java.lang.Object

net.simplace.sim.model.FWSimComponent

net.simplace.sim.components.models.lintul5.amei.Biomass

All Implemented Interfaces:: net.simplace.sim.util.FWSimFieldContainer

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

Lintul5 - Simple generic model for simulation of crop growth - Biomass part

This sim component calculates the biomass part from Lintul5. It does not calculate any NPK related part, but takes the NPK stress factor iNPKI as an input.

== References == - (L5) Joost Wolf, [https://models.pps.wur.nl/system/files/LINTUL4-report-vs1_0.zip User guide for LINTUL5], Wageningen UR, Wageningen, 2012

Author:

G. Krauss

See Also:

Component Variables

Content Type	Name	Description	Data Type	Unit	Min Value	Max Value	Default Value
constant	cDVSDLT	development stage above which death of leaves starts in dependence of mean daily temperature	DOUBLE	1	0.0	-	1.0
constant	cDVSDR	development stage above which death of roots and stems starts	DOUBLE	1	0.0	-	1.0
constant	cDVSI	initial development stage of crop (from 0 to 2)	DOUBLE	1	0.0	-	0.0
constant	cKDIFTableDVS	DVS for extiction coefficient for diffuse visible light (c.f. KDIFTB)	DOUBLEARRAY	1	-	-	0.0 2.0
constant	cKDIFTableK	Extinction cofficient for diffuse visible light as function of DVS (c.f. KDIFTB)	DOUBLEARRAY	1	-	-	0.6 0.6
constant	cLAICR	Critical leaf area index for overshadowing	DOUBLE	m2/m2	0.0	10.0	4.0
constant	cLeavesPartitioningTableDVS	DVS for fraction of above-ground dry matter to leaves (c.f. FLTB)	DOUBLEARRAY	1	-	-	0.0 0.1 0.25 0.5 0.646 0.95 2.0
constant	cLeavesPartitioningTableFraction	Fraction of above-ground dry matter to leaves as function of DVS (c.f. FLTB)	DOUBLEARRAY	1	0.0	1.0	0.65 0.65 0.7 0.5 0.3 0.0 0.0
constant	cNLAI	coefficient for the reduction due to nutrient (N-P-K) stress of the LAI increase (during juvenile phase)	DOUBLE	1	-	-	1.0
constant	cNLUE	coefficient for the reduction of RUE due to nutrient (N-P-K) stress	DOUBLE	1	-	-	1.1
constant	cNPART	coefficient for N stress-effect on leaf biomass reduction	DOUBLE	1	-	-	1.0
constant	cNSLA	coefficient for the effect of nutrient (N-P-K) stress on SLA reduction	DOUBLE	1	-	-	0.5
constant	cRDI	Initial rooting depth	DOUBLE	m	0.0	10.0	0.1
constant	cRDRL	max. rel. death rate of leaves due to water stress	DOUBLE	d-1	0.0	1.0	0.05
constant	cRDRLeavesTableMeanTemp	Daily mean temperature for relative death rate of leaves (c.f. RDRLTB)	DOUBLEARRAY	°C	-	-	-10.0 10.0 15.0 30.0 50.0
constant	cRDRLeavesTableRelativeRate	Relative death rate of leaves as a function of daily mean temperature (c.f. RDRLTB)	DOUBLEARRAY	d-1	-	-	0.0 0.02 0.03 0.05 0.09
constant	cRDRNS	max. relative death rate of leaves due to nutrient (N-P-K) stress	DOUBLE	d-1	0.0	1.0	0.05
constant	cRDRRootsTableDVS	DVS for relative death rate of stems (c.f. RDRRTB)	DOUBLEARRAY	1	-	-	0.0 1.5 1.5001 2.0
constant	cRDRRootsTableRelativeRate	Relative death rate of stems as a function of DVS (c.f. RDRRTB)	DOUBLEARRAY	d-1	-	-	0.0 0.0 0.02 0.02
constant	cRDRSHM	rel. death rate of leaves due to shading (above LAICR)	DOUBLE	d-1	0.0	1.0	0.03
constant	cRDRStemsTableDVS	DVS for relative death rate of roots (c.f. RDRSTB)	DOUBLEARRAY	1	-	-	0.0 1.5 1.5001 2.0
constant	cRDRStemsTableRelativeRate	Relative death rate of roots as a function of DVS (c.f. RDRSTB)	DOUBLEARRAY	d-1	-	-	0.0 0.0 0.02 0.02
constant	cRGRLAI	maximal relative increase in LAI	DOUBLE	d-1	0.0	-	0.00817
constant	cRRI	Maximum daily increase in rooting depth	DOUBLE	m/d	0.0	0.15	0.012
constant	cRWRTI	initial change in living root biomass	DOUBLE	g/(m2 d)	-	-	0.0
constant	cRootsPartitioningTableDVS	DVS for fraction of total dry matter to roots (c.f. FRTB)	DOUBLEARRAY	1	-	-	0.0 0.1 0.2 0.35 0.4 0.5 0.7 0.9 1.2 2.0
constant	cRootsPartitioningTableFraction	Fraction of total dry matter to roots as function of DVS (c.f. FRTB)	DOUBLEARRAY	1	0.0	1.0	0.5 0.5 0.4 0.22 0.17 0.13 0.07 0.03 0.0 0.0
constant	cSLATableDVS	DVS for specific leaf area (c.f. SLATB)	DOUBLEARRAY	1	-	-	0.0 2.0
constant	cSLATableSLA	Specific leaf area as function of DVS (c.f. SLATB)	DOUBLEARRAY	m2/g	-	-	0.0212 0.0212
constant	cScaleFactorKDIF	Scales the y-values of KDIFTB (for sensitivity analysis / calibration)	DOUBLE	1	-	-	1.0
constant	cScaleFactorRDRLeaves	Scales the y-values of RDRLeaves (for sensitivity analysis / calibration)	DOUBLE	1	-	-	1.0
constant	cScaleFactorRDRRoots	Scales the y-values of RDRRoots (for sensitivity analysis / calibration)	DOUBLE	1	-	-	1.0
constant	cScaleFactorRDRStems	Scales the y-values of RDRStems (for sensitivity analysis / calibration)	DOUBLE	1	-	-	1.0
constant	cScaleFactorSLA	Scales the y-values of SLATB (for sensitivity analysis / calibration)	DOUBLE	1	-	-	1.0
constant	cStemsPartitioningTableDVS	DVS for fraction of above-ground dry matter to stems (c.f. FSTB)	DOUBLEARRAY	1	-	-	0.0 0.1 0.25 0.5 0.646 0.95 1.0 2.0
constant	cStemsPartitioningTableFraction	Fraction of above-ground dry matter to stems as function of DVS (c.f. FSTB)	DOUBLEARRAY	1	0.0	1.0	0.35 0.35 0.3 0.5 0.7 1.0 0.0 0.0
constant	cStorageOrgansPartitioningTableDVS	DVS for fraction of above-ground dry matter to storage organs (c.f. FOTB)	DOUBLEARRAY	1	-	-	0.0 0.95 1.0 2.0
constant	cStorageOrgansPartitioningTableFraction	Fraction of above-ground dry matter to storage organs as function of DVS (c.f. FOTB)	DOUBLEARRAY	1	0.0	1.0	0.0 0.0 1.0 1.0
constant	cTBASE	lower threshold temperature for LAI increase	DOUBLE	°C	-	-	0.0
constant	cTDWI	Initial total crop dry weight	DOUBLE	g/m2	0.0	2000.0	21.0
input	iAVRAD	Daily total irradiation	DOUBLE	J/(m2 d)	-	-	0.0
input	iDVS	development stage of crop (from 0 to 2)	DOUBLE	1	-	-	0.0
input	iDoHarvest	harvesting	BOOLEAN	1	-	-	false
input	iDoSow	sowing	BOOLEAN	1	-	-	false
input	iEMERG	has emerged	BOOLEAN	1	-	-	false
input	iIDEMERG	Day of emergence	INT	1	0	366	0
input	iLeaveSenescenceHeatStressFactor	Factor that increases leaf senescence due to heat stress	DOUBLE	1	0.0	-	1.0
input	iNNI	-	DOUBLE	1	-	-	1.0
input	iNPKI	-	DOUBLE	1	-	-	1.0
input	iRDM	maximal rooting depth	DOUBLE	m	0.0	10.0	1.25
input	iRTMCO	overall correction factor for RUE in dependence of both CO2 concentration and non-optimal daytime and minimal temperatures	DOUBLE	1	-	-	0.0
input	iRUE	radiation use efficiency	DOUBLE	g/MJ	-	-	0.0
input	iTMAX	maximal air temperature during day (output of routine WEATHR)	DOUBLE	°C	-	-	0.0
input	iTMIN	minimal air temperature during day (output of routine WEATHR)	DOUBLE	°C	-	-	0.0
input	iTRANRF	water stress reduction factor	DOUBLE	1	0.0	1.0	1.0
state	sGTSUM	total biomass of the crop	DOUBLE	g/m2	0.0	-	0.0
state	sLAI	leaf area index (leaf area per soil surface)	DOUBLE	m2/m2	-	-	0.0
state	sRD	actual rooting depth	DOUBLE	m	-	-	0.0
state	sTAGB	total above-ground biomass	DOUBLE	g/m2	-	-	0.0
state	sTAGBG	total above-ground living biomass	DOUBLE	g/m2	-	-	0.0
state	sTPAR	total photosynthetically active radiation	DOUBLE	MJ/m2	-	-	0.0
state	sTPARINT	total intercepted radiation (PAR)	DOUBLE	MJ/m2	-	-	0.0
state	sWLV	weight of leaves	DOUBLE	g/m2	-	-	0.0
state	sWLVD	weight of dead leaves	DOUBLE	g/m2	-	-	0.0
state	sWLVG	weight of living leaves	DOUBLE	g/m2	-	-	0.0
state	sWRT	weight of roots	DOUBLE	g/m2	-	-	0.0
state	sWRTD	weight of deat roots	DOUBLE	g/m2	-	-	0.0
state	sWSO	weight of storage organs	DOUBLE	g/m2	-	-	0.0
state	sWST	weight of stems	DOUBLE	g/m2	-	-	0.0
state	sWSTD	weight of dead stems	DOUBLE	g/m2	-	-	0.0
rate	rDLV	decrease in leaf mass by senescence	DOUBLE	g/(m2 d)	-	-	0.0
rate	rDRRT	dead root rate	DOUBLE	g/(m2 d)	-	-	0.0
rate	rDRST	dead stem rate	DOUBLE	g/(m2 d)	-	-	0.0
rate	rGRT	daily increase in total biomass of the crop	DOUBLE	g/(m2 d)	-	-	0.0
rate	rPAR	daily amount of photosynthetically active radiation	DOUBLE	MJ/(m2 d)	-	-	0.0
rate	rPARINT	(or PARAB) daily amount of PAR as intercepted by the crop canopy	DOUBLE	MJ/(m2 d)	-	-	0.0
rate	rRLAI	change in leaf area index	DOUBLE	d-1	-	-	0.0
rate	rRR	root growth rate	DOUBLE	m/d	-	-	0.0
rate	rRWLVG	change in living leaf biomass	DOUBLE	g/(m2 d)	-	-	0.0
rate	rRWRT	change in living root biomass	DOUBLE	g/(m2 d)	-	-	0.0
rate	rRWSO	change in storage organ biomass	DOUBLE	g/(m2 d)	-	-	0.0
rate	rRWST	change in living stem biomass	DOUBLE	g/(m2 d)	-	-	0.0
out	FINT	fractional light interception	DOUBLE	1	-	-	0.0
out	K	light extinction coefficient as function of actual devstage	DOUBLE	m2/m2	-	-	0.0
out	LAII	-	DOUBLE	m2/m2	0.0	10.0	0.0
out	WithCrop	crop is present	BOOLEAN	1	-	-	false

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

Biomass()

Empty constructor used by class.forName()

Biomass(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()

Create the FWSimVariables as interface for this SimComponent

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()

initializes the fields by getting input and output FWSimVariables from VarMap

protected void

process()

process the algorithm and write the results back to VarMap

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
- Biomass
  
  public Biomass(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 -
- Biomass
  
  public Biomass()
  
  Empty constructor used by class.forName()
Method Details
- createVariables
  
  public HashMap<String,net.simplace.sim.util.FWSimVariable<?>> createVariables()
  
  Create the FWSimVariables as interface for this SimComponent
  Specified by:
  
  createVariables in interface net.simplace.sim.util.FWSimFieldContainer
  
  Specified by:
  
  createVariables in class net.simplace.sim.model.FWSimComponent
  
  See Also:
  
  FWSimComponent.createVariables()
- init
  
  protected void init()
  
  initializes the fields by getting input and output FWSimVariables from VarMap
  Specified by:
  
  init in class net.simplace.sim.model.FWSimComponent
  
  See Also:
  
  FWSimComponent.init()
- process
  
  protected void process()
  
  process the algorithm and write the results back to VarMap
  Specified by:
  
  process in class net.simplace.sim.model.FWSimComponent
  
  See Also:
  
  FWSimComponent.process()
- 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
  
  See Also:
  
  FWSimComponent.clone(net.simplace.sim.util.FWSimVarMap)

Class Biomass

Component Variables

Nested Class Summary

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

Field Summary

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

Constructor Summary

Method Summary

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

Methods inherited from class java.lang.Object

Constructor Details

Biomass

Biomass

Method Details

createVariables

init

process

fillTestVariables

clone