland soils, and SAWAH - Sawah water balance for lowland or upland soils	CHAR	1	-	-
constant	cWCAD	Volumetric water content at air dryness, for each soil layer (m3 m-3)(needed if SWITPF = 0)	DOUBLEARRAY	m3/m3	-	-	-
constant	cWCFC	Volumetric water content at field capacity, for each soil layer (m3 m-3)(needed if SWITPF = 0)	DOUBLEARRAY	m3/m3	-	-	-
constant	cWCLI	Initial volumetric water content at the start of simulation, for each soil layer (m3 m-3): USE ALWAYS FIELD CAPACITY, OR 0.5 TIMES WCST	DOUBLEARRAY	m3/m3	-	-	-
constant	cWCMIN	Minimum soil water content (-) if SWITIR = 4	DOUBLE	1	-	-	0.3
constant	cWCST	Saturated volumetric water content, for each soil layer	DOUBLEARRAY	m3/m3	-	-	-
constant	cWCSTRP	Saturated volumetric water content of ripened (previously puddled) soil (m3 m-3), for each soil layer	DOUBLEARRAY	m3/m3	-	-	-
constant	cWCWP	Volumetric water content at wilting point, for each soil layer (m3 m-3)(needed if SWITPF = 0)	DOUBLEARRAY	m3/m3	-	-	-
constant	cWGRMX	Maximum individual grain weight (kg grain-1)	DOUBLE	kilogram_per_grain	-	-	2.5E-5
constant	cWL0DAY	Number of days after disappearence of standing water at which irrigation water is applied (-) INTEGER!!	INT	1	-	-	0
constant	cWL0I	Initial ponded water depth at start of simulation	DOUBLE	milimetre	-	-	-
constant	cWL0MIN	Provided minimum standing water depth (mm) below which irrigation water is applied when SWITIR = 2	DOUBLE	1	-	-	10.0
constant	cWL0MX	Bund height (mm)	DOUBLE	milimetre	-	-	250.0
constant	cWLVGI	Initial leaf weight (data at emergence, for either direct-seeding or seed-bed)	DOUBLE	kg/ha	-	-	0.01
constant	cWRTI	Initial root weight (data at emergence, for either direct-seeding or seed-bed)	DOUBLE	kg/ha	-	-	0.0
constant	cWSOI	Initial weight storage organs (data at emergence, for either direct-seeding or seed-bed)	DOUBLE	kg/ha	-	-	0.0
constant	cWSTI	Initial stem weight (data at emergence, for either direct-seeding or seed-bed)	DOUBLE	kg/ha	-	-	0.01
constant	cZRTI	Initial root depth (m) (data at emergence, for either direct-seeding or seed-bed)	DOUBLE	m	-	-	1.0E-4
constant	cZRTMCD	Maximum depth of roots if drought (m)	DOUBLE	m	-	-	0.4
constant	cZRTMCW	Maximum depth of roots if no drought stress (m)	DOUBLE	m	-	-	0.25
constant	cZRTMS	Maximum rooting depth in the soil (m)	DOUBLE	m	-	-	100.0
constant	cZRTTR	Root depth at transplanting (m) (Re-initialization at transplanting)	DOUBLE	m	-	-	0.05
constant	cZWA	Receding rate of groundwater with no recharge (cm d-1)	DOUBLE	cm/d	-	-	1.0
constant	cZWB	Sensitivity factor of groundwater recharge (-)	DOUBLE	1	-	-	0.5
constant	cZWTBI	Initial groundwater table depth (cm)	DOUBLE	cm	-	-	1000.0
constant	cZWTableDOY	- x value Table of calendar day	INTARRAY	d	1	365	1
constant	cZWTableValue	- y value Table of groundwater table depth	DOUBLEARRAY	cm	-	-	100.0
input	iRAIN	R4 Daily amount of rainfall (mm d-1)	DOUBLE	mm d-1	-	-	0.0
input	iRDD	Daily shortwave radiation (kJ m-2 d-1)	DOUBLE	kJ m-2 d-1	-	-	0.0
input	iTMMN	Daily minimum temperature (°C)	DOUBLE	°C	-	-	0.0
input	iTMMX	Daily maximum temperature (°C)	DOUBLE	°C	-	-	0.0
input	iVP	Early morning vapour pressure (kPa)	DOUBLE	kPa	-	-	0.0
input	iWN	Average wind speed (m s-1)	DOUBLE	m s-1	-	-	0.0
state	sANLD	N amount in dead leaf (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sANLV	N amount in leaf (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sANLVA	N amount in leaf before flowering (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sANSO	N amount in storage organ (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sANST	N amount in stem (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sANSTA	N amount in stem before flowering (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sCTM	Cumulative daily mean temperature after correction (°C)	DOUBLE	°C d	-	-	0.0
state	sDAE	Days after emergence (d)	DOUBLE	d	-	-	0.0
state	sDLDRT	Dry weight of dead leaves due to drought	DOUBLE	kg ha-1	-	-	0.0
state	sDVS	Integrated/cumulated development rate or development stage	DOUBLE	-	-	-	0.0
state	sIRC	Cumulative irrigation	DOUBLE		-	-	0.0
state	sLAI	Leaf area index	DOUBLE	NA	-	-	0.0
state	sNALVS	Total N uptake from soil to leaf (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sNASOS	Total N uptake from soil to storage organ (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sNASTS	Total N uptake from soil to stem (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sNFERTP	Cumulative fertiliser	DOUBLE	1	-	-	0.0
state	sNGR	Number of grain (-)	DOUBLE	-	-	-	0.0
state	sNSP	Number of spikelet (-)	DOUBLE	-	-	-	0.0
state	sNTRTS	-	DOUBLE	kg ha-1	-	-	0.0
state	sPARCM1	Cumulative photosynthetically active radiation of canopy number 1 (MJ m-2)	DOUBLE	MJ m-2	-	-	0.0
state	sPARCUM	Cumulative photosynthetically active radiation of canopy (MJ m-2)	DOUBLE	MJ m-2	-	-	0.0
state	sTMAXC	Cumulative maximum daily temperature after correction	DOUBLE	°C d	-	-	0.0
state	sTMINC	Cumulative minimum daily temperature after correction	DOUBLE	°C d	-	-	0.0
state	sTNASS	Cumulative net canopy carbon (g m-2)	DOUBLE	g m-2	-	-	0.0
state	sTNSOIL	Soil available N for uptake	DOUBLE	1	-	-	0.0
state	sTS	Thermal sum for old ORYZA2000 phenology subroutine (°Cday)	DOUBLE	°C d	-	-	0.0
state	sTSLV	Thermal sum for leaf growth in old ORYZA2000 phenology subroutine (°Cday)	DOUBLE	°C d	-	-	0.0
state	sWLVD	Dry weight of dead leave due to nitrogen, shaded, and drought (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sWLVG	Dry weight of green leaves (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sWRR	Dry weight of rough rice grain (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sWRT	Dry weight of root (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sWSO	Dry weight of storage organs (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sWSTR	Dry weight of storage stem (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sWSTS	Dry weight of stem (kg ha-1)	DOUBLE	kg ha-1	-	-	0.0
state	sZRT	Rooting depth (m)	DOUBLE	m	-	-	0.0
rate	rDLDR	Death rate of leaves caused by drought (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rDPARI	Daily photosynthetically active radiation of canopy (MJ m-2 d-1)	DOUBLE	MJ m-2 d-1	-	-	0.0
rate	rDVR	Development rate	DOUBLE	d-1	-	-	0.0
rate	rGGR	Rate of increase in grain weight (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rGLAI	Daily increment in leaf area index	DOUBLE	NA	-	-	0.0
rate	rGNGR	Growth rate of number of grain (-)	DOUBLE	d-1	-	-	0.0
rate	rGNSP	Growth rate of number of spikelet	DOUBLE	d-1	-	-	0.0
rate	rGRT	Growth rate of root (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rGSO	Growth rate of storage organs (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rGST	Growth rate of stem (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rGZRT	Growth rate of root depth ( m d-1)	DOUBLE	m d-1	-	-	0.01
rate	rHU	Heat unit for old ORYZA2000 phenology subroutine (°C), HU is unitless in other calculation	DOUBLE	°C	-	-	0.0
rate	rHULV	Heat unit for leaf growth in old ORYZA2000 phenology subroutine (°Cday), HULV is unitless in other calculation	DOUBLE	°C	-	-	0.0
rate	rIR	daily irrigation rate	DOUBLE		-	-	0.0
rate	rLLV	Death rate of leaves caused by nitrogen and shaded	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNALV	Actual uptake to leaf (is minimum of availability and demand ) (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNASO	Actual uptake to storage organ (is minimum of availability and demand ) (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNAST	Actual uptake to stem(is minimum of availability and demand ) (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNLDLV	Net N flow to dead leaf (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNLV	Net N flow to leaf (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNLVAN	Net N flow to leaf before flowering (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNSO	Net N flow to storage organ (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNST	Net N flow to stem ()	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNSTAN	Net N flow to stem before flowering (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rNTRT	-	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rPARI1	Daily photosynthetically active radiation of canopy number 1 (MJ m-2 d-1)	DOUBLE	MJ m-2 d-1	-	-	0.0
rate	rRDAE	Countter for days after emergence	DOUBLE	1	-	-	0.0
rate	rRNFERTP	Daily fertiliser added	DOUBLE	1	-	-	-
rate	rRTNASS	Daily net canopy carbon (g m-2 d-1)	DOUBLE	g m-2 d-1	-	-	0.0
rate	rRTNSOIL	Daily change of soil available N for uptake	DOUBLE	1	-	-	-
rate	rRWLVG	Growth rate of leaf (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rRWSTR	Growth rate of storage in stem (kg ha-1 d-1)	DOUBLE	kg ha-1 d-1	-	-	0.0
rate	rTAV	Daily mean of maximum and mininum temperature after correction (°C)	DOUBLE	°C	-	-	0.0
rate	rTMAX	Maximum daily temperature after correction	DOUBLE	°C	-	-	0.0
rate	rTMIN	Minimum daily temperature after correction	DOUBLE	°C	-	-	0.0
out	ATRANS	Actual transpiration (mm d-1)	DOUBLE	NA	0.0	-	-
out	CROPSTA	NA	INT	NA	-	-	0
out	DTGA	daily total gross assimilation rate	DOUBLE	g/(m2 d)	-	-	0.0
out	ET0	Reference evapotranspiration (mm d-1)	DOUBLE	NA	0.0	-	-
out	LAIMAX	NA	DOUBLE	NA	-	-	0.0
out	MSKPA	NA	DOUBLEARRAY	NA	-	-	-
out	NFLV	leaf N fraction (on area basis: g N m-2 leaf)	DOUBLE	g/m2	-	-	0.0
out	NSLLV	N stress factor on leaf death	DOUBLE	1	-	-	1.0
out	PTRANS	Potential transpiration (mm d-1)	DOUBLE	NA	0.0	-	-
out	RGRMAX	RGRMAX as function of TMIN	DOUBLE	1	-	-	0.0
out	RNSTRS	N stress factor on relative leaf growth	DOUBLE	1	-	-	1.0
out	TDRW	NA	DOUBLE	NA	-	-	0.0
out	TERMNL	Flag that indicates that the simulation terminated	BOOLEAN	1	-	-	false
out	WAG	NA	DOUBLE	NA	-	-	0.0
out	WAGT	NA	DOUBLE	NA	-	-	0.0
out	WCL	water content per layer	DOUBLEARRAY	NA	-	-	-
out	WCLQT	NA	DOUBLEARRAY	NA	-	-	-
out	WL	volum water content per layer	DOUBLEARRAY	NA	-	-	-
out	WL0	NA	DOUBLE	NA	-	-	0.0
out	WLV	NA	DOUBLE	NA	-	-	0.0
out	WST	NA	DOUBLE	NA	-	-	0.0
out	WSTRESF	Water stress factor on assimilation rate (-)	DOUBLE	NA	0.0	1.01	-
out	ZW	Depth of groundwater	DOUBLE	cm	-	-	0.0

Nested Class Summary

Nested classes/interfaces inherited from class net.simplace.sim.model.FWSimComponent

net.simplace.sim.model.FWSimComponent.TEST_STATE

Field Summary

Fields inherited from class net.simplace.sim.model.FWSimComponent

iFieldMap, iFrequence, iInputMap, iJexlRule, iMasterComponentGroup, iName, iOrderNumber, isComponentGroup, iSimComponentElement, iSimModel, iVarMap

Constructor Summary

Constructors

Constructor	Description
Oryza()
Oryza(String aName, HashMap<String,net.simplace.sim.util.FWSimVariable<?>> aFieldMap, HashMap<String,String> aInputMap, org.jdom2.Element aSimComponentElement, net.simplace.sim.util.FWSimVarMap aVarMap, int aOrderNumber)

Method Summary

Modifier and Type	Method	Description
protected net.simplace.sim.model.FWSimComponent	clone(net.simplace.sim.util.FWSimVarMap aVarMap)
HashMap<String,net.simplace.sim.util.FWSimVariable<?>>	createVariables()
HashMap<String,net.simplace.sim.util.FWSimVariable<?>>	fillTestVariables(int aParamIndex, net.simplace.sim.model.FWSimComponent.TEST_STATE aDefineOrCheck)	called for single component test to check the components algorithm.
protected void	init()
protected void	initNCROP()
protected void	initPaddy()
protected void	paddyUpdateStates()
protected void	process()
protected void	processBiomass()

Methods inherited from class net.simplace.sim.model.FWSimComponent

addVariable, bind, checkCondition, createSimComponent, createSimComponent, createSimComponent, createSimComponent, doProcess, getConstantVariables, getContentType, getCreateFormXML, getDescription, getEditFormXML, getFieldMap, getFrequence, getFrequenceRuleScript, getInputs, getInputVariables, getMasterComponentGroup, getName, getOrderNumber, getOutputVariables, getVariable, getVariableField, getVarMap, initialize, isConditionCheck, isVariableAvailable, performLinks, performLinks, readInputs, removeVariable, reset, runComponentTest, setVariablesDefault, toComponentLinkingXML, toDocXML, toGroupXML, toOutputDefinitionXML, toResourcesDataXML, toResourcesDefinitionXML, toString, toXML, writeVarInfos

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait

Constructor Details

Oryza

public Oryza()

Oryza

public Oryza(String aName,
 HashMap<String,net.simplace.sim.util.FWSimVariable<?>> aFieldMap,
 HashMap<String,String> aInputMap,
 org.jdom2.Element aSimComponentElement,
 net.simplace.sim.util.FWSimVarMap aVarMap,
 int aOrderNumber)

Parameters:

aName -

aFieldMap -

aInputMap -

aSimComponentElement -

aVarMap -

aOrderNumber -

Method Details

createVariables

public HashMap<String,net.simplace.sim.util.FWSimVariable<?>> createVariables()

Specified by:

createVariables in interface net.simplace.sim.util.FWSimFieldContainer

Specified by:

createVariables in class net.simplace.sim.model.FWSimComponent

initPaddy

protected void initPaddy()

initNCROP

protected void initNCROP()

init

protected void init()

Specified by:

init in class net.simplace.sim.model.FWSimComponent

processBiomass

protected void processBiomass()

process

protected void process()

Specified by:

process in class net.simplace.sim.model.FWSimComponent

paddyUpdateStates

protected void paddyUpdateStates()

fillTestVariables

public HashMap<String,net.simplace.sim.util.FWSimVariable<?>> fillTestVariables(int aParamIndex,
 net.simplace.sim.model.FWSimComponent.TEST_STATE aDefineOrCheck)

called for single component test to check the components algorithm.

Specified by:

fillTestVariables in class net.simplace.sim.model.FWSimComponent

See Also:

• net.simplace.sim.util.FWSimFieldContainer#fillTestVariables(int aParamIndex, TEST_STATE aDefineOrCheck)

clone

protected net.simplace.sim.model.FWSimComponent clone(net.simplace.sim.util.FWSimVarMap aVarMap)

Specified by:

clone in class net.simplace.sim.model.FWSimComponent