Package net.simplace.usermodules.heidi.modules.Lintul5mod

Klasse Lintul5_Heidi

java.lang.Object
net.simplace.sim.model.FWSimComponent
net.simplace.usermodules.heidi.modules.Lintul5mod.Lintul5_Heidi
Alle implementierten Schnittstellen:
net.simplace.sim.util.FWSimFieldContainer
public class Lintul5_Heidi extends net.simplace.sim.model.FWSimComponent
Component for the Lintul crop model

Component Variables

Content TypeNameDescriptionData TypeUnitMin ValueMax ValueDefault Value
constantcDVSDLTdevelopment stage above which death of leaves starts in dependence of mean daily temperatureDOUBLE1--1.0
constantcDVSDRdevelopment stage above which death of roots and stems startsDOUBLE1--1.0
constantcDVSIinitial development stage of crop (from 0 to 2)DOUBLE1--0.0
constantcDVSNLTDVS stage above which no N, P and K uptakes by the crop do occurDOUBLE1--1.3
constantcDVSNTDVS stage above which N, P and K translocations to storage organs occur -DOUBLE1--0.8
constantcFERKTABtable with fertiliser K applications at given daysDOUBLEARRAYg/(m2 d)---
constantcFERNTABtable with fertiliser N applications at given daysDOUBLEARRAYg/(m2 d)---
constantcFERPTABtable with fertiliser P applications at given daysDOUBLEARRAYg/(m2 d)---
constantcFLTBfraction table of abovre-gr. biomass to leaves as function of DVSDOUBLEARRAY---
constantcFNTRTN-P-K translocations from roots as a fraction of resp. total N-P-K amounts translocated from leaves and stemsDOUBLE1--0.15
constantcFOTBfraction table of abovre-gr. biomass to storage organs as function of DVSDOUBLEARRAY---
constantcFRKXoptimal K concentration as fraction of maximal K concentrationDOUBLE1--1.0
constantcFRNXoptimal N concentration as fraction of maximal N concentrationDOUBLE1--1.0
constantcFRPXoptimal P concentration as fraction of maximal P concentrationDOUBLE1--1.0
constantcFRTBfraction table of total biomass to roots as function of DVSDOUBLEARRAY---
constantcFSTBfraction table of abovre-gr. biomass to stems as function of DVSDOUBLEARRAY---
constantcIOPTindicates optimal (=1), water limited (=2), water and N limited (=3) and water and N, P and K limited run (=4)INT1--0
constantcKDIFTBtable of light extinction factor as function of DVSDOUBLEARRAY1---
constantcKMAXSOmaximal K concentration in storage organsDOUBLEg/g--0.0048
constantcKMINIinitial amount (at crop emergence) of potentially available soil KDOUBLEg/m2--0.0
constantcKMXLVtable with maximal N concentration in leaves as function of DVSDOUBLEARRAYg/g---
constantcKRFTABtable with recovery fractions of fertiliser K applicationsDOUBLEARRAY1---
constantcLAICRCritical leaf area index for overshadowingDOUBLEm2/m2--4.0
constantcLAII-DOUBLEm2/m2--0.0
constantcLRKRmaximum K concentration in roots as fraction of maximum K concentration in leavesDOUBLE1--0.5
constantcLRNRmaximum N concentration in roots as fraction of maximum N concentration in leavesDOUBLE1--0.5
constantcLRPRmaximum P concentration in roots as fraction of maximum P concentration in leavesDOUBLE1--0.5
constantcLSKRmaximum K concentration in stems as fraction of maximum K concentration in leavesDOUBLE1--0.5
constantcLSNRmaximum N concentration in stems as fraction of maximum N concentration in leavesDOUBLE1--0.5
constantcLSPRmaximum P concentration in stems as fraction of maximum P concentration in leavesDOUBLE1--0.5
constantcNFIXFfraction of crop N uptake by biological fixationDOUBLE1--0.0
constantcNLAIcoefficient for the reduction due to nutrient (N-P-K) stress of the LAI increase (during juvenile phase)DOUBLE1--1.0
constantcNLUEcoefficient for the reduction of RUE due to nutrient (N-P-K) stressDOUBLE1--1.1
constantcNMAXSOmaximal N concentration in storage organsDOUBLEg/g--0.0176
constantcNMINIinitial amount (at crop emergence) of potentially available soil organic NDOUBLEg/m2--0.0
constantcNMXLVtable with maximal N concentration in leaves as function of DVSDOUBLEARRAYg/g---
constantcNPARTcoefficient for N stress-effect on leaf biomass reductionDOUBLE1--1.0
constantcNRFTABtable with recovery fractions of fertiliser N applicationsDOUBLEARRAY1---
constantcNSLAcoefficient for the effect of nutrient (N-P-K) stress on SLA reductionDOUBLE1--0.5
constantcPMAXSOmaximal P concentration in storage organsDOUBLEg/g--0.0026
constantcPMINIinitial amount (at crop emergence) of potentially available soil PDOUBLEg/m2--0.0
constantcPMXLVtable with maximal P concentration in leaves as function of DVSDOUBLEARRAYg/g---
constantcPRFTABtable with recovery fractions of fertiliser P applicationsDOUBLEARRAY1---
constantcRDIInitial rooting depthDOUBLEm--10.0
constantcRDRLmax. rel. death rate of leaves due to water stressDOUBLE1--0.05
constantcRDRLTBtable with relative death rate of leaves vs. TMPADOUBLEARRAYd-1---
constantcRDRNSmax. relative death rate of leaves due to nutrient (N-P-K) stressDOUBLE1--0.05
constantcRDRRTBtable with relative death rate of roots vs. DVSDOUBLEARRAYd-1---
constantcRDRSHMrel. death rate of leaves due to shading (above LAICR)DOUBLE1--0.03
constantcRDRSTBtable with relative death rate of stems vs. DVSDOUBLEARRAYd-1---
constantcRGRLAImaximal relative increase in LAIDOUBLEd-1--0.0
constantcRKFLVresidual K concentration in leavesDOUBLEg/g--0.009
constantcRKFRTresidual K concentration in rootsDOUBLEg/g--0.005
constantcRKFSTresidual K concentration in stemsDOUBLEg/g--0.005
constantcRNFLVresidual N concentration in leavesDOUBLEg/g--0.004
constantcRNFRTresidual N concentration in rootsDOUBLEg/g--0.002
constantcRNFSTresidual N concentration in stemsDOUBLEg/g--0.002
constantcRPFLVresidual P concentration in leavesDOUBLEg/g--5.0E-4
constantcRPFRTresidual P concentration in rootsDOUBLEg/g--3.0E-4
constantcRPFSTresidual P concentration in stemsDOUBLEg/g--3.0E-4
constantcRRIMaximum daily increase in rooting depthDOUBLEm/d--1.2
constantcRTKMINSfraction of soil K coming available per dayDOUBLEd-1--0.0
constantcRTNMINSfraction of soil organic N coming available per dayDOUBLEd-1--0.0
constantcRTPMINSfraction of soil P coming available per dayDOUBLEd-1--0.0
constantcSLATBtable of specific leaf area as dependent on DVSDOUBLEARRAYg/m2---
constantcTBASElower threshold temperature for LAI increaseDOUBLE°C--0.0
constantcTCKTtime constant for K translocation to storage organsDOUBLEd--10.0
constantcTCNTtime constant for N translocation to storage organsDOUBLEd--10.0
constantcTCPTtime constant for P translocation to storage organsDOUBLEd--10.0
constantcTDWIInitial total crop dry weightDOUBLEg/m2--210.0
inputiAVRADDaily total irradiationDOUBLEJ/(m2 d)--0.0
inputiDVSinitial development stage of crop (from 0 to 2)DOUBLE1--0.0
inputiDoHarvestharvestingBOOLEAN1--false
inputiDoSowsowingBOOLEAN1--false
inputiEMERGhas emergedBOOLEAN1--false
inputiIDEMERGDay of emergenceINT1--0
inputiRDMmaximal rooting depthDOUBLEm--0.0
inputiRTMCOoverall correction factor for RUE in dependence of both CO2 concentration and non-optimal daytime and minimal temperaturesDOUBLE1--0.0
inputiRUEradiation use efficiencyDOUBLEg/MJ--0.0
inputiTMAXmaximal air temperature during day (output of routine WEATHR)DOUBLE°C--0.0
inputiTMINminimal air temperature during day (output of routine WEATHR)DOUBLE°C--0.0
inputiTRANRFwater stress reduction factorDOUBLE1--1.0
statesAKLVamount of K in living leavesDOUBLEg/m2--0.0
statesAKRTamount of K in living rootsDOUBLEg/m2--0.0
statesAKSOamount of K in storage organsDOUBLEg/m2--0.0
statesAKSTamount of K in living stemsDOUBLEg/m2--0.0
statesANLVamount of N in living leavesDOUBLEg/m2--0.0
statesANRTamount of N in living rootsDOUBLEg/m2--0.0
statesANSOamount of N in storage organsDOUBLEg/m2--0.0
statesANSTamount of N in living stemsDOUBLEg/m2--0.0
statesANTOTamount of N in above ground plantDOUBLEg/m2--0.0
statesAPLVamount of P in living leavesDOUBLEg/m2--0.0
statesAPRTamount of P in living rootsDOUBLEg/m2--0.0
statesAPSOamount of P in storage organsDOUBLEg/m2--0.0
statesAPSTamount of P in living stemsDOUBLEg/m2--0.0
statesGTSUMtotal biomass of the cropDOUBLEg/m2--0.0
statesKLIVTamount of K in living crop organsDOUBLEg/m2--0.0
statesKLOSSLamount of K in dead leavesDOUBLEg/m2--0.0
statesKLOSSRamount of K in dead rootsDOUBLEg/m2--0.0
statesKLOSSSamount of K in dead stemsDOUBLEg/m2--0.0
statesKLOSSTamount of K in dead crop organsDOUBLEg/m2--0.0
statesKMINamount of K potentially available from the soilDOUBLEg/m2--0.0
statesKMINTtotal K directly available from soil and fertiliserDOUBLEg/m2--0.0
statesKROOTtotal K in living and dead rootsDOUBLEg/m2--0.0
statesKUPTTtotal K uptake by crop from soilDOUBLEg/m2--0.0
statesLAIleaf area index (leaf area per soil surface)DOUBLEm2/m2--0.0
statesNFIXTTtotal N uptake by crop from biological fixationDOUBLEg/m2--0.0
statesNLIVTamount of N in living crop organsDOUBLEg/m2--0.0
statesNLOSSLamount of N in dead leavesDOUBLEg/m2--0.0
statesNLOSSRamount of N in dead rootsDOUBLEg/m2--0.0
statesNLOSSSamount of N in dead stemsDOUBLEg/m2--0.0
statesNLOSSTamount of N in dead crop organsDOUBLEg/m2--0.0
statesNMINorganic N potentially available by mineralization from the soil kg N ha-1DOUBLEg/m2--0.0
statesNMINTtotal mineral N directly available from soil and fertiliserDOUBLEg/m2--0.0
statesNROOTtotal N in living and dead rootsDOUBLEg/m2--0.0
statesNUPTTtotal N uptake by crop from soilDOUBLEg/m2--0.0
statesPLIVTamount of P in living crop organsDOUBLEg/m2--0.0
statesPLOSSLamount of P in dead leavesDOUBLEg/m2--0.0
statesPLOSSRamount of P in dead rootsDOUBLEg/m2--0.0
statesPLOSSSamount of P in dead stemsDOUBLEg/m2--0.0
statesPLOSSTamount of P in dead crop organsDOUBLEg/m2--0.0
statesPMINP potentially available from the soilDOUBLEg/m2--0.0
statesPMINTtotal P directly available from soil and fertiliserDOUBLEg/m2--0.0
statesPROOTtotal P in living and dead rootsDOUBLEg/m2--0.0
statesPUPTTtotal P uptake by crop from soilDOUBLEg/m2--0.0
statesRDactual rooting depthDOUBLEm--0.0
statesTAGBtotal above-ground biomassDOUBLEg/m2--0.0
statesTAGBG-DOUBLEg/m2--0.0
statesTPARtotal photosynthetically active radiationDOUBLEMJ/m2--0.0
statesTPARINTtotal intercepted radiation (PAR)DOUBLEMJ/m2--0.0
statesWLVweight of leavesDOUBLEg/m2--0.0
statesWLVDweight of dead leavesDOUBLEg/m2--0.0
statesWLVGweight of living leavesDOUBLEg/m2--0.0
statesWRTweight of rootsDOUBLEg/m2--0.0
statesWRTDweight of deat rootsDOUBLEg/m2--0.0
statesWSOweight of storage organsDOUBLEg/m2--0.0
statesWSTweight of stemsDOUBLEg/m2--0.0
statesWSTDweight of dead stemsDOUBLEg/m2--0.0
ratecRWRTIinitial change in living root biomassDOUBLEg/(m2 d)--0.0
raterDLVdecrease in leaf mass by senescenceDOUBLEg/(m2 d)--0.0
raterDRRTdeat root rateDOUBLEg/(m2 d)--0.0
raterDRSTdead stem rateDOUBLEg/(m2 d)--0.0
raterGRTdaily increase in total biomass of the cropDOUBLEg/(m2 d)--0.0
raterKUPTRdaily K uptake rate by the cropDOUBLEg/(m2 d)--0.0
raterNFIXTRN uptake rate by crop from biological fixationDOUBLEg/(m2 d)--0.0
raterNUPTRdaily N uptake rate by the cropDOUBLEg/(m2 d)--0.0
raterPARdaily amount of photosynthetically active radiationDOUBLEMJ/(m2 d)--0.0
raterPARINT(or PARAB) daily amount of PAR as intercepted by the crop canopyDOUBLEMJ/(m2 d)--0.0
raterPUPTRdaily P uptake rate by the cropDOUBLEg/(m2 d)--0.0
raterRKLDLVK losses due to death of leavesDOUBLEg/(m2 d)--0.0
raterRKLDRTK losses due to death of rootsDOUBLEg/(m2 d)--0.0
raterRKLDSTK losses due to death of stemsDOUBLEg/(m2 d)--0.0
raterRKLVrate of change of K amount in the leavesDOUBLEg/(m2 d)--0.0
raterRKMINSdepletion (thus negative value) of the available amount of soil KDOUBLEg/(m2 d)--0.0
raterRKMINTchange in total directly available K in soilDOUBLEg/(m2 d)--0.0
raterRKRTrate of change of K amount in the rootsDOUBLEg/(m2 d)--0.0
raterRKSOrate of change of K amount in the storage organsDOUBLEg/(m2 d)--0.0
raterRKSTrate of change of K amount in the stemsDOUBLEg/(m2 d)--0.0
raterRLAIchange in leaf area indexDOUBLEd-1--0.0
raterRNLDLVN losses due to death of leavesDOUBLEg/(m2 d)--0.0
raterRNLDRTN losses due to death of rootsDOUBLEg/(m2 d)--0.0
raterRNLDSTN losses due to death of stemsDOUBLEg/(m2 d)--0.0
raterRNLVrate of change of N amount in the leavesDOUBLEg/(m2 d)--0.0
raterRNMINSdepletion (thus negative value)/mineralization of the available amount of soil organic NDOUBLEg/(m2 d)--0.0
raterRNMINTchange in total inorganic directly available N in soilDOUBLEg/(m2 d)--0.0
raterRNRTrate of change of N amount in the rootsDOUBLEJ/(m2 d)--0.0
raterRNSOactual N translocation to storage organsDOUBLEg/(m2 d)--0.0
raterRNSTrate of change of N amount in the stemsDOUBLEg/(m2 d)--0.0
raterRPLDLVP losses due to death of leavesDOUBLEg/(m2 d)--0.0
raterRPLDRTP losses due to death of rootsDOUBLEg/(m2 d)--0.0
raterRPLDSTP losses due to death of stemsDOUBLEg/(m2 d)--0.0
raterRPLVrate of change of P amount in the leavesDOUBLEg/(m2 d)--0.0
raterRPMINSdepletion (thus negative value) of the available amount of soil PDOUBLEg/(m2 d)--0.0
raterRPMINTchange in total directly available P in soilDOUBLEg/(m2 d)--0.0
raterRPRTrate of change of P amount in the rootsDOUBLEg/(m2 d)--0.0
raterRPSOactual P translocation to storage organsDOUBLEg/(m2 d)--0.0
raterRPSTrate of change of P amount in the stemsDOUBLEg/(m2 d)--0.0
raterRRroot growth rateDOUBLEm/d--0.0
raterRWLVGchange in living leaf biomassDOUBLEg/(m2 d)--0.0
raterRWRTchange in living root biomassDOUBLEg/(m2 d)--0.0
raterRWSOchange in storage organ biomassDOUBLEg/(m2 d)--0.0
raterRWSTchange in living stem biomassDOUBLEg/(m2 d)--0.0
outFINT fractional light interception DOUBLE--0.0
outKNI-DOUBLE1--1.0
outNNI-DOUBLE1--1.0
outNPKI-DOUBLE1--1.0
outPNI-DOUBLE1--1.0
outWithCropcrop is presentBOOLEAN1--false

  • Verschachtelte Klassen - Übersicht

    Von Klasse geerbte verschachtelte Klassen/Schnittstellen net.simplace.sim.model.FWSimComponent

    net.simplace.sim.model.FWSimComponent.TEST_STATE

  • Feldübersicht

    Von Klasse geerbte Felder net.simplace.sim.model.FWSimComponent

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

  • Konstruktorübersicht

    Konstruktoren
    Konstruktor
    Beschreibung
    Lintul5_Heidi()
    Empty constructor used by class.forName()
    Lintul5_Heidi(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)
     

  • Methodenübersicht

    Modifizierer und Typ
    Methode
    Beschreibung
    protected net.simplace.sim.model.FWSimComponent
    clone(net.simplace.sim.util.FWSimVarMap aVarMap)
    creates a clone from this SimComponent for use in other threads
    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
    initValues()
     
    protected void
    process()
    process the algorithm and write the results back to VarMap
    protected void
    resetOnHarvest()
     

    Von Klasse geerbte Methoden 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

    Von Klasse geerbte Methoden java.lang.Object

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

  • Konstruktordetails

    • Lintul5_Heidi

      public Lintul5_Heidi(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)
      Parameter:
      aName -
      aFieldMap -
      aInputMap -
      aSimComponentElement -
      aVarMap -
      aOrderNumber -

    • Lintul5_Heidi

      public Lintul5_Heidi()
      Empty constructor used by class.forName()

  • Methodendetails

    • createVariables

      public HashMap<String,net.simplace.sim.util.FWSimVariable<?>> createVariables()
      Create the FWSimVariables as interface for this SimComponent
      Angegeben von:
      createVariables in Schnittstelle net.simplace.sim.util.FWSimFieldContainer
      Angegeben von:
      createVariables in Klasse net.simplace.sim.model.FWSimComponent
      Siehe auch:
      • Ungültige Referenz 
        net.simplace.simulation.model.FWSimComponent#createVariables()

    • init

      protected void init()
      initializes the fields by getting input and output FWSimVariables from VarMap
      Angegeben von:
      init in Klasse net.simplace.sim.model.FWSimComponent
      Siehe auch:
      • Ungültige Referenz 
        net.simplace.simulation.model.FWSimComponent#init()

    • initValues

      protected void initValues()

    • resetOnHarvest

      protected void resetOnHarvest()

    • process

      protected void process()
      process the algorithm and write the results back to VarMap
      Angegeben von:
      process in Klasse net.simplace.sim.model.FWSimComponent
      Siehe auch:
      • Ungültige Referenz 
        net.simplace.simulation.model.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.
      Angegeben von:
      fillTestVariables in Klasse net.simplace.sim.model.FWSimComponent
      Siehe auch:
      • Ungültige Referenz 
        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)
      creates a clone from this SimComponent for use in other threads
      Angegeben von:
      clone in Klasse net.simplace.sim.model.FWSimComponent
      Siehe auch:
      • Ungültige Referenz 
        net.simplace.simulation.model.FWSimComponent#clone(net.simplace.simulation.util.FWSimVarMap)