found -p command line switch Using process definition file : d:\projects\TWIG - T027\VegMod\branch_TWIG_VegMod_Hoon\src\engines_gpl\waq\packages\waq_kernel\src\waq_tables\proc_def Version number : 5.03 Serial : 2015021199 Model : ECO DELWAQ-G Lake Veluwe 1976-1992 Run : Calibration run T0: 1976.01.01 00:00:00 (scu= 1s) # scanning input for old process definitions Replaced default [SWSalCl ] based on activated process [Salin ] Replaced default [SWOMDec ] based on activated process [DecFastG ] Replaced default [b_poc1doc ] based on activated process [DecFastG ] Replaced default [b_ni ] based on activated process [DecFastG ] Replaced default [b_su ] based on activated process [DecFastG ] Replaced default [SWOMDec ] based on activated process [DecMediumG ] Replaced default [b_ni ] based on activated process [DecMediumG ] Replaced default [b_su ] based on activated process [DecMediumG ] Replaced default [SWOMDec ] based on activated process [DecSlowG ] Replaced default [b_ni ] based on activated process [DecSlowG ] Replaced default [b_su ] based on activated process [DecSlowG ] Replaced default [b_ni ] based on activated process [DecRefrG ] Replaced default [b_su ] based on activated process [DecRefrG ] Replaced default [b_ni ] based on activated process [DecDOCG ] Replaced default [b_su ] based on activated process [DecDOCG ] Process [Salinchlor ] activated based on old name [Salin ] Process [Compos ] activated based on old name [POC_gem ] Process [Extinc_VLG ] activated based on old name [Extinc_VL ] Process [DecFast ] activated based on old name [DecFastG ] Process [DecMedium ] activated based on old name [DecMediumG ] Process [DecSlow ] activated based on old name [DecSlowG ] Process [DecRefr ] activated based on old name [DecRefrG ] Process [DecDOC ] activated based on old name [DecDOCG ] Constant name [k_dprdec20 ] replace by new name [k_dprdcC20 ] Constant name [k_DOCdec20 ] replace by new name [k_DOCdcC20 ] Constant name [SecchiExt1 ] replace by new name [PAConstant ] Activated process [SedPOgem ] obsolete, see documentation remark no: 0 Activated process [ExtPOGVL ] obsolete, see documentation remark no: 0 found only_active constant only activated processes are switched on Replaced default [SWSalCl ] current value : 0.00000 replaced by : 1.000000 based on old process definition Replaced default [SWOMDec ] current value : 0.00000 replaced by : 0.00000 based on old process definition Replaced default [b_poc1doc ] current value : 0.00000 replaced by : 0.00000 based on old process definition Replaced default [b_ni ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [b_su ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [SWOMDec ] current value : 0.00000 replaced by : 0.00000 based on old process definition Replaced default [b_ni ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [b_su ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [SWOMDec ] current value : 0.00000 replaced by : 0.00000 based on old process definition Replaced default [b_ni ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [b_su ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [b_ni ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [b_su ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [b_ni ] current value : 1.000000 replaced by : 1.000000 based on old process definition Replaced default [b_su ] current value : 1.000000 replaced by : 1.000000 based on old process definition Input item [ku_dFdcC20 ] replaced by [ku_dFdec20 ] for process [DecFast ] Input item [kl_dFdcC20 ] replaced by [kl_dFdec20 ] for process [DecFast ] Input item [ku_dFdcN20 ] replaced by [ku_dFdec20 ] for process [DecFast ] Input item [kl_dFdcN20 ] replaced by [kl_dFdec20 ] for process [DecFast ] Input item [ku_dFdcP20 ] replaced by [ku_dFdec20 ] for process [DecFast ] Input item [kl_dFdcP20 ] replaced by [kl_dFdec20 ] for process [DecFast ] Input item [ku_dMdcC20 ] replaced by [ku_dMdec20 ] for process [DecMedium ] Input item [kl_dMdcC20 ] replaced by [kl_dMdec20 ] for process [DecMedium ] Input item [ku_dMdcN20 ] replaced by [ku_dMdec20 ] for process [DecMedium ] Input item [kl_dMdcN20 ] replaced by [kl_dMdec20 ] for process [DecMedium ] Input item [ku_dMdcP20 ] replaced by [ku_dMdec20 ] for process [DecMedium ] Input item [kl_dMdcP20 ] replaced by [kl_dMdec20 ] for process [DecMedium ] Input item [ku_dSdcC20 ] replaced by [ku_dSdec20 ] for process [DecSlow ] Input item [kl_dSdcC20 ] replaced by [kl_dSdec20 ] for process [DecSlow ] Input item [ku_dSdcN20 ] replaced by [ku_dSdec20 ] for process [DecSlow ] Input item [kl_dSdcN20 ] replaced by [kl_dSdec20 ] for process [DecSlow ] Input item [ku_dSdcP20 ] replaced by [ku_dSdec20 ] for process [DecSlow ] Input item [kl_dSdcP20 ] replaced by [kl_dSdec20 ] for process [DecSlow ] WARNING: activated process not found in process definition file process ID: ExtPOGVL WARNING: activated process not found in process definition file process ID: SedPOgem total number of substances with fractions : 0 # Determining which processes can be switched on Input for [DynDepth ] dynamic calculation of the depth Process is activated Input for [TotDepth ] depth water column Process is activated Input for [DAYRAD ] Irradiance over the day Process is activated Input for [Salinchlor ] Conversion of salinity into chloride or vv Process is activated Input for [Veloc ] Horizontal flow velocity Process is activated Input for [EXTINABVLP ] Extinction of light by algae (Bloom) WARNING : activated process can NOT be switched on Not found:[BLOOMALG ] algae concentration Input for [Extinc_VLG ] Extinction of visible-light (370-680nm) DLWQ-G Process is activated Input for [CalcRad ] Radiation at segment upper and lower boundaries Process is activated Input for [CalcRadDay ] Actual radiation at segment boundaries Process is activated Input for [DepAve ] Average depth for Bloom step Process is activated Input for [BLOOM_P ] BLOOM II algae module WARNING : activated process can NOT be switched on Not found:[BLOOMALG ] algae concentration Input for [Compos ] Composition Process is activated Input for [DMVolume ] Volume of dry matter in a segment Process is activated Input for [AdsPO4AAP ] Ad(De)Sorption ortho phosphorus to inorg. matter Process is activated Input for [Nitrif_NH4 ] Nitrification of ammonium Process is activated Input for [SaturOXY ] Saturation concentration oxygen Process is activated Input for [RearOXY ] Reaeration of oxygen Process is activated Input for [VAROXY ] Variation of primary production within day WARNING : activated process can NOT be switched on Not found:[fPPtot ] total net primary production Not found:[fResptot ] total respiration flux Input for [DecFast ] Mineralization fast decomp. detritus POC1 Process is activated Input for [DecMedium ] Mineralization medium decomp. detritus POC2 Process is activated Input for [DecSlow ] Mineralization slow decomp. detritus POC3 Process is activated Input for [DecRefr ] Mineralization part. refractory detritus POC4 Process is activated Input for [DecDOC ] Mineralization DOC (diss. refr. detritus) Process is activated Input for [DecPOC5 ] Mineralisation POC5 Process is activated Input for [Vivianit ] Dissolution/precipitation of P in vivianite Process is activated Input for [DisSi ] Dissolution of Si in opal (SWITCH defaults) Process is activated Input for [CONSELAC ] Consumption oxygen/other electron acceptors Process is activated Input for [EBULCH4 ] Ebullition of methane Process is activated Input for [SaturCH4 ] Saturation concentration methane Process is activated Input for [VolatCH4 ] Volatilisation of methane Process is activated Input for [SPECSUD ] Speciation of dissolved sulphide Process is activated Input for [OXIDSUD ] Oxidation of dissolved sulphide Process is activated Input for [PRECSUL ] Precipitation and dissolution of sulphide Process is activated Input for [OXIDCH4 ] Oxidation of methane Process is activated Input for [Sed_IM1 ] Sedimentation IM1 Process is activated Input for [Sed_IM2 ] Sedimentation IM2 Process is activated Input for [SEDALG ] Sedimentation of algae species WARNING : activated process can NOT be switched on Not found:[BLOOMALG ] algae concentration Input for [SedPhBlo_P ] Sum sedimentation of algae - Bloom WARNING : activated process can NOT be switched on Not found:[fSedAlg ] sedimentation flux algae Not found:[BLOOMALG ] algae concentration Not found:[VxSedAlg ] sedimentation velocity Input for [Sed_Opal ] Sedimentation Opal 3d Process is activated Input for [Sed_POC1 ] Sedimentation POC1 3d Process is activated Input for [Sed_POC2 ] Sedimentation POC2 3d Process is activated Input for [Sed_POC3 ] Sedimentation POC3 3d Process is activated Input for [Sed_POC4 ] Sedimentation POC4 3d Process is activated Input for [Sed_VivP ] Sedimentation vivianite 3d Process is activated Input for [Sed_ApatP ] Sedimentation Apatite-P Process is activated Input for [Sum_Sedim ] Total of all sedimenting substances Process is activated Input for [Sed_CAAP ] Sedimentation adsorbed P as component Process is activated Input for [AdvTra ] Advective transport of solids in sediment Process is activated Input for [DSPTra ] Dispersion/diffusion in the sediment Process is activated Input for [TraSe2_IM1 ] Total of transport in sediment for IM1 Process is activated Input for [TraSe2_OXY ] Total of transport in sediment for OXY Process is activated Input for [TrSe2_POC1 ] Total of transport in sediment for POC1 Process is activated Input for [TrSe2_POC2 ] Total of transport in sediment for POC2 Process is activated Input for [TrSe2_POC3 ] Total of transport in sediment for POC3 Process is activated Input for [TrSe2_PON1 ] Total of transport in sediment for PON1 Process is activated Input for [TrSe2_PON2 ] Total of transport in sediment for PON2 Process is activated Input for [TrSe2_PON3 ] Total of transport in sediment for PON3 Process is activated Input for [TrSe2_POP1 ] Total of transport in sediment for POP1 Process is activated Input for [TrSe2_POP2 ] Total of transport in sediment for POP2 Process is activated Input for [TrSe2_POP3 ] Total of transport in sediment for POP3 Process is activated Input for [TrSe2_POC4 ] Total of transport in sediment for POC4 Process is activated Input for [TrSe2_PON4 ] Total of transport in sediment for PON4 Process is activated Input for [TrSe2_POP4 ] Total of transport in sediment for POP4 Process is activated Input for [TrSe2_POS1 ] Total of transport in sediment for POS1 Process is activated Input for [TrSe2_POS2 ] Total of transport in sediment for POS2 Process is activated Input for [TrSe2_POS3 ] Total of transport in sediment for POS3 Process is activated Input for [TrSe2_POS4 ] Total of transport in sediment for POS4 Process is activated Input for [TraSe2_DOC ] Total of transport in sediment for DOC Process is activated Input for [TraSe2_DON ] Total of transport in sediment for DON Process is activated Input for [TraSe2_DOP ] Total of transport in sediment for DOP Process is activated Input for [TraSe2_DOS ] Total of transport in sediment for DOS Process is activated Input for [TraSe2_NH4 ] Total of transport in sediment for NH4 Process is activated Input for [TraSe2_PO4 ] Total of transport in sediment for PO4 Process is activated Input for [TraSe2_NO3 ] Total of transport in sediment for NO3 Process is activated Input for [TraSe2_SO4 ] Total of transport in sediment for SO4 Process is activated Input for [TraSe2_CH4 ] Total of transport in sediment for CH4 Process is activated Input for [TraSe2_SUD ] Total of transport in sediment for SUD Process is activated Input for [TraSe2_SUP ] Total of transport in sediment for SUP Process is activated Input for [TraSe2_IM2 ] Total of transport in sediment for IM2 Process is activated Input for [TraSe2_Cl ] Total of transport in sediment for Cl Process is activated Input for [TraSe2_AAP ] Total of transport in sediment for AAP Process is activated Input for [TraSe2_Si ] Total of transport in sediment for Si Process is activated Input for [TrSe2_VIVP ] Total of transport in sediment for VIVP Process is activated Input for [TrSe2_APAT ] Total of transport in sediment for APATP Process is activated Input for [TrSe2_Opal ] Total of transport in sediment for Opal Process is activated Input for [CONSBL ] Grazing module Process is activated Input for [Secchi ] Secchi depth for visible-light (370-680nm) Process is activated Input for [APATITE ] Dissolution/precipitation of apatite-like mineral Process is activated Input for [VBStatus01 ] Status of Vegation Biomass cohort 01 Process is activated Input for [VB01availN ] Vegetation module VB01 availability of nutrients Process is activated Input for [VBGrowth01 ] Vegation Biomass Growth Process is activated Input for [VBMort01 ] Vegation Biomass Mortality Process is activated Input for [VB01_Mrt3W ] Vegetation module mortality 3D flux water Process is activated Input for [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment Process is activated Input for [VB01Upt ] Vegetation Biomass Nutrient Uptake Process is activated Input for [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution Process is activated Input for [VBStatus02 ] Status of Vegation Biomass cohort 02 Process is activated Input for [VB02availN ] Vegetation module VB02 availability of nutrients Process is activated Input for [VBGrowth02 ] Vegation Biomass Growth Process is activated Input for [VBMort02 ] Vegation Biomass Mortality Process is activated Input for [VB02_Mrt3W ] Vegetation module mortality 3D flux water Process is activated Input for [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment Process is activated Input for [VB02Upt ] Vegetation Biomass Nutrient Uptake Process is activated Input for [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution Process is activated Input for [VBStatus03 ] Status of Vegation Biomass cohort 03 Process is activated Input for [VB03availN ] Vegetation module VB03 availability of nutrients Process is activated Input for [VBGrowth03 ] Vegation Biomass Growth Process is activated Input for [VBMort03 ] Vegation Biomass Mortality Process is activated Input for [VB03_Mrt3W ] Vegetation module mortality 3D flux water Process is activated Input for [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment Process is activated Input for [VB03Upt ] Vegetation Biomass Nutrient Uptake Process is activated Input for [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution Process is activated Input for [VBStatus04 ] Status of Vegation Biomass cohort 04 Process is activated Input for [VB04availN ] Vegetation module VB04 availability of nutrients Process is activated Input for [VBGrowth04 ] Vegation Biomass Growth Process is activated Input for [VBMort04 ] Vegation Biomass Mortality Process is activated Input for [VB04_Mrt3W ] Vegetation module mortality 3D flux water Process is activated Input for [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment Process is activated Input for [VB04Upt ] Vegetation Biomass Nutrient Uptake Process is activated Input for [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution Process is activated Input for [VBStatus05 ] Status of Vegation Biomass cohort 05 Process is activated Input for [VB05availN ] Vegetation module VB05 availability of nutrients Process is activated Input for [VBGrowth05 ] Vegation Biomass Growth Process is activated Input for [VBMort05 ] Vegation Biomass Mortality Process is activated Input for [VB05_Mrt3W ] Vegetation module mortality 3D flux water Process is activated Input for [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment Process is activated Input for [VB05Upt ] Vegetation Biomass Nutrient Uptake Process is activated Input for [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution Process is activated Input for [VBStatus06 ] Status of Vegation Biomass cohort 06 Process is activated Input for [VB06availN ] Vegetation module VB06 availability of nutrients Process is activated Input for [VBGrowth06 ] Vegation Biomass Growth Process is activated Input for [VBMort06 ] Vegation Biomass Mortality Process is activated Input for [VB06_Mrt3W ] Vegetation module mortality 3D flux water Process is activated Input for [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment Process is activated Input for [VB06Upt ] Vegetation Biomass Nutrient Uptake Process is activated Input for [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution Process is activated Input for [VBStatus07 ] Status of Vegation Biomass cohort 07 Process is activated Input for [VB07availN ] Vegetation module VB07 availability of nutrients Process is activated Input for [VBGrowth07 ] Vegation Biomass Growth Process is activated Input for [VBMort07 ] Vegation Biomass Mortality Process is activated Input for [VB07_Mrt3W ] Vegetation module mortality 3D flux water Process is activated Input for [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment Process is activated Input for [VB07Upt ] Vegetation Biomass Nutrient Uptake Process is activated Input for [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution Process is activated # determinig the processes to model the substances. -fluxes for [Continuity ] no fluxes found -dispersion for [Continuity ] no dispersions found -velocity for [Continuity ] no velocity found -fluxes for [Bulkvolume ] no fluxes found -dispersion for [Bulkvolume ] no dispersions found -velocity for [Bulkvolume ] found velocity [VxResVol ] volume change velocity vector resuspension from proces [AdvTra ] Advective transport of solids in sediment process is switched on. found velocity [VxSedVol ] velocity vector for volume change sedim. from proces [AdvTra ] Advective transport of solids in sediment process is switched on. found velocity [VxBurVol ] velocity vector for volume change burial from proces [AdvTra ] Advective transport of solids in sediment process is switched on. found velocity [VxSepVol ] velocity vector for volume change seepage from proces [AdvTra ] Advective transport of solids in sediment process is switched on. -fluxes for [TEST ] no fluxes found -dispersion for [TEST ] no dispersions found -velocity for [TEST ] no velocity found -fluxes for [CL ] no fluxes found -dispersion for [CL ] no dispersions found -velocity for [CL ] found velocity [VxUpwCl ] total upward transport in sediment from proces [TraSe2_Cl ] Total of transport in sediment for Cl process is switched on. found velocity [VxDownCl ] total downward transport in sediment from proces [TraSe2_Cl ] Total of transport in sediment for Cl process is switched on. -fluxes for [IM1 ] found flux [dSedIM1 ] sedimentation flux of IM1 from proces [Sed_IM1 ] Sedimentation IM1 process is switched on. -dispersion for [IM1 ] no dispersions found -velocity for [IM1 ] found velocity [VxSedIm1 ] sedimentation velocity IM1 from proces [Sed_IM1 ] Sedimentation IM1 process is switched on. found velocity [VxUpwIM1 ] total upward transport in sediment from proces [TraSe2_IM1 ] Total of transport in sediment for IM1 process is switched on. found velocity [VxDownIM1 ] total downward transport in sediment from proces [TraSe2_IM1 ] Total of transport in sediment for IM1 process is switched on. -fluxes for [IM2 ] found flux [dSedIM2 ] sedimentation flux of IM2 from proces [Sed_IM2 ] Sedimentation IM2 process is switched on. -dispersion for [IM2 ] no dispersions found -velocity for [IM2 ] found velocity [VxSedIM2 ] sedimentation velocity IM2 from proces [Sed_IM2 ] Sedimentation IM2 process is switched on. found velocity [VxUpwIM2 ] total upward transport in sediment from proces [TraSe2_IM2 ] Total of transport in sediment for IM2 process is switched on. found velocity [VxDownIM2 ] total downward transport in sediment from proces [TraSe2_IM2 ] Total of transport in sediment for IM2 process is switched on. -fluxes for [OXY ] found flux [dCaut ] autolysis flux of carbon from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dNO3Upt ] uptake of NO3 by algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dPrProdOxy ] uptake of carbon by algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dNITRIF ] nitrification flux from proces [Nitrif_NH4 ] Nitrification of ammonium process is switched on. found flux [dREAROXY ] reaeration flux of dissolved oxygen from proces [RearOXY ] Reaeration of oxygen process is switched on. found flux [dCUptVar ] var. uptake of carbon by algae growth from proces [VAROXY ] Variation of primary production within day info : can not switch [VAROXY ] on, not using flux. found flux [dMinPOC5E ] min. flux POC5 to CO2 emersed from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMinPOC5A ] min. flux POC5 to CO2 atmosphere from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dOxCon ] mineralisation flux oxidised with DO from proces [CONSELAC ] Consumption oxygen/other electron acceptors process is switched on. found flux [dSUDox ] sulphide oxidation flux from proces [OXIDSUD ] Oxidation of dissolved sulphide process is switched on. found flux [dMethoxDO ] methane oxidation flux with DO from proces [OXIDCH4 ] Oxidation of methane process is switched on. found flux [dGrzDisC ] flux to dissolved carbon from grazing from proces [CONSBL ] Grazing module process is switched on. -dispersion for [OXY ] no dispersions found -velocity for [OXY ] found velocity [VxUpwOXY ] total upward transport in sediment from proces [TraSe2_OXY ] Total of transport in sediment for OXY process is switched on. found velocity [VxDownOXY ] total downward transport in sediment from proces [TraSe2_OXY ] Total of transport in sediment for OXY process is switched on. -fluxes for [NH4 ] found flux [dNaut ] autolysis flux of nitrogen from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dNH4Upt ] NH4 uptake by algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dNITRIF ] nitrification flux from proces [Nitrif_NH4 ] Nitrification of ammonium process is switched on. found flux [dMinPON1 ] mineralization flux PON1 to NH4 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMinPON2 ] mineralization flux PON2 to NH4 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMinPON3 ] mineralization flux PON3 to NH4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPON4 ] mineralization flux PON4 to NH4 from proces [DecRefr ] Mineralization part. refractory detritus POC4 process is switched on. found flux [dMinDON ] mineralization flux DON to NH4 from proces [DecDOC ] Mineralization DOC (diss. refr. detritus) process is switched on. found flux [dMinPON5 ] mineralisation flux PON5 to NH4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dGrzDisN ] flux to dissolved nitrogen from grazing from proces [CONSBL ] Grazing module process is switched on. found flux [dN1VB01upy ] uptake VB01 through roots N pool 1 from proces [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution process is switched on. found flux [dN1VB02upy ] uptake VB02 through roots N pool 1 from proces [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution process is switched on. found flux [dN1VB03upy ] uptake VB03 through roots N pool 1 from proces [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution process is switched on. found flux [dN1VB04upy ] uptake VB04 through roots N pool 1 from proces [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution process is switched on. found flux [dN1VB05upy ] uptake VB05 through roots N pool 1 from proces [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution process is switched on. found flux [dN1VB06upy ] uptake VB06 through roots N pool 1 from proces [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution process is switched on. found flux [dN1VB07upy ] uptake VB07 through roots N pool 1 from proces [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution process is switched on. -dispersion for [NH4 ] no dispersions found -velocity for [NH4 ] found velocity [VxUpwNH4 ] total upward transport in sediment from proces [TraSe2_NH4 ] Total of transport in sediment for NH4 process is switched on. found velocity [VxDownNH4 ] total downward transport in sediment from proces [TraSe2_NH4 ] Total of transport in sediment for NH4 process is switched on. -fluxes for [NO3 ] found flux [dNO3Upt ] uptake of NO3 by algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dNITRIF ] nitrification flux from proces [Nitrif_NH4 ] Nitrification of ammonium process is switched on. found flux [dNiDen ] mineralisation flux oxidised with nitrate from proces [CONSELAC ] Consumption oxygen/other electron acceptors process is switched on. found flux [dN2VB01upy ] uptake VB01 through roots N pool 2 from proces [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution process is switched on. found flux [dN2VB02upy ] uptake VB02 through roots N pool 2 from proces [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution process is switched on. found flux [dN2VB03upy ] uptake VB03 through roots N pool 2 from proces [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution process is switched on. found flux [dN2VB04upy ] uptake VB04 through roots N pool 2 from proces [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution process is switched on. found flux [dN2VB05upy ] uptake VB05 through roots N pool 2 from proces [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution process is switched on. found flux [dN2VB06upy ] uptake VB06 through roots N pool 2 from proces [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution process is switched on. found flux [dN2VB07upy ] uptake VB07 through roots N pool 2 from proces [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution process is switched on. -dispersion for [NO3 ] no dispersions found -velocity for [NO3 ] found velocity [VxUpwNO3 ] total upward transport in sediment from proces [TraSe2_NO3 ] Total of transport in sediment for NO3 process is switched on. found velocity [VxDownNO3 ] total downward transport in sediment from proces [TraSe2_NO3 ] Total of transport in sediment for NO3 process is switched on. -fluxes for [PO4 ] found flux [dPaut ] autolysis flux of PO4 from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dPO4Upt ] PO4 uptake by algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dAdsPO4AAP ] adsorption flux PO4 to AAP from proces [AdsPO4AAP ] Ad(De)Sorption ortho phosphorus to inorg. matter process is switched on. found flux [dMinPOP1 ] mineralization flux POP1 to PO4 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMinPOP2 ] mineralization flux POP2 to PO4 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMinPOP3 ] mineralization flux POP3 to PO4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOP4 ] mineralization flux POP4 to PO4 from proces [DecRefr ] Mineralization part. refractory detritus POC4 process is switched on. found flux [dMinDOP ] mineralization flux DOP to PO4 from proces [DecDOC ] Mineralization DOC (diss. refr. detritus) process is switched on. found flux [dMinPOP5 ] mineralisation flux POP5 to PO4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dPrecipPO4 ] precipitation flux PO4 to vivianite from proces [Vivianit ] Dissolution/precipitation of P in vivianite process is switched on. found flux [dDissolPO4 ] dissolution flux vivivanite to PO4 from proces [Vivianit ] Dissolution/precipitation of P in vivianite process is switched on. found flux [dGrzDisP ] flux to dissolved phosphorus from grazing from proces [CONSBL ] Grazing module process is switched on. found flux [dPrecAPPO4 ] precipitation flux PO4 to apatite from proces [APATITE ] Dissolution/precipitation of apatite-like mineral process is switched on. found flux [dDissAPPO4 ] dissolution flux apatite to PO4 from proces [APATITE ] Dissolution/precipitation of apatite-like mineral process is switched on. found flux [dP2VB01upy ] uptake VB01 through roots P pool 2 from proces [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution process is switched on. found flux [dP2VB02upy ] uptake VB02 through roots P pool 2 from proces [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution process is switched on. found flux [dP2VB03upy ] uptake VB03 through roots P pool 2 from proces [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution process is switched on. found flux [dP2VB04upy ] uptake VB04 through roots P pool 2 from proces [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution process is switched on. found flux [dP2VB05upy ] uptake VB05 through roots P pool 2 from proces [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution process is switched on. found flux [dP2VB06upy ] uptake VB06 through roots P pool 2 from proces [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution process is switched on. found flux [dP2VB07upy ] uptake VB07 through roots P pool 2 from proces [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution process is switched on. -dispersion for [PO4 ] no dispersions found -velocity for [PO4 ] found velocity [VxUpwPO4 ] total upward transport in sediment from proces [TraSe2_PO4 ] Total of transport in sediment for PO4 process is switched on. found velocity [VxDownPO4 ] total downward transport in sediment from proces [TraSe2_PO4 ] Total of transport in sediment for PO4 process is switched on. -fluxes for [AAP ] found flux [dAdsPO4AAP ] adsorption flux PO4 to AAP from proces [AdsPO4AAP ] Ad(De)Sorption ortho phosphorus to inorg. matter process is switched on. found flux [dSedAAP ] sedimentation flux AAP (adsorbed PO4) from proces [Sed_CAAP ] Sedimentation adsorbed P as component process is switched on. found flux [dP1VB01upy ] uptake VB01 through roots P pool 1 from proces [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution process is switched on. found flux [dP1VB02upy ] uptake VB02 through roots P pool 1 from proces [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution process is switched on. found flux [dP1VB03upy ] uptake VB03 through roots P pool 1 from proces [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution process is switched on. found flux [dP1VB04upy ] uptake VB04 through roots P pool 1 from proces [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution process is switched on. found flux [dP1VB05upy ] uptake VB05 through roots P pool 1 from proces [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution process is switched on. found flux [dP1VB06upy ] uptake VB06 through roots P pool 1 from proces [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution process is switched on. found flux [dP1VB07upy ] uptake VB07 through roots P pool 1 from proces [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution process is switched on. -dispersion for [AAP ] no dispersions found -velocity for [AAP ] found velocity [VxSedAAP ] sedimentation velocity AAP from proces [Sed_CAAP ] Sedimentation adsorbed P as component process is switched on. found velocity [VxUpwAAP ] total upward transport in sediment from proces [TraSe2_AAP ] Total of transport in sediment for AAP process is switched on. found velocity [VxDownAAP ] total downward transport in sediment from proces [TraSe2_AAP ] Total of transport in sediment for AAP process is switched on. -fluxes for [VIVP ] found flux [dPrecipPO4 ] precipitation flux PO4 to vivianite from proces [Vivianit ] Dissolution/precipitation of P in vivianite process is switched on. found flux [dDissolPO4 ] dissolution flux vivivanite to PO4 from proces [Vivianit ] Dissolution/precipitation of P in vivianite process is switched on. -dispersion for [VIVP ] no dispersions found -velocity for [VIVP ] found velocity [VxSedVIVP ] sedimentation velocity VIVP from proces [Sed_VivP ] Sedimentation vivianite 3d process is switched on. found velocity [VxUpwVIVP ] total upward transport in sediment from proces [TrSe2_VIVP ] Total of transport in sediment for VIVP process is switched on. found velocity [VxDownVIVP ] total downward transport in sediment from proces [TrSe2_VIVP ] Total of transport in sediment for VIVP process is switched on. -fluxes for [APATP ] found flux [dPrecAPPO4 ] precipitation flux PO4 to apatite from proces [APATITE ] Dissolution/precipitation of apatite-like mineral process is switched on. found flux [dDissAPPO4 ] dissolution flux apatite to PO4 from proces [APATITE ] Dissolution/precipitation of apatite-like mineral process is switched on. -dispersion for [APATP ] no dispersions found -velocity for [APATP ] found velocity [VxSedAPAT ] sedimentation velocity APATP from proces [Sed_ApatP ] Sedimentation Apatite-P process is switched on. found velocity [VxUpwAPATP ] total upward transport in sediment APATP from proces [TrSe2_APAT ] Total of transport in sediment for APATP process is switched on. found velocity [VxDownAPAT ] total downward transport in sediment APATP from proces [TrSe2_APAT ] Total of transport in sediment for APATP process is switched on. -fluxes for [Si ] found flux [dSIaut ] autolysis flux of silicate from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dSIUpt ] Si uptake by algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dDissolSi ] dissolution flux Opal to Si from proces [DisSi ] Dissolution of Si in opal (SWITCH defaults) process is switched on. found flux [dGrzDisSi ] flux to dissolved silicon from grazing from proces [CONSBL ] Grazing module process is switched on. -dispersion for [Si ] no dispersions found -velocity for [Si ] found velocity [VxUpwSi ] total upward transport in sediment from proces [TraSe2_Si ] Total of transport in sediment for Si process is switched on. found velocity [VxDownSi ] total downward transport in sediment from proces [TraSe2_Si ] Total of transport in sediment for Si process is switched on. -fluxes for [Opal ] found flux [dDetSiMort ] production of DetSi by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dOOSiMort ] production of OOSi by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dDissolSi ] dissolution flux Opal to Si from proces [DisSi ] Dissolution of Si in opal (SWITCH defaults) process is switched on. found flux [dSedOpal ] sedimentation flux of Opal from proces [Sed_Opal ] Sedimentation Opal 3d process is switched on. found flux [dGrzPOSi1 ] dummy flux from proces [CONSBL ] Grazing module process is switched on. -dispersion for [Opal ] no dispersions found -velocity for [Opal ] found velocity [VxSedOpal ] sedimentation velocity Opal from proces [Sed_Opal ] Sedimentation Opal 3d process is switched on. found velocity [VxUpwOpal ] total upward transport in sediment from proces [TrSe2_Opal ] Total of transport in sediment for Opal process is switched on. found velocity [VxDownOpal ] total downward transport in sediment from proces [TrSe2_Opal ] Total of transport in sediment for Opal process is switched on. found velocity [VxGrzPOSi1 ] flux to GEM bot.org. from grazing as velocity from proces [CONSBL ] Grazing module process is switched on. -fluxes for [SO4 ] found flux [dCUpt ] uptake of carbon by algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dSuRed ] mineralisation flux oxid. with sulphate from proces [CONSELAC ] Consumption oxygen/other electron acceptors process is switched on. found flux [dSUDox ] sulphide oxidation flux from proces [OXIDSUD ] Oxidation of dissolved sulphide process is switched on. found flux [dMethoxSu ] methane oxidation flux with sulphate from proces [OXIDCH4 ] Oxidation of methane process is switched on. found flux [dS1VB01upy ] uptake VB01 through roots S pool 1 from proces [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution process is switched on. found flux [dS1VB02upy ] uptake VB02 through roots S pool 1 from proces [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution process is switched on. found flux [dS1VB03upy ] uptake VB03 through roots S pool 1 from proces [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution process is switched on. found flux [dS1VB04upy ] uptake VB04 through roots S pool 1 from proces [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution process is switched on. found flux [dS1VB05upy ] uptake VB05 through roots S pool 1 from proces [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution process is switched on. found flux [dS1VB06upy ] uptake VB06 through roots S pool 1 from proces [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution process is switched on. found flux [dS1VB07upy ] uptake VB07 through roots S pool 1 from proces [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution process is switched on. -dispersion for [SO4 ] no dispersions found -velocity for [SO4 ] found velocity [VxUpwSO4 ] total upward transport in sediment from proces [TraSe2_SO4 ] Total of transport in sediment for SO4 process is switched on. found velocity [VxDownSO4 ] total downward transport in sediment from proces [TraSe2_SO4 ] Total of transport in sediment for SO4 process is switched on. -fluxes for [SUD ] found flux [dCaut ] autolysis flux of carbon from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dMinPOS1 ] mineralization flux POS1 to SUD from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMinPOS2 ] mineralization flux POS2 to SUD from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMinPOS3 ] mineralization flux POS3 to SUD from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOS4 ] mineralization flux POS4 to SUD from proces [DecRefr ] Mineralization part. refractory detritus POC4 process is switched on. found flux [dMinDOS ] mineralization flux DOS to SUD from proces [DecDOC ] Mineralization DOC (diss. refr. detritus) process is switched on. found flux [dMinPOS5 ] mineralisation flux POS5 to SO4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dSuRed ] mineralisation flux oxid. with sulphate from proces [CONSELAC ] Consumption oxygen/other electron acceptors process is switched on. found flux [dSUDox ] sulphide oxidation flux from proces [OXIDSUD ] Oxidation of dissolved sulphide process is switched on. found flux [dSUDprec ] sulphide precipitation flux from proces [PRECSUL ] Precipitation and dissolution of sulphide process is switched on. found flux [dSUDdis ] sulphide dissolution flux from proces [PRECSUL ] Precipitation and dissolution of sulphide process is switched on. found flux [dMethoxSu ] methane oxidation flux with sulphate from proces [OXIDCH4 ] Oxidation of methane process is switched on. found flux [dS2VB01upy ] uptake VB01 through roots S pool 2 from proces [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution process is switched on. found flux [dS2VB02upy ] uptake VB02 through roots S pool 2 from proces [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution process is switched on. found flux [dS2VB03upy ] uptake VB03 through roots S pool 2 from proces [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution process is switched on. found flux [dS2VB04upy ] uptake VB04 through roots S pool 2 from proces [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution process is switched on. found flux [dS2VB05upy ] uptake VB05 through roots S pool 2 from proces [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution process is switched on. found flux [dS2VB06upy ] uptake VB06 through roots S pool 2 from proces [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution process is switched on. found flux [dS2VB07upy ] uptake VB07 through roots S pool 2 from proces [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution process is switched on. -dispersion for [SUD ] no dispersions found -velocity for [SUD ] found velocity [VxUpwSUD ] total upward transport in sediment from proces [TraSe2_SUD ] Total of transport in sediment for SUD process is switched on. found velocity [VxDownSUD ] total downward transport in sediment from proces [TraSe2_SUD ] Total of transport in sediment for SUD process is switched on. -fluxes for [SUP ] found flux [dSUDprec ] sulphide precipitation flux from proces [PRECSUL ] Precipitation and dissolution of sulphide process is switched on. found flux [dSUDdis ] sulphide dissolution flux from proces [PRECSUL ] Precipitation and dissolution of sulphide process is switched on. -dispersion for [SUP ] no dispersions found -velocity for [SUP ] found velocity [VxUpwSUP ] total upward transport in sediment from proces [TraSe2_SUP ] Total of transport in sediment for SUP process is switched on. found velocity [VxDownSUP ] total downward transport in sediment from proces [TraSe2_SUP ] Total of transport in sediment for SUP process is switched on. -fluxes for [CH4 ] found flux [dMetGenCH4 ] mineralisation flux conv. into methane from proces [CONSELAC ] Consumption oxygen/other electron acceptors process is switched on. found flux [dMetEbul ] methane ebullition flux from proces [EBULCH4 ] Ebullition of methane process is switched on. found flux [dVolCH4 ] reaeration flux from proces [VolatCH4 ] Volatilisation of methane process is switched on. found flux [dMethoxDO ] methane oxidation flux with DO from proces [OXIDCH4 ] Oxidation of methane process is switched on. found flux [dMethoxSu ] methane oxidation flux with sulphate from proces [OXIDCH4 ] Oxidation of methane process is switched on. -dispersion for [CH4 ] no dispersions found -velocity for [CH4 ] found velocity [VxUpwCH4 ] total upward transport in sediment from proces [TraSe2_CH4 ] Total of transport in sediment for CH4 process is switched on. found velocity [VxDownCH4 ] total downward transport in sediment from proces [TraSe2_CH4 ] Total of transport in sediment for CH4 process is switched on. -fluxes for [POC1 ] found flux [dDetCMort ] production of DetC by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dDetCUpt ] uptake of DetC by heterotroph algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPOC1 ] conversion flux POC1 to POC2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPOC1 ] conversion flux POC1 to DOC from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMinPOC1G ] mineralization flux POC1 to CO2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dSedPOC1 ] sedimentation flux POC1 from proces [Sed_POC1 ] Sedimentation POC1 3d process is switched on. found flux [dGrzPOC1 ] flux to GEM org. nutrients from grazing from proces [CONSBL ] Grazing module process is switched on. found flux [dMC2VB01P1 ] dMC2VB01P1 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB01P1 ] dMC5VB01P1 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB02P1 ] dMC2VB02P1 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB02P1 ] dMC5VB02P1 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB03P1 ] dMC2VB03P1 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB03P1 ] dMC5VB03P1 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB04P1 ] dMC2VB04P1 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB04P1 ] dMC5VB04P1 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB05P1 ] dMC2VB05P1 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB05P1 ] dMC5VB05P1 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB06P1 ] dMC2VB06P1 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB06P1 ] dMC5VB06P1 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB07P1 ] dMC2VB07P1 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB07P1 ] dMC5VB07P1 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POC1 ] no dispersions found -velocity for [POC1 ] found velocity [VxSedPOC1 ] sedimentation velocity POC1 from proces [Sed_POC1 ] Sedimentation POC1 3d process is switched on. found velocity [VxUpwPOC1 ] total upward transport in sediment from proces [TrSe2_POC1 ] Total of transport in sediment for POC1 process is switched on. found velocity [VxDownPOC1 ] total downward transport in sediment from proces [TrSe2_POC1 ] Total of transport in sediment for POC1 process is switched on. found velocity [VxGrzPOC1 ] flux to GEM bot.org. from grazing as velocity from proces [CONSBL ] Grazing module process is switched on. -fluxes for [POC2 ] found flux [dOOCMort ] production of OOC by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPOC1 ] conversion flux POC1 to POC2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvPPOC2 ] conversion flux POC2 to POC3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPOC2 ] conversion flux POC2 to DOC from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMinPOC2G ] mineralization flux POC2 to CO2 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dSedPOC2 ] sedimentation flux POC2 from proces [Sed_POC2 ] Sedimentation POC2 3d process is switched on. found flux [dMC2VB01P2 ] dMC2VB01P2 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB01P2 ] dMC5VB01P2 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB02P2 ] dMC2VB02P2 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB02P2 ] dMC5VB02P2 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB03P2 ] dMC2VB03P2 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB03P2 ] dMC5VB03P2 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB04P2 ] dMC2VB04P2 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB04P2 ] dMC5VB04P2 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB05P2 ] dMC2VB05P2 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB05P2 ] dMC5VB05P2 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB06P2 ] dMC2VB06P2 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB06P2 ] dMC5VB06P2 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB07P2 ] dMC2VB07P2 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB07P2 ] dMC5VB07P2 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POC2 ] no dispersions found -velocity for [POC2 ] found velocity [VxSedPOC2 ] sedimentation velocity POC2 from proces [Sed_POC2 ] Sedimentation POC2 3d process is switched on. found velocity [VxUpwPOC2 ] total upward transport in sediment from proces [TrSe2_POC2 ] Total of transport in sediment for POC2 process is switched on. found velocity [VxDownPOC2 ] total downward transport in sediment from proces [TrSe2_POC2 ] Total of transport in sediment for POC2 process is switched on. -fluxes for [POC3 ] found flux [dCnvPPOC2 ] conversion flux POC2 to POC3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvPPOC3 ] conversion flux POC3 to POC4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dCnvDPOC3 ] conversion flux POC3 to DOC from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOC3G ] mineralization flux POC3 to CO2 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dSedPOC3 ] sedimentation flux POC3 from proces [Sed_POC3 ] Sedimentation POC3 3d process is switched on. found flux [dMC2VB01P3 ] dMC2VB01P3 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB01P3 ] dMC5VB01P3 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB02P3 ] dMC2VB02P3 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB02P3 ] dMC5VB02P3 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB03P3 ] dMC2VB03P3 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB03P3 ] dMC5VB03P3 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB04P3 ] dMC2VB04P3 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB04P3 ] dMC5VB04P3 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB05P3 ] dMC2VB05P3 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB05P3 ] dMC5VB05P3 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB06P3 ] dMC2VB06P3 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB06P3 ] dMC5VB06P3 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC2VB07P3 ] dMC2VB07P3 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC5VB07P3 ] dMC5VB07P3 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POC3 ] no dispersions found -velocity for [POC3 ] found velocity [VxSedPOC3 ] sedimentation velocity POC3 from proces [Sed_POC3 ] Sedimentation POC3 3d process is switched on. found velocity [VxUpwPOC3 ] total upward transport in sediment from proces [TrSe2_POC3 ] Total of transport in sediment for POC3 process is switched on. found velocity [VxDownPOC3 ] total downward transport in sediment from proces [TrSe2_POC3 ] Total of transport in sediment for POC3 process is switched on. -fluxes for [POC4 ] found flux [dCnvPPOC3 ] conversion flux POC3 to POC4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOC4G ] mineralization flux POC4 to CO2 from proces [DecRefr ] Mineralization part. refractory detritus POC4 process is switched on. found flux [dCnvPPOC5 ] conversion flux POC5 to POC4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dSedPOC4 ] sedimentation flux POC4 from proces [Sed_POC4 ] Sedimentation POC4 3d process is switched on. -dispersion for [POC4 ] no dispersions found -velocity for [POC4 ] found velocity [VxSedPOC4 ] sedimentation velocity POC4 from proces [Sed_POC4 ] Sedimentation POC4 3d process is switched on. found velocity [VxUpwPOC4 ] total upward transport in sediment from proces [TrSe2_POC4 ] Total of transport in sediment for POC4 process is switched on. found velocity [VxDownPOC4 ] total downward transport in sediment from proces [TrSe2_POC4 ] Total of transport in sediment for POC4 process is switched on. -fluxes for [DOC ] found flux [dCnvDPOC1 ] conversion flux POC1 to DOC from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPOC2 ] conversion flux POC2 to DOC from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPOC3 ] conversion flux POC3 to DOC from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinDOCG ] mineralization flux DOC to CO2 from proces [DecDOC ] Mineralization DOC (diss. refr. detritus) process is switched on. found flux [dCnvDPOC5 ] conversion flux POC5 to DOC from proces [DecPOC5 ] Mineralisation POC5 process is switched on. -dispersion for [DOC ] no dispersions found -velocity for [DOC ] found velocity [VxUpwDOC ] total upward transport in sediment from proces [TraSe2_DOC ] Total of transport in sediment for DOC process is switched on. found velocity [VxDownDOC ] total downward transport in sediment from proces [TraSe2_DOC ] Total of transport in sediment for DOC process is switched on. -fluxes for [PON1 ] found flux [dDetNMort ] production of DetN by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dDetNUpt ] uptake of DetN by heterotroph algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPON1 ] conversion flux PON1 to PON2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPON1 ] conversion flux PON1 to DON from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMinPON1 ] mineralization flux PON1 to NH4 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dGrzPON1 ] flux to GEM org. nutrients from grazing from proces [CONSBL ] Grazing module process is switched on. found flux [dMN2VB01P1 ] dMN2VB01P1 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB01P1 ] dMN5VB01P1 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB02P1 ] dMN2VB02P1 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB02P1 ] dMN5VB02P1 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB03P1 ] dMN2VB03P1 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB03P1 ] dMN5VB03P1 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB04P1 ] dMN2VB04P1 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB04P1 ] dMN5VB04P1 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB05P1 ] dMN2VB05P1 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB05P1 ] dMN5VB05P1 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB06P1 ] dMN2VB06P1 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB06P1 ] dMN5VB06P1 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB07P1 ] dMN2VB07P1 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB07P1 ] dMN5VB07P1 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [PON1 ] no dispersions found -velocity for [PON1 ] found velocity [VxSedPOC1 ] sedimentation velocity POC1 from proces [Sed_POC1 ] Sedimentation POC1 3d process is switched on. found velocity [VxUpwPON1 ] total upward transport in sediment from proces [TrSe2_PON1 ] Total of transport in sediment for PON1 process is switched on. found velocity [VxDownPON1 ] total downward transport in sediment from proces [TrSe2_PON1 ] Total of transport in sediment for PON1 process is switched on. found velocity [VxGrzPON1 ] flux to GEM bot.org. from grazing as velocity from proces [CONSBL ] Grazing module process is switched on. -fluxes for [PON2 ] found flux [dOONMort ] production of OON by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPON1 ] conversion flux PON1 to PON2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvPPON2 ] conversion flux PON2 to PON3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPON2 ] conversion flux PON2 to DON from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMinPON2 ] mineralization flux PON2 to NH4 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMN2VB01P2 ] dMN2VB01P2 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB01P2 ] dMN5VB01P2 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB02P2 ] dMN2VB02P2 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB02P2 ] dMN5VB02P2 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB03P2 ] dMN2VB03P2 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB03P2 ] dMN5VB03P2 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB04P2 ] dMN2VB04P2 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB04P2 ] dMN5VB04P2 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB05P2 ] dMN2VB05P2 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB05P2 ] dMN5VB05P2 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB06P2 ] dMN2VB06P2 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB06P2 ] dMN5VB06P2 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB07P2 ] dMN2VB07P2 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB07P2 ] dMN5VB07P2 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [PON2 ] no dispersions found -velocity for [PON2 ] found velocity [VxSedPOC2 ] sedimentation velocity POC2 from proces [Sed_POC2 ] Sedimentation POC2 3d process is switched on. found velocity [VxUpwPON2 ] total upward transport in sediment from proces [TrSe2_PON2 ] Total of transport in sediment for PON2 process is switched on. found velocity [VxDownPON2 ] total downward transport in sediment from proces [TrSe2_PON2 ] Total of transport in sediment for PON2 process is switched on. -fluxes for [PON3 ] found flux [dCnvPPON2 ] conversion flux PON2 to PON3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvPPON3 ] conversion flux PON3 to PON4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dCnvDPON3 ] conversion flux PON3 to DON from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPON3 ] mineralization flux PON3 to NH4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMN2VB01P3 ] dMN2VB01P3 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB01P3 ] dMN5VB01P3 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB02P3 ] dMN2VB02P3 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB02P3 ] dMN5VB02P3 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB03P3 ] dMN2VB03P3 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB03P3 ] dMN5VB03P3 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB04P3 ] dMN2VB04P3 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB04P3 ] dMN5VB04P3 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB05P3 ] dMN2VB05P3 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB05P3 ] dMN5VB05P3 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB06P3 ] dMN2VB06P3 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB06P3 ] dMN5VB06P3 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN2VB07P3 ] dMN2VB07P3 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN5VB07P3 ] dMN5VB07P3 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [PON3 ] no dispersions found -velocity for [PON3 ] found velocity [VxSedPOC3 ] sedimentation velocity POC3 from proces [Sed_POC3 ] Sedimentation POC3 3d process is switched on. found velocity [VxUpwPON3 ] total upward transport in sediment from proces [TrSe2_PON3 ] Total of transport in sediment for PON3 process is switched on. found velocity [VxDownPON3 ] total downward transport in sediment from proces [TrSe2_PON3 ] Total of transport in sediment for PON3 process is switched on. -fluxes for [PON4 ] found flux [dCnvPPON3 ] conversion flux PON3 to PON4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPON4 ] mineralization flux PON4 to NH4 from proces [DecRefr ] Mineralization part. refractory detritus POC4 process is switched on. found flux [dCnvPPON5 ] conversion flux PON5 to PON4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. -dispersion for [PON4 ] no dispersions found -velocity for [PON4 ] found velocity [VxSedPOC4 ] sedimentation velocity POC4 from proces [Sed_POC4 ] Sedimentation POC4 3d process is switched on. found velocity [VxUpwPON4 ] total upward transport in sediment from proces [TrSe2_PON4 ] Total of transport in sediment for PON4 process is switched on. found velocity [VxDownPON4 ] total downward transport in sediment from proces [TrSe2_PON4 ] Total of transport in sediment for PON4 process is switched on. -fluxes for [DON ] found flux [dCnvDPON1 ] conversion flux PON1 to DON from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPON2 ] conversion flux PON2 to DON from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPON3 ] conversion flux PON3 to DON from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinDON ] mineralization flux DON to NH4 from proces [DecDOC ] Mineralization DOC (diss. refr. detritus) process is switched on. found flux [dCnvDPON5 ] conversion flux PON5 to DON from proces [DecPOC5 ] Mineralisation POC5 process is switched on. -dispersion for [DON ] no dispersions found -velocity for [DON ] found velocity [VxUpwDON ] total upward transport in sediment from proces [TraSe2_DON ] Total of transport in sediment for DON process is switched on. found velocity [VxDownDON ] total downward transport in sediment from proces [TraSe2_DON ] Total of transport in sediment for DON process is switched on. -fluxes for [POP1 ] found flux [dDetPMort ] production of DetP by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dDetPUpt ] uptake of DetP by heterotroph algae growth from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPOP1 ] conversion flux POP1 to POP2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPOP1 ] conversion flux POP1 to DOP from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMinPOP1 ] mineralization flux POP1 to PO4 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dGrzPOP1 ] flux to GEM org. nutrients from grazing from proces [CONSBL ] Grazing module process is switched on. found flux [dMP2VB01P1 ] dMP2VB01P1 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB01P1 ] dMP5VB01P1 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB02P1 ] dMP2VB02P1 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB02P1 ] dMP5VB02P1 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB03P1 ] dMP2VB03P1 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB03P1 ] dMP5VB03P1 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB04P1 ] dMP2VB04P1 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB04P1 ] dMP5VB04P1 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB05P1 ] dMP2VB05P1 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB05P1 ] dMP5VB05P1 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB06P1 ] dMP2VB06P1 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB06P1 ] dMP5VB06P1 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB07P1 ] dMP2VB07P1 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB07P1 ] dMP5VB07P1 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POP1 ] no dispersions found -velocity for [POP1 ] found velocity [VxSedPOC1 ] sedimentation velocity POC1 from proces [Sed_POC1 ] Sedimentation POC1 3d process is switched on. found velocity [VxUpwPOP1 ] total upward transport in sediment from proces [TrSe2_POP1 ] Total of transport in sediment for POP1 process is switched on. found velocity [VxDownPOP1 ] total downward transport in sediment from proces [TrSe2_POP1 ] Total of transport in sediment for POP1 process is switched on. found velocity [VxGrzPOP1 ] flux to GEM bot.org. from grazing as velocity from proces [CONSBL ] Grazing module process is switched on. -fluxes for [POP2 ] found flux [dOOPMort ] production of OOP by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPOP1 ] conversion flux POP1 to POP2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvPPOP2 ] conversion flux POP2 to POP3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPOP2 ] conversion flux POP2 to DOP from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMinPOP2 ] mineralization flux POP2 to PO4 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMP2VB01P2 ] dMP2VB01P2 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB01P2 ] dMP5VB01P2 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB02P2 ] dMP2VB02P2 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB02P2 ] dMP5VB02P2 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB03P2 ] dMP2VB03P2 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB03P2 ] dMP5VB03P2 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB04P2 ] dMP2VB04P2 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB04P2 ] dMP5VB04P2 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB05P2 ] dMP2VB05P2 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB05P2 ] dMP5VB05P2 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB06P2 ] dMP2VB06P2 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB06P2 ] dMP5VB06P2 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB07P2 ] dMP2VB07P2 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB07P2 ] dMP5VB07P2 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POP2 ] no dispersions found -velocity for [POP2 ] found velocity [VxSedPOC2 ] sedimentation velocity POC2 from proces [Sed_POC2 ] Sedimentation POC2 3d process is switched on. found velocity [VxUpwPOP2 ] total upward transport in sediment from proces [TrSe2_POP2 ] Total of transport in sediment for POP2 process is switched on. found velocity [VxDownPOP2 ] total downward transport in sediment from proces [TrSe2_POP2 ] Total of transport in sediment for POP2 process is switched on. -fluxes for [POP3 ] found flux [dCnvPPOP2 ] conversion flux POP2 to POP3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvPPOP3 ] conversion flux POP3 to POP4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dCnvDPOP3 ] conversion flux POP3 to DOP from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOP3 ] mineralization flux POP3 to PO4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMP2VB01P3 ] dMP2VB01P3 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB01P3 ] dMP5VB01P3 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB02P3 ] dMP2VB02P3 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB02P3 ] dMP5VB02P3 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB03P3 ] dMP2VB03P3 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB03P3 ] dMP5VB03P3 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB04P3 ] dMP2VB04P3 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB04P3 ] dMP5VB04P3 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB05P3 ] dMP2VB05P3 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB05P3 ] dMP5VB05P3 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB06P3 ] dMP2VB06P3 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB06P3 ] dMP5VB06P3 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP2VB07P3 ] dMP2VB07P3 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP5VB07P3 ] dMP5VB07P3 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POP3 ] no dispersions found -velocity for [POP3 ] found velocity [VxSedPOC3 ] sedimentation velocity POC3 from proces [Sed_POC3 ] Sedimentation POC3 3d process is switched on. found velocity [VxUpwPOP3 ] total upward transport in sediment from proces [TrSe2_POP3 ] Total of transport in sediment for POP3 process is switched on. found velocity [VxDownPOP3 ] total downward transport in sediment from proces [TrSe2_POP3 ] Total of transport in sediment for POP3 process is switched on. -fluxes for [POP4 ] found flux [dCnvPPOP3 ] conversion flux POP3 to POP4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOP4 ] mineralization flux POP4 to PO4 from proces [DecRefr ] Mineralization part. refractory detritus POC4 process is switched on. found flux [dCnvPPOP5 ] conversion flux POP5 to POP4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. -dispersion for [POP4 ] no dispersions found -velocity for [POP4 ] found velocity [VxSedPOC4 ] sedimentation velocity POC4 from proces [Sed_POC4 ] Sedimentation POC4 3d process is switched on. found velocity [VxUpwPOP4 ] total upward transport in sediment from proces [TrSe2_POP4 ] Total of transport in sediment for POP4 process is switched on. found velocity [VxDownPOP4 ] total downward transport in sediment from proces [TrSe2_POP4 ] Total of transport in sediment for POP4 process is switched on. -fluxes for [DOP ] found flux [dCnvDPOP1 ] conversion flux POP1 to DOP from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPOP2 ] conversion flux POP2 to DOP from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPOP3 ] conversion flux POP3 to DOP from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinDOP ] mineralization flux DOP to PO4 from proces [DecDOC ] Mineralization DOC (diss. refr. detritus) process is switched on. found flux [dCnvDPOP5 ] conversion flux POP5 to DOP from proces [DecPOC5 ] Mineralisation POC5 process is switched on. -dispersion for [DOP ] no dispersions found -velocity for [DOP ] found velocity [VxUpwDOP ] total upward transport in sediment from proces [TraSe2_DOP ] Total of transport in sediment for DOP process is switched on. found velocity [VxDownDOP ] total downward transport in sediment from proces [TraSe2_DOP ] Total of transport in sediment for DOP process is switched on. -fluxes for [POS1 ] found flux [dDetCMort ] production of DetC by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPOS1 ] conversion flux POS1 to POS2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPOS1 ] conversion flux POS1 to DOS from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMinPOS1 ] mineralization flux POS1 to SUD from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dMS2VB01P1 ] dMS2VB01P1 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB01P1 ] dMS5VB01P1 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB02P1 ] dMS2VB02P1 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB02P1 ] dMS5VB02P1 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB03P1 ] dMS2VB03P1 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB03P1 ] dMS5VB03P1 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB04P1 ] dMS2VB04P1 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB04P1 ] dMS5VB04P1 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB05P1 ] dMS2VB05P1 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB05P1 ] dMS5VB05P1 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB06P1 ] dMS2VB06P1 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB06P1 ] dMS5VB06P1 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB07P1 ] dMS2VB07P1 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB07P1 ] dMS5VB07P1 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POS1 ] no dispersions found -velocity for [POS1 ] found velocity [VxUpwPOS1 ] total upward transport in sediment from proces [TrSe2_POS1 ] Total of transport in sediment for POS1 process is switched on. found velocity [VxDownPOS1 ] total downward transport in sediment from proces [TrSe2_POS1 ] Total of transport in sediment for POS1 process is switched on. -fluxes for [POS2 ] found flux [dOOCMort ] production of OOC by mortality from proces [BLOOM_P ] BLOOM II algae module info : can not switch [BLOOM_P ] on, not using flux. found flux [dCnvPPOS1 ] conversion flux POS1 to POS2 from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvPPOS2 ] conversion flux POS2 to POS3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPOS2 ] conversion flux POS2 to DOS from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMinPOS2 ] mineralization flux POS2 to SUD from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dMS2VB01P2 ] dMS2VB01P2 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB01P2 ] dMS5VB01P2 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB02P2 ] dMS2VB02P2 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB02P2 ] dMS5VB02P2 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB03P2 ] dMS2VB03P2 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB03P2 ] dMS5VB03P2 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB04P2 ] dMS2VB04P2 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB04P2 ] dMS5VB04P2 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB05P2 ] dMS2VB05P2 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB05P2 ] dMS5VB05P2 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB06P2 ] dMS2VB06P2 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB06P2 ] dMS5VB06P2 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB07P2 ] dMS2VB07P2 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB07P2 ] dMS5VB07P2 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POS2 ] no dispersions found -velocity for [POS2 ] found velocity [VxUpwPOS2 ] total upward transport in sediment from proces [TrSe2_POS2 ] Total of transport in sediment for POS2 process is switched on. found velocity [VxDownPOS2 ] total downward transport in sediment from proces [TrSe2_POS2 ] Total of transport in sediment for POS2 process is switched on. -fluxes for [POS3 ] found flux [dCnvPPOS2 ] conversion flux POS2 to POS3 from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvPPOS3 ] conversion flux POS3 to POS4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dCnvDPOS3 ] conversion flux POS3 to DOS from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOS3 ] mineralization flux POS3 to SUD from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMS2VB01P3 ] dMS2VB01P3 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB01P3 ] dMS5VB01P3 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB02P3 ] dMS2VB02P3 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB02P3 ] dMS5VB02P3 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB03P3 ] dMS2VB03P3 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB03P3 ] dMS5VB03P3 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB04P3 ] dMS2VB04P3 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB04P3 ] dMS5VB04P3 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB05P3 ] dMS2VB05P3 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB05P3 ] dMS5VB05P3 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB06P3 ] dMS2VB06P3 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB06P3 ] dMS5VB06P3 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS2VB07P3 ] dMS2VB07P3 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS5VB07P3 ] dMS5VB07P3 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POS3 ] no dispersions found -velocity for [POS3 ] found velocity [VxUpwPOS3 ] total upward transport in sediment from proces [TrSe2_POS3 ] Total of transport in sediment for POS3 process is switched on. found velocity [VxDownPOS3 ] total downward transport in sediment from proces [TrSe2_POS3 ] Total of transport in sediment for POS3 process is switched on. -fluxes for [POS4 ] found flux [dCnvPPOS3 ] conversion flux POS3 to POS4 from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinPOS4 ] mineralization flux POS4 to SUD from proces [DecRefr ] Mineralization part. refractory detritus POC4 process is switched on. found flux [dCnvPPOS5 ] conversion flux POS5 to POS4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. -dispersion for [POS4 ] no dispersions found -velocity for [POS4 ] found velocity [VxUpwPOS4 ] total upward transport in sediment from proces [TrSe2_POS4 ] Total of transport in sediment for POS4 process is switched on. found velocity [VxDownPOS4 ] total downward transport in sediment from proces [TrSe2_POS4 ] Total of transport in sediment for POS4 process is switched on. -fluxes for [DOS ] found flux [dCnvDPOS1 ] conversion flux POS1 to DOS from proces [DecFast ] Mineralization fast decomp. detritus POC1 process is switched on. found flux [dCnvDPOS2 ] conversion flux POS2 to DOS from proces [DecMedium ] Mineralization medium decomp. detritus POC2 process is switched on. found flux [dCnvDPOS3 ] conversion flux POS3 to DOS from proces [DecSlow ] Mineralization slow decomp. detritus POC3 process is switched on. found flux [dMinDOS ] mineralization flux DOS to SUD from proces [DecDOC ] Mineralization DOC (diss. refr. detritus) process is switched on. found flux [dCnvDPOS5 ] conversion flux POS5 to DOS from proces [DecPOC5 ] Mineralisation POC5 process is switched on. -dispersion for [DOS ] no dispersions found -velocity for [DOS ] found velocity [VxUpwDOS ] total upward transport in sediment from proces [TraSe2_DOS ] Total of transport in sediment for DOS process is switched on. found velocity [VxDownDOS ] total downward transport in sediment from proces [TraSe2_DOS ] Total of transport in sediment for DOS process is switched on. -fluxes for [FDIATOMS_E ] no fluxes found -dispersion for [FDIATOMS_E ] no dispersions found -velocity for [FDIATOMS_E ] no velocity found -fluxes for [FDIATOMS_P ] no fluxes found -dispersion for [FDIATOMS_P ] no dispersions found -velocity for [FDIATOMS_P ] no velocity found -fluxes for [GREENS_E ] no fluxes found -dispersion for [GREENS_E ] no dispersions found -velocity for [GREENS_E ] no velocity found -fluxes for [GREENS_N ] no fluxes found -dispersion for [GREENS_N ] no dispersions found -velocity for [GREENS_N ] no velocity found -fluxes for [GREENS_P ] no fluxes found -dispersion for [GREENS_P ] no dispersions found -velocity for [GREENS_P ] no velocity found -fluxes for [OSCILAT_E ] no fluxes found -dispersion for [OSCILAT_E ] no dispersions found -velocity for [OSCILAT_E ] no velocity found -fluxes for [OSCILAT_N ] no fluxes found -dispersion for [OSCILAT_N ] no dispersions found -velocity for [OSCILAT_N ] no velocity found -fluxes for [OSCILAT_P ] no fluxes found -dispersion for [OSCILAT_P ] no dispersions found -velocity for [OSCILAT_P ] no velocity found -fluxes for [APHANIZO_E ] no fluxes found -dispersion for [APHANIZO_E ] no dispersions found -velocity for [APHANIZO_E ] no velocity found -fluxes for [APHANIZO_N ] no fluxes found -dispersion for [APHANIZO_N ] no dispersions found -velocity for [APHANIZO_N ] no velocity found -fluxes for [APHANIZO_P ] no fluxes found -dispersion for [APHANIZO_P ] no dispersions found -velocity for [APHANIZO_P ] no velocity found -fluxes for [MICROCYS_E ] no fluxes found -dispersion for [MICROCYS_E ] no dispersions found -velocity for [MICROCYS_E ] no velocity found -fluxes for [MICROCYS_N ] no fluxes found -dispersion for [MICROCYS_N ] no dispersions found -velocity for [MICROCYS_N ] no velocity found -fluxes for [MICROCYS_P ] no fluxes found -dispersion for [MICROCYS_P ] no dispersions found -velocity for [MICROCYS_P ] no velocity found -fluxes for [POC5 ] found flux [dCnvPPOC5 ] conversion flux POC5 to POC4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dCnvDPOC5 ] conversion flux POC5 to DOC from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMinPOC5G ] mineralisation flux POC5 to CO2 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMinPOC5E ] min. flux POC5 to CO2 emersed from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMC1VB01P5 ] dMC1VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC3VB01P5 ] dMC3VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC4VB01P5 ] dMC4VB01P5 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC1VB02P5 ] dMC1VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC3VB02P5 ] dMC3VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC4VB02P5 ] dMC4VB02P5 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC1VB03P5 ] dMC1VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC3VB03P5 ] dMC3VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC4VB03P5 ] dMC4VB03P5 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC1VB04P5 ] dMC1VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC3VB04P5 ] dMC3VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC4VB04P5 ] dMC4VB04P5 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC1VB05P5 ] dMC1VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC3VB05P5 ] dMC3VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC4VB05P5 ] dMC4VB05P5 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC1VB06P5 ] dMC1VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC3VB06P5 ] dMC3VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC4VB06P5 ] dMC4VB06P5 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMC1VB07P5 ] dMC1VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC3VB07P5 ] dMC3VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMC4VB07P5 ] dMC4VB07P5 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POC5 ] no dispersions found -velocity for [POC5 ] no velocity found -fluxes for [PON5 ] found flux [dCnvPPON5 ] conversion flux PON5 to PON4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dCnvDPON5 ] conversion flux PON5 to DON from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMinPON5 ] mineralisation flux PON5 to NH4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMN1VB01P5 ] dMN1VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN3VB01P5 ] dMN3VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN4VB01P5 ] dMN4VB01P5 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN1VB02P5 ] dMN1VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN3VB02P5 ] dMN3VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN4VB02P5 ] dMN4VB02P5 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN1VB03P5 ] dMN1VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN3VB03P5 ] dMN3VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN4VB03P5 ] dMN4VB03P5 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN1VB04P5 ] dMN1VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN3VB04P5 ] dMN3VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN4VB04P5 ] dMN4VB04P5 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN1VB05P5 ] dMN1VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN3VB05P5 ] dMN3VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN4VB05P5 ] dMN4VB05P5 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN1VB06P5 ] dMN1VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN3VB06P5 ] dMN3VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN4VB06P5 ] dMN4VB06P5 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMN1VB07P5 ] dMN1VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN3VB07P5 ] dMN3VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMN4VB07P5 ] dMN4VB07P5 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [PON5 ] no dispersions found -velocity for [PON5 ] no velocity found -fluxes for [POP5 ] found flux [dCnvPPOP5 ] conversion flux POP5 to POP4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dCnvDPOP5 ] conversion flux POP5 to DOP from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMinPOP5 ] mineralisation flux POP5 to PO4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMP1VB01P5 ] dMP1VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP3VB01P5 ] dMP3VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP4VB01P5 ] dMP4VB01P5 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP1VB02P5 ] dMP1VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP3VB02P5 ] dMP3VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP4VB02P5 ] dMP4VB02P5 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP1VB03P5 ] dMP1VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP3VB03P5 ] dMP3VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP4VB03P5 ] dMP4VB03P5 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP1VB04P5 ] dMP1VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP3VB04P5 ] dMP3VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP4VB04P5 ] dMP4VB04P5 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP1VB05P5 ] dMP1VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP3VB05P5 ] dMP3VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP4VB05P5 ] dMP4VB05P5 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP1VB06P5 ] dMP1VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP3VB06P5 ] dMP3VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP4VB06P5 ] dMP4VB06P5 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMP1VB07P5 ] dMP1VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP3VB07P5 ] dMP3VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMP4VB07P5 ] dMP4VB07P5 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POP5 ] no dispersions found -velocity for [POP5 ] no velocity found -fluxes for [POS5 ] found flux [dCnvPPOS5 ] conversion flux POS5 to POS4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dCnvDPOS5 ] conversion flux POS5 to DOS from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMinPOS5 ] mineralisation flux POS5 to SO4 from proces [DecPOC5 ] Mineralisation POC5 process is switched on. found flux [dMS1VB01P5 ] dMS1VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS3VB01P5 ] dMS3VB01P5 from proces [VB01_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS4VB01P5 ] dMS4VB01P5 from proces [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS1VB02P5 ] dMS1VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS3VB02P5 ] dMS3VB02P5 from proces [VB02_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS4VB02P5 ] dMS4VB02P5 from proces [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS1VB03P5 ] dMS1VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS3VB03P5 ] dMS3VB03P5 from proces [VB03_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS4VB03P5 ] dMS4VB03P5 from proces [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS1VB04P5 ] dMS1VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS3VB04P5 ] dMS3VB04P5 from proces [VB04_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS4VB04P5 ] dMS4VB04P5 from proces [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS1VB05P5 ] dMS1VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS3VB05P5 ] dMS3VB05P5 from proces [VB05_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS4VB05P5 ] dMS4VB05P5 from proces [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS1VB06P5 ] dMS1VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS3VB06P5 ] dMS3VB06P5 from proces [VB06_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS4VB06P5 ] dMS4VB06P5 from proces [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. found flux [dMS1VB07P5 ] dMS1VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS3VB07P5 ] dMS3VB07P5 from proces [VB07_Mrt3W ] Vegetation module mortality 3D flux water process is switched on. found flux [dMS4VB07P5 ] dMS4VB07P5 from proces [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment process is switched on. -dispersion for [POS5 ] no dispersions found -velocity for [POS5 ] no velocity found -fluxes for [VB01 ] found flux [dVB01 ] growth rate vegetation biomass cohort 1 from proces [VBGrowth01 ] Vegation Biomass Growth process is switched on. found flux [dMrtC1VB01 ] mortality stem VB01 from proces [VBMort01 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC3VB01 ] mortality branch VB01 from proces [VBMort01 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC4VB01 ] mortality root VB01 from proces [VBMort01 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC2VB01 ] mortality foliage VB01 from proces [VBMort01 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC5VB01 ] mortality fineroot VB01 from proces [VBMort01 ] Vegation Biomass Mortality process is switched on. -dispersion for [VB01 ] no dispersions found -velocity for [VB01 ] no velocity found -fluxes for [VB02 ] found flux [dVB02 ] growth rate vegetation biomass cohort 2 from proces [VBGrowth02 ] Vegation Biomass Growth process is switched on. found flux [dMrtC1VB02 ] mortality stem VB02 from proces [VBMort02 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC3VB02 ] mortality branch VB02 from proces [VBMort02 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC4VB02 ] mortality root VB02 from proces [VBMort02 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC2VB02 ] mortality foliage VB02 from proces [VBMort02 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC5VB02 ] mortality fineroot VB02 from proces [VBMort02 ] Vegation Biomass Mortality process is switched on. -dispersion for [VB02 ] no dispersions found -velocity for [VB02 ] no velocity found -fluxes for [VB03 ] found flux [dVB03 ] growth rate vegetation biomass cohort 3 from proces [VBGrowth03 ] Vegation Biomass Growth process is switched on. found flux [dMrtC1VB03 ] mortality stem VB03 from proces [VBMort03 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC3VB03 ] mortality branch VB03 from proces [VBMort03 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC4VB03 ] mortality root VB03 from proces [VBMort03 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC2VB03 ] mortality foliage VB03 from proces [VBMort03 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC5VB03 ] mortality fineroot VB03 from proces [VBMort03 ] Vegation Biomass Mortality process is switched on. -dispersion for [VB03 ] no dispersions found -velocity for [VB03 ] no velocity found -fluxes for [VB04 ] found flux [dVB04 ] growth rate vegetation biomass cohort 4 from proces [VBGrowth04 ] Vegation Biomass Growth process is switched on. found flux [dMrtC1VB04 ] mortality stem VB04 from proces [VBMort04 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC3VB04 ] mortality branch VB04 from proces [VBMort04 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC4VB04 ] mortality root VB04 from proces [VBMort04 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC2VB04 ] mortality foliage VB04 from proces [VBMort04 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC5VB04 ] mortality fineroot VB04 from proces [VBMort04 ] Vegation Biomass Mortality process is switched on. -dispersion for [VB04 ] no dispersions found -velocity for [VB04 ] no velocity found -fluxes for [VB05 ] found flux [dVB05 ] growth rate vegetation biomass cohort 5 from proces [VBGrowth05 ] Vegation Biomass Growth process is switched on. found flux [dMrtC1VB05 ] mortality stem VB05 from proces [VBMort05 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC3VB05 ] mortality branch VB05 from proces [VBMort05 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC4VB05 ] mortality root VB05 from proces [VBMort05 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC2VB05 ] mortality foliage VB05 from proces [VBMort05 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC5VB05 ] mortality fineroot VB05 from proces [VBMort05 ] Vegation Biomass Mortality process is switched on. -dispersion for [VB05 ] no dispersions found -velocity for [VB05 ] no velocity found -fluxes for [VB06 ] found flux [dVB06 ] growth rate vegetation biomass cohort 6 from proces [VBGrowth06 ] Vegation Biomass Growth process is switched on. found flux [dMrtC1VB06 ] mortality stem VB06 from proces [VBMort06 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC3VB06 ] mortality branch VB06 from proces [VBMort06 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC4VB06 ] mortality root VB06 from proces [VBMort06 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC2VB06 ] mortality foliage VB06 from proces [VBMort06 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC5VB06 ] mortality fineroot VB06 from proces [VBMort06 ] Vegation Biomass Mortality process is switched on. -dispersion for [VB06 ] no dispersions found -velocity for [VB06 ] no velocity found -fluxes for [VB07 ] found flux [dVB07 ] growth rate vegetation biomass cohort 7 from proces [VBGrowth07 ] Vegation Biomass Growth process is switched on. found flux [dMrtC1VB07 ] mortality stem VB07 from proces [VBMort07 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC3VB07 ] mortality branch VB07 from proces [VBMort07 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC4VB07 ] mortality root VB07 from proces [VBMort07 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC2VB07 ] mortality foliage VB07 from proces [VBMort07 ] Vegation Biomass Mortality process is switched on. found flux [dMrtC5VB07 ] mortality fineroot VB07 from proces [VBMort07 ] Vegation Biomass Mortality process is switched on. -dispersion for [VB07 ] no dispersions found -velocity for [VB07 ] no velocity found # locating processes for requested output # determining the input for the processes (in reversed order) Input for [VB07_Upt3D ] Vegetation module VB07 uptake 3D flux distribution [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB07 ] bottom segment pointer Using output from proces [VBStatus07 ] [RootDeVB07 ] Max Height VB07 Using constant nr758 with value:-0.500000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [iniCovVB07 ] initial veg. coverage cohort 7 Using constant nr774 with value: 5.00000 [VB07Navail ] VB07 nitrogen availability in rooting zone Using output from proces [VB07availN ] [VB07Pavail ] VB07 phosphorus availability in rooting z. Using output from proces [VB07availN ] [VB07Savail ] VB07 sulfur availability in rooting zone Using output from proces [VB07availN ] [fNVB07up ] uptake (fine)roots VB07 Using output from proces [VB07Upt ] [fPVB07up ] uptake roots VB07 Using output from proces [VB07Upt ] [fSVB07up ] uptake roots VB07 Using output from proces [VB07Upt ] Input for [VB07Upt ] Vegetation Biomass Nutrient Uptake [fVB07 ] area scaled flux dVB07 Using output from proces [VBGrowth07 ] [SwVB07Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus07 ] [F1VB07 ] allocation factor comp. 1 (stem) VB07 Using output from proces [VB07availN ] [F2VB07 ] allocation factor comp. 2 (foliage) VB07 Using output from proces [VB07availN ] [F3VB07 ] allocation factor comp. 3 (branch) VB07 Using output from proces [VB07availN ] [F4VB07 ] allocation factor comp. 4 (root) VB07 Using output from proces [VB07availN ] [F5VB07 ] allocation factor comp. 5 (fineroot) VB07 Using output from proces [VB07availN ] [CNf1VB07 ] carbon-nitrogen ratio in stem VB07 using default value: 10.00000 [CNf2VB07 ] carbon-nitrogen ratio in foliage VB07 Using constant nr763 with value: 25.0000 [CNf3VB07 ] carbon-nitrogen ratio in branch VB07 using default value: 10.00000 [CNf4VB07 ] carbon-nitrogen ratio in root VB07 using default value: 10.00000 [CNf5VB07 ] carbon-nitrogen ratio in fineroot VB07 Using constant nr764 with value: 30.0000 [CPf1VB07 ] carbon-phosporus ratio in stem VB07 using default value: 100.0000 [CPf2VB07 ] carbon-phosporus ratio in foliage VB07 Using constant nr765 with value: 300.000 [CPf3VB07 ] carbon-phosporus ratio in branch VB07 using default value: 100.0000 [CPf4VB07 ] carbon-phosporus ratio in root VB07 using default value: 100.0000 [CPf5VB07 ] carbon-phosporus ratio in fineroot VB07 Using constant nr766 with value: 600.000 [CSf1VB07 ] carbon-sulphur ratio in stem VB07 using default value: 1000.000 [CSf2VB07 ] carbon-sulphur ratio in foliage VB07 Using constant nr767 with value: 1000.000 [CSf3VB07 ] carbon-sulphur ratio in branch VB07 using default value: 1000.000 [CSf4VB07 ] carbon-sulphur ratio in root VB07 using default value: 1000.000 [CSf5VB07 ] carbon-sulphur ratio in fineroot Using constant nr768 with value: 1000.000 Input for [VB07_Mrt3S ] Vegetation module mortality 3D flux sediment [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB07 ] bottom segment pointer Using output from proces [VBStatus07 ] [SwDisVB07 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr761 with value: 1.000000 [RootDeVB07 ] Max Height VB07 Using constant nr758 with value:-0.500000 [FfacVB07 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr760 with value: 1.000000 [nfVB_sed ] number of fluxes VBXX to be distributed using default value: 16.0000 [fC5VB07P1 ] mortality fineroot VB07 to POC1 Using output from proces [VBMort07 ] [fC5VB07P2 ] mortality fineroot VB07 to POC2 Using output from proces [VBMort07 ] [fC5VB07P3 ] mortality fineroot VB07 to POC3 Using output from proces [VBMort07 ] [fN5VB07P1 ] mortality fineroot VB07 to PON1 Using output from proces [VBMort07 ] [fN5VB07P2 ] mortality fineroot VB07 to PON2 Using output from proces [VBMort07 ] [fN5VB07P3 ] mortality fineroot VB07 to PON3 Using output from proces [VBMort07 ] [fP5VB07P1 ] mortality fineroot VB07 to POP1 Using output from proces [VBMort07 ] [fP5VB07P2 ] mortality fineroot VB07 to POP2 Using output from proces [VBMort07 ] [fP5VB07P3 ] mortality fineroot VB07 to POP3 Using output from proces [VBMort07 ] [fS5VB07P1 ] mortality fineroot VB07 to POS1 Using output from proces [VBMort07 ] [fS5VB07P2 ] mortality fineroot VB07 to POS2 Using output from proces [VBMort07 ] [fS5VB07P3 ] mortality fineroot VB07 to POS3 Using output from proces [VBMort07 ] [fC4VB07P5 ] mortality root VB07 to POC5 Using output from proces [VBMort07 ] [fN4VB07P5 ] mortality root VB07 to PON5 Using output from proces [VBMort07 ] [fP4VB07P5 ] mortality root VB07 to POP5 Using output from proces [VBMort07 ] [fS4VB07P5 ] mortality root VB07 to POS5 Using output from proces [VBMort07 ] Input for [VB07_Mrt3W ] Vegetation module mortality 3D flux water [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB07 ] bottom segment pointer Using output from proces [VBStatus07 ] [SwDisVB07 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr761 with value: 1.000000 [VegHeVB07 ] Max Height VB07 Using constant nr759 with value: 10.00000 [FfacVB07 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr760 with value: 1.000000 [nfVB_wat ] number of fluxes VBXX to be distributed using default value: 20.0000 [fC2VB07P1 ] mortality foliage VB07 to POC1 Using output from proces [VBMort07 ] [fC2VB07P2 ] mortality foliage VB07 to POC2 Using output from proces [VBMort07 ] [fC2VB07P3 ] mortality foliage VB07 to POC3 Using output from proces [VBMort07 ] [fN2VB07P1 ] mortality foliage VB07 to PON1 Using output from proces [VBMort07 ] [fN2VB07P2 ] mortality foliage VB07 to PON2 Using output from proces [VBMort07 ] [fN2VB07P3 ] mortality foliage VB07 to PON3 Using output from proces [VBMort07 ] [fP2VB07P1 ] mortality foliage VB07 to POP1 Using output from proces [VBMort07 ] [fP2VB07P2 ] mortality foliage VB07 to POP2 Using output from proces [VBMort07 ] [fP2VB07P3 ] mortality foliage VB07 to POP3 Using output from proces [VBMort07 ] [fS2VB07P1 ] mortality foliage VB07 to POS1 Using output from proces [VBMort07 ] [fS2VB07P2 ] mortality foliage VB07 to POS2 Using output from proces [VBMort07 ] [fS2VB07P3 ] mortality foliage VB07 to POS3 Using output from proces [VBMort07 ] [fC1VB07P5 ] mortality stem VB07 to POC5 Using output from proces [VBMort07 ] [fC3VB07P5 ] mortality branch VB07 to POC5 Using output from proces [VBMort07 ] [fN1VB07P5 ] mortality stem VB07 to PON5 Using output from proces [VBMort07 ] [fN3VB07P5 ] mortality branch VB07 to PON5 Using output from proces [VBMort07 ] [fP1VB07P5 ] mortality stem VB07 to POP5 Using output from proces [VBMort07 ] [fP3VB07P5 ] mortality branch VB07 to POP5 Using output from proces [VBMort07 ] [fS1VB07P5 ] mortality stem VB07 to POS5 Using output from proces [VBMort07 ] [fS3VB07P5 ] mortality branch VB07 to POS5 Using output from proces [VBMort07 ] Input for [VBMort07 ] Vegation Biomass Mortality [VB07 ] vegetation biomass cohort 7 Using substance nr 64 [F1VB07 ] allocation factor comp. 1 (stem) VB07 Using output from proces [VB07availN ] [F2VB07 ] allocation factor comp. 2 (foliage) VB07 Using output from proces [VB07availN ] [F3VB07 ] allocation factor comp. 3 (branch) VB07 Using output from proces [VB07availN ] [F4VB07 ] allocation factor comp. 4 (root) VB07 Using output from proces [VB07availN ] [F5VB07 ] allocation factor comp. 5 (fineroot) VB07 Using output from proces [VB07availN ] [SwVB07Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus07 ] [ageVB07 ] age of vegetation cohort 7 Using output from proces [VBGrowth07 ] [CNf1VB07 ] carbon-nitrogen ratio in stem VB07 using default value: 10.00000 [CNf2VB07 ] carbon-nitrogen ratio in foliage VB07 Using constant nr763 with value: 25.0000 [CNf3VB07 ] carbon-nitrogen ratio in branch VB07 using default value: 10.00000 [CNf4VB07 ] carbon-nitrogen ratio in root VB07 using default value: 10.00000 [CNf5VB07 ] carbon-nitrogen ratio in fineroot VB07 Using constant nr764 with value: 30.0000 [CPf1VB07 ] carbon-phosporus ratio in stem VB07 using default value: 100.0000 [CPf2VB07 ] carbon-phosporus ratio in foliage VB07 Using constant nr765 with value: 300.000 [CPf3VB07 ] carbon-phosporus ratio in branch VB07 using default value: 100.0000 [CPf4VB07 ] carbon-phosporus ratio in root VB07 using default value: 100.0000 [CPf5VB07 ] carbon-phosporus ratio in fineroot VB07 Using constant nr766 with value: 600.000 [CSf1VB07 ] carbon-sulphur ratio in stem VB07 using default value: 1000.000 [CSf2VB07 ] carbon-sulphur ratio in foliage VB07 Using constant nr767 with value: 1000.000 [CSf3VB07 ] carbon-sulphur ratio in branch VB07 using default value: 1000.000 [CSf4VB07 ] carbon-sulphur ratio in root VB07 using default value: 1000.000 [CSf5VB07 ] carbon-sulphur ratio in fineroot Using constant nr768 with value: 1000.000 [FfolPOC1 ] fraction of biomass foliage to POC1 Using constant nr555 with value: 0.400000 [FfolPOC2 ] fraction of biomass foliage to POC2 Using constant nr556 with value: 0.400000 [FfrootPOC1 ] fraction of biomass root to POC1 Using constant nr557 with value: 0.400000 [FfrootPOC2 ] fraction of biomass root to POC2 Using constant nr558 with value: 0.400000 [DELT ] timestep for processes Using DELWAQ timestep in days [Depth ] depth of segment Using output from proces [DynDepth ] [RcMrtVB07 ] rate constant inundation mortality cohort 7 Using constant nr780 with value: 0.500000E-01 [SWVB07Dec ] biomass is decaying after prev mort type 7 Using output from proces [VBGrowth07 ] [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0MSWV07 ] senescence mortality rate for VB07 at 20 oC Using constant nr775 with value: 0.100000E+00 [TcMSWV07 ] temperature coefficient of WV mort. for VB07 Using constant nr776 with value: 1.06000 [RcMGRWV07 ] grazing mortality pressure for VB07 Using constant nr777 with value: 0.00000 [AcMWV07 ] acceleration factor for senescence mort VB07 Using constant nr778 with value: 10.00000 [MinRWV07 ] minimum biomass ratio for VB07 Using constant nr772 with value: 0.100000E+00 [MaxRWV07 ] maximum biomass ratio for VB07 Using constant nr779 with value: 1.20000 [TBmWV07 ] target total biomass for VB07 Using function nr 9 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VBGrowth07 ] Vegation Biomass Growth [VB07 ] vegetation biomass cohort 7 Using substance nr 64 [maxVB07 ] maximum vegetation biomass cohort 7 using default value: 0.00000 [minVB07 ] minimum vegetation biomass cohort 7 using default value: 0.00000 [hlfAgeVB07 ] age where biomass is half of maximum cohort 7 using default value: 0.00000 [sfVB07 ] shape factor growth curve cohort 7 using default value: 1.000000 [dmCfVB07 ] dry matter carbon ratio veg. cohort 7 Using constant nr762 with value: 1.000000 [iniVB07 ] initial veg. biomass cohort 7 using default value: 0.00000 [iniCovVB07 ] initial veg. coverage cohort 7 Using constant nr774 with value: 5.00000 [SWiniVB07 ] switch 0=biomass 1=%coverage for cohort 7 Using constant nr773 with value: 1.000000 [ageVB07 ] age of vegetation cohort 7 Using output from proces [VBGrowth07 ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [SwVB07Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus07 ] [SwVB07Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus07 ] [VBType07 ] nr of the vegetation type (for warnings) using default value: 7.00000 [VB07Navail ] VB07 nitrogen availability in rooting zone Using output from proces [VB07availN ] [VB07Pavail ] VB07 phosphorus availability in rooting z. Using output from proces [VB07availN ] [VB07Savail ] VB07 sulfur availability in rooting zone Using output from proces [VB07availN ] [VBFrMaxU ] maximum fraction available for uptake <0-1> Using constant nr560 with value: 0.500000 [F1VB07 ] allocation factor comp. 1 (stem) VB07 Using output from proces [VB07availN ] [F2VB07 ] allocation factor comp. 2 (foliage) VB07 Using output from proces [VB07availN ] [F3VB07 ] allocation factor comp. 3 (branch) VB07 Using output from proces [VB07availN ] [F4VB07 ] allocation factor comp. 4 (root) VB07 Using output from proces [VB07availN ] [F5VB07 ] allocation factor comp. 5 (fineroot) VB07 Using output from proces [VB07availN ] [CNf1VB07 ] carbon-nitrogen ratio in stem VB07 using default value: 10.00000 [CNf2VB07 ] carbon-nitrogen ratio in foliage VB07 Using constant nr763 with value: 25.0000 [CNf3VB07 ] carbon-nitrogen ratio in branch VB07 using default value: 10.00000 [CNf4VB07 ] carbon-nitrogen ratio in root VB07 using default value: 10.00000 [CNf5VB07 ] carbon-nitrogen ratio in fineroot VB07 Using constant nr764 with value: 30.0000 [CPf1VB07 ] carbon-phosporus ratio in stem VB07 using default value: 100.0000 [CPf2VB07 ] carbon-phosporus ratio in foliage VB07 Using constant nr765 with value: 300.000 [CPf3VB07 ] carbon-phosporus ratio in branch VB07 using default value: 100.0000 [CPf4VB07 ] carbon-phosporus ratio in root VB07 using default value: 100.0000 [CPf5VB07 ] carbon-phosporus ratio in fineroot VB07 Using constant nr766 with value: 600.000 [CSf1VB07 ] carbon-sulphur ratio in stem VB07 using default value: 1000.000 [CSf2VB07 ] carbon-sulphur ratio in foliage VB07 Using constant nr767 with value: 1000.000 [CSf3VB07 ] carbon-sulphur ratio in branch VB07 using default value: 1000.000 [CSf4VB07 ] carbon-sulphur ratio in root VB07 using default value: 1000.000 [CSf5VB07 ] carbon-sulphur ratio in fineroot Using constant nr768 with value: 1000.000 [SWRegrVB07 ] allow regrowth (y=1,n=0) after decay using default value: 1.000000 [SWVB07Dec ] biomass is decaying after prev mort type 7 Using output from proces [VBGrowth07 ] [IniAgeVB07 ] inital age of VB at start of simulation using default value: 0.00000 [IniVB07dec ] inital decay Switch VB07 start simulation using default value: 0.00000 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0GWV07 ] wetland vegetation growth rate VB07 at 20 oC Using constant nr769 with value: 0.400000 [TcGWV07 ] temperature coefficient of WV growth for VB07 Using constant nr770 with value: 1.04000 [AcGWV07 ] acceleration factor for WV growth of VB07 Using constant nr771 with value: 10.00000 [MinRWV07 ] minimum biomass ratio for VB07 Using constant nr772 with value: 0.100000E+00 [TBmWV07 ] target total biomass for VB07 Using function nr 9 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VB07availN ] Vegetation module VB07 availability of nutrients [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [botsegVB07 ] bottom segment pointer Using output from proces [VBStatus07 ] [RootDeVB07 ] Max Height VB07 Using constant nr758 with value:-0.500000 [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [SWRootVB07 ] use RootShootModel(y=1,n=0) for F2VB F4VB Using constant nr552 with value: 1.000000 [VmaxVB07 ] maximun rate in Michelis/Menten using default value: 0.100000E+00 [KmVB07 ] TIN conc. at half of Vmax using default value: 0.100000E+00 [ViniVB07 ] initial rate in Michelis/Menten using default value: 0.100000E+00 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VBStatus07 ] Status of Vegation Biomass cohort 07 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [VBType07 ] nr of the vegetation type (for warnings) using default value: 7.00000 [nsfVB ] nr successive emersion(flood) VB01 using default value: 0.00000 [CrnsfVB07 ] critical number successive flood days VB07 Using constant nr781 with value: 10.00000 [Initnsfd ] initial number flood days at simulation start Using constant nr559 with value: 10.00000 [CrdepVB07 ] critical depth for inundation mortality VB07 Using constant nr782 with value: 1.000000 [nscdVB07 ] nr successive critical depth exceedence VB07 Using output from proces [VBStatus07 ] [InnscdVB07 ] initial critical depth exceedence days at start using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [TotalDepth ] total depth water column Using output from proces [TotDepth ] Input for [VB06_Upt3D ] Vegetation module VB06 uptake 3D flux distribution [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB06 ] bottom segment pointer Using output from proces [VBStatus06 ] [RootDeVB06 ] Max Height VB06 Using constant nr725 with value:-0.500000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [iniCovVB06 ] initial veg. coverage cohort 6 Using constant nr741 with value: 5.00000 [VB06Navail ] VB06 nitrogen availability in rooting zone Using output from proces [VB06availN ] [VB06Pavail ] VB06 phosphorus availability in rooting z. Using output from proces [VB06availN ] [VB06Savail ] VB06 sulfur availability in rooting zone Using output from proces [VB06availN ] [fNVB06up ] uptake (fine)roots VB06 Using output from proces [VB06Upt ] [fPVB06up ] uptake roots VB06 Using output from proces [VB06Upt ] [fSVB06up ] uptake roots VB06 Using output from proces [VB06Upt ] Input for [VB06Upt ] Vegetation Biomass Nutrient Uptake [fVB06 ] area scaled flux dVB06 Using output from proces [VBGrowth06 ] [SwVB06Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus06 ] [F1VB06 ] allocation factor comp. 1 (stem) VB06 Using output from proces [VB06availN ] [F2VB06 ] allocation factor comp. 2 (foliage) VB06 Using output from proces [VB06availN ] [F3VB06 ] allocation factor comp. 3 (branch) VB06 Using output from proces [VB06availN ] [F4VB06 ] allocation factor comp. 4 (root) VB06 Using output from proces [VB06availN ] [F5VB06 ] allocation factor comp. 5 (fineroot) VB06 Using output from proces [VB06availN ] [CNf1VB06 ] carbon-nitrogen ratio in stem VB06 using default value: 10.00000 [CNf2VB06 ] carbon-nitrogen ratio in foliage VB06 Using constant nr730 with value: 25.0000 [CNf3VB06 ] carbon-nitrogen ratio in branch VB06 using default value: 10.00000 [CNf4VB06 ] carbon-nitrogen ratio in root VB06 using default value: 10.00000 [CNf5VB06 ] carbon-nitrogen ratio in fineroot VB06 Using constant nr731 with value: 30.0000 [CPf1VB06 ] carbon-phosporus ratio in stem VB06 using default value: 100.0000 [CPf2VB06 ] carbon-phosporus ratio in foliage VB06 Using constant nr732 with value: 300.000 [CPf3VB06 ] carbon-phosporus ratio in branch VB06 using default value: 100.0000 [CPf4VB06 ] carbon-phosporus ratio in root VB06 using default value: 100.0000 [CPf5VB06 ] carbon-phosporus ratio in fineroot VB06 Using constant nr733 with value: 600.000 [CSf1VB06 ] carbon-sulphur ratio in stem VB06 using default value: 1000.000 [CSf2VB06 ] carbon-sulphur ratio in foliage VB06 Using constant nr734 with value: 1000.000 [CSf3VB06 ] carbon-sulphur ratio in branch VB06 using default value: 1000.000 [CSf4VB06 ] carbon-sulphur ratio in root VB06 using default value: 1000.000 [CSf5VB06 ] carbon-sulphur ratio in fineroot Using constant nr735 with value: 1000.000 Input for [VB06_Mrt3S ] Vegetation module mortality 3D flux sediment [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB06 ] bottom segment pointer Using output from proces [VBStatus06 ] [SwDisVB06 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr728 with value: 1.000000 [RootDeVB06 ] Max Height VB06 Using constant nr725 with value:-0.500000 [FfacVB06 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr727 with value: 1.000000 [nfVB_sed ] number of fluxes VBXX to be distributed using default value: 16.0000 [fC5VB06P1 ] mortality fineroot VB06 to POC1 Using output from proces [VBMort06 ] [fC5VB06P2 ] mortality fineroot VB06 to POC2 Using output from proces [VBMort06 ] [fC5VB06P3 ] mortality fineroot VB06 to POC3 Using output from proces [VBMort06 ] [fN5VB06P1 ] mortality fineroot VB06 to PON1 Using output from proces [VBMort06 ] [fN5VB06P2 ] mortality fineroot VB06 to PON2 Using output from proces [VBMort06 ] [fN5VB06P3 ] mortality fineroot VB06 to PON3 Using output from proces [VBMort06 ] [fP5VB06P1 ] mortality fineroot VB06 to POP1 Using output from proces [VBMort06 ] [fP5VB06P2 ] mortality fineroot VB06 to POP2 Using output from proces [VBMort06 ] [fP5VB06P3 ] mortality fineroot VB06 to POP3 Using output from proces [VBMort06 ] [fS5VB06P1 ] mortality fineroot VB06 to POS1 Using output from proces [VBMort06 ] [fS5VB06P2 ] mortality fineroot VB06 to POS2 Using output from proces [VBMort06 ] [fS5VB06P3 ] mortality fineroot VB06 to POS3 Using output from proces [VBMort06 ] [fC4VB06P5 ] mortality root VB06 to POC5 Using output from proces [VBMort06 ] [fN4VB06P5 ] mortality root VB06 to PON5 Using output from proces [VBMort06 ] [fP4VB06P5 ] mortality root VB06 to POP5 Using output from proces [VBMort06 ] [fS4VB06P5 ] mortality root VB06 to POS5 Using output from proces [VBMort06 ] Input for [VB06_Mrt3W ] Vegetation module mortality 3D flux water [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB06 ] bottom segment pointer Using output from proces [VBStatus06 ] [SwDisVB06 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr728 with value: 1.000000 [VegHeVB06 ] Max Height VB06 Using constant nr726 with value: 10.00000 [FfacVB06 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr727 with value: 1.000000 [nfVB_wat ] number of fluxes VBXX to be distributed using default value: 20.0000 [fC2VB06P1 ] mortality foliage VB06 to POC1 Using output from proces [VBMort06 ] [fC2VB06P2 ] mortality foliage VB06 to POC2 Using output from proces [VBMort06 ] [fC2VB06P3 ] mortality foliage VB06 to POC3 Using output from proces [VBMort06 ] [fN2VB06P1 ] mortality foliage VB06 to PON1 Using output from proces [VBMort06 ] [fN2VB06P2 ] mortality foliage VB06 to PON2 Using output from proces [VBMort06 ] [fN2VB06P3 ] mortality foliage VB06 to PON3 Using output from proces [VBMort06 ] [fP2VB06P1 ] mortality foliage VB06 to POP1 Using output from proces [VBMort06 ] [fP2VB06P2 ] mortality foliage VB06 to POP2 Using output from proces [VBMort06 ] [fP2VB06P3 ] mortality foliage VB06 to POP3 Using output from proces [VBMort06 ] [fS2VB06P1 ] mortality foliage VB06 to POS1 Using output from proces [VBMort06 ] [fS2VB06P2 ] mortality foliage VB06 to POS2 Using output from proces [VBMort06 ] [fS2VB06P3 ] mortality foliage VB06 to POS3 Using output from proces [VBMort06 ] [fC1VB06P5 ] mortality stem VB06 to POC5 Using output from proces [VBMort06 ] [fC3VB06P5 ] mortality branch VB06 to POC5 Using output from proces [VBMort06 ] [fN1VB06P5 ] mortality stem VB06 to PON5 Using output from proces [VBMort06 ] [fN3VB06P5 ] mortality branch VB06 to PON5 Using output from proces [VBMort06 ] [fP1VB06P5 ] mortality stem VB06 to POP5 Using output from proces [VBMort06 ] [fP3VB06P5 ] mortality branch VB06 to POP5 Using output from proces [VBMort06 ] [fS1VB06P5 ] mortality stem VB06 to POS5 Using output from proces [VBMort06 ] [fS3VB06P5 ] mortality branch VB06 to POS5 Using output from proces [VBMort06 ] Input for [VBMort06 ] Vegation Biomass Mortality [VB06 ] vegetation biomass cohort 6 Using substance nr 63 [F1VB06 ] allocation factor comp. 1 (stem) VB06 Using output from proces [VB06availN ] [F2VB06 ] allocation factor comp. 2 (foliage) VB06 Using output from proces [VB06availN ] [F3VB06 ] allocation factor comp. 3 (branch) VB06 Using output from proces [VB06availN ] [F4VB06 ] allocation factor comp. 4 (root) VB06 Using output from proces [VB06availN ] [F5VB06 ] allocation factor comp. 5 (fineroot) VB06 Using output from proces [VB06availN ] [SwVB06Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus06 ] [ageVB06 ] age of vegetation cohort 6 Using output from proces [VBGrowth06 ] [CNf1VB06 ] carbon-nitrogen ratio in stem VB06 using default value: 10.00000 [CNf2VB06 ] carbon-nitrogen ratio in foliage VB06 Using constant nr730 with value: 25.0000 [CNf3VB06 ] carbon-nitrogen ratio in branch VB06 using default value: 10.00000 [CNf4VB06 ] carbon-nitrogen ratio in root VB06 using default value: 10.00000 [CNf5VB06 ] carbon-nitrogen ratio in fineroot VB06 Using constant nr731 with value: 30.0000 [CPf1VB06 ] carbon-phosporus ratio in stem VB06 using default value: 100.0000 [CPf2VB06 ] carbon-phosporus ratio in foliage VB06 Using constant nr732 with value: 300.000 [CPf3VB06 ] carbon-phosporus ratio in branch VB06 using default value: 100.0000 [CPf4VB06 ] carbon-phosporus ratio in root VB06 using default value: 100.0000 [CPf5VB06 ] carbon-phosporus ratio in fineroot VB06 Using constant nr733 with value: 600.000 [CSf1VB06 ] carbon-sulphur ratio in stem VB06 using default value: 1000.000 [CSf2VB06 ] carbon-sulphur ratio in foliage VB06 Using constant nr734 with value: 1000.000 [CSf3VB06 ] carbon-sulphur ratio in branch VB06 using default value: 1000.000 [CSf4VB06 ] carbon-sulphur ratio in root VB06 using default value: 1000.000 [CSf5VB06 ] carbon-sulphur ratio in fineroot Using constant nr735 with value: 1000.000 [FfolPOC1 ] fraction of biomass foliage to POC1 Using constant nr555 with value: 0.400000 [FfolPOC2 ] fraction of biomass foliage to POC2 Using constant nr556 with value: 0.400000 [FfrootPOC1 ] fraction of biomass root to POC1 Using constant nr557 with value: 0.400000 [FfrootPOC2 ] fraction of biomass root to POC2 Using constant nr558 with value: 0.400000 [DELT ] timestep for processes Using DELWAQ timestep in days [Depth ] depth of segment Using output from proces [DynDepth ] [RcMrtVB06 ] rate constant inundation mortality cohort 6 Using constant nr747 with value: 0.500000E-01 [SWVB06Dec ] biomass is decaying after prev mort type 6 Using output from proces [VBGrowth06 ] [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0MSWV06 ] senescence mortality rate for VB06 at 20 oC Using constant nr742 with value: 0.100000E+00 [TcMSWV06 ] temperature coefficient of WV mort. for VB06 Using constant nr743 with value: 1.06000 [RcMGRWV06 ] grazing mortality pressure for VB06 Using constant nr744 with value: 0.00000 [AcMWV06 ] acceleration factor for senescence mort VB06 Using constant nr745 with value: 10.00000 [MinRWV06 ] minimum biomass ratio for VB06 Using constant nr739 with value: 0.100000E+00 [MaxRWV06 ] maximum biomass ratio for VB06 Using constant nr746 with value: 1.20000 [TBmWV06 ] target total biomass for VB06 Using function nr 8 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VBGrowth06 ] Vegation Biomass Growth [VB06 ] vegetation biomass cohort 6 Using substance nr 63 [maxVB06 ] maximum vegetation biomass cohort 6 using default value: 0.00000 [minVB06 ] minimum vegetation biomass cohort 6 using default value: 0.00000 [hlfAgeVB06 ] age where biomass is half of maximum cohort 6 using default value: 0.00000 [sfVB06 ] shape factor growth curve cohort 6 using default value: 1.000000 [dmCfVB06 ] dry matter carbon ratio veg. cohort 6 Using constant nr729 with value: 1.000000 [iniVB06 ] initial veg. biomass cohort 6 using default value: 0.00000 [iniCovVB06 ] initial veg. coverage cohort 6 Using constant nr741 with value: 5.00000 [SWiniVB06 ] switch 0=biomass 1=%coverage for cohort 6 Using constant nr740 with value: 1.000000 [ageVB06 ] age of vegetation cohort 6 Using output from proces [VBGrowth06 ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [SwVB06Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus06 ] [SwVB06Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus06 ] [VBType06 ] nr of the vegetation type (for warnings) using default value: 6.00000 [VB06Navail ] VB06 nitrogen availability in rooting zone Using output from proces [VB06availN ] [VB06Pavail ] VB06 phosphorus availability in rooting z. Using output from proces [VB06availN ] [VB06Savail ] VB06 sulfur availability in rooting zone Using output from proces [VB06availN ] [VBFrMaxU ] maximum fraction available for uptake <0-1> Using constant nr560 with value: 0.500000 [F1VB06 ] allocation factor comp. 1 (stem) VB06 Using output from proces [VB06availN ] [F2VB06 ] allocation factor comp. 2 (foliage) VB06 Using output from proces [VB06availN ] [F3VB06 ] allocation factor comp. 3 (branch) VB06 Using output from proces [VB06availN ] [F4VB06 ] allocation factor comp. 4 (root) VB06 Using output from proces [VB06availN ] [F5VB06 ] allocation factor comp. 5 (fineroot) VB06 Using output from proces [VB06availN ] [CNf1VB06 ] carbon-nitrogen ratio in stem VB06 using default value: 10.00000 [CNf2VB06 ] carbon-nitrogen ratio in foliage VB06 Using constant nr730 with value: 25.0000 [CNf3VB06 ] carbon-nitrogen ratio in branch VB06 using default value: 10.00000 [CNf4VB06 ] carbon-nitrogen ratio in root VB06 using default value: 10.00000 [CNf5VB06 ] carbon-nitrogen ratio in fineroot VB06 Using constant nr731 with value: 30.0000 [CPf1VB06 ] carbon-phosporus ratio in stem VB06 using default value: 100.0000 [CPf2VB06 ] carbon-phosporus ratio in foliage VB06 Using constant nr732 with value: 300.000 [CPf3VB06 ] carbon-phosporus ratio in branch VB06 using default value: 100.0000 [CPf4VB06 ] carbon-phosporus ratio in root VB06 using default value: 100.0000 [CPf5VB06 ] carbon-phosporus ratio in fineroot VB06 Using constant nr733 with value: 600.000 [CSf1VB06 ] carbon-sulphur ratio in stem VB06 using default value: 1000.000 [CSf2VB06 ] carbon-sulphur ratio in foliage VB06 Using constant nr734 with value: 1000.000 [CSf3VB06 ] carbon-sulphur ratio in branch VB06 using default value: 1000.000 [CSf4VB06 ] carbon-sulphur ratio in root VB06 using default value: 1000.000 [CSf5VB06 ] carbon-sulphur ratio in fineroot Using constant nr735 with value: 1000.000 [SWRegrVB06 ] allow regrowth (y=1,n=0) after decay using default value: 1.000000 [SWVB06Dec ] biomass is decaying after prev mort type 6 Using output from proces [VBGrowth06 ] [IniAgeVB06 ] inital age of VB at start of simulation using default value: 0.00000 [IniVB06dec ] inital decay Switch VB06 start simulation using default value: 0.00000 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0GWV06 ] wetland vegetation growth rate VB06 at 20 oC Using constant nr736 with value: 0.400000 [TcGWV06 ] temperature coefficient of WV growth for VB06 Using constant nr737 with value: 1.04000 [AcGWV06 ] acceleration factor for WV growth of VB06 Using constant nr738 with value: 10.00000 [MinRWV06 ] minimum biomass ratio for VB06 Using constant nr739 with value: 0.100000E+00 [TBmWV06 ] target total biomass for VB06 Using function nr 8 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VB06availN ] Vegetation module VB06 availability of nutrients [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [botsegVB06 ] bottom segment pointer Using output from proces [VBStatus06 ] [RootDeVB06 ] Max Height VB06 Using constant nr725 with value:-0.500000 [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [SWRootVB06 ] use RootShootModel(y=1,n=0) for F2VB F4VB Using constant nr551 with value: 1.000000 [VmaxVB06 ] maximun rate in Michelis/Menten using default value: 0.100000E+00 [KmVB06 ] TIN conc. at half of Vmax using default value: 0.100000E+00 [ViniVB06 ] initial rate in Michelis/Menten using default value: 0.100000E+00 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VBStatus06 ] Status of Vegation Biomass cohort 06 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [VBType06 ] nr of the vegetation type (for warnings) using default value: 6.00000 [nsfVB ] nr successive emersion(flood) VB01 using default value: 0.00000 [CrnsfVB06 ] critical number successive flood days VB06 Using constant nr748 with value: 10.00000 [Initnsfd ] initial number flood days at simulation start Using constant nr559 with value: 10.00000 [CrdepVB06 ] critical depth for inundation mortality VB06 Using constant nr749 with value: 1.000000 [nscdVB06 ] nr successive critical depth exceedence VB06 Using output from proces [VBStatus06 ] [InnscdVB06 ] initial critical depth exceedence days at start using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [TotalDepth ] total depth water column Using output from proces [TotDepth ] Input for [VB05_Upt3D ] Vegetation module VB05 uptake 3D flux distribution [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB05 ] bottom segment pointer Using output from proces [VBStatus05 ] [RootDeVB05 ] Max Height VB05 Using constant nr692 with value:-0.500000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [iniCovVB05 ] initial veg. coverage cohort 5 Using constant nr708 with value: 5.00000 [VB05Navail ] VB05 nitrogen availability in rooting zone Using output from proces [VB05availN ] [VB05Pavail ] VB05 phosphorus availability in rooting z. Using output from proces [VB05availN ] [VB05Savail ] VB05 sulfur availability in rooting zone Using output from proces [VB05availN ] [fNVB05up ] uptake (fine)roots VB05 Using output from proces [VB05Upt ] [fPVB05up ] uptake roots VB05 Using output from proces [VB05Upt ] [fSVB05up ] uptake roots VB05 Using output from proces [VB05Upt ] Input for [VB05Upt ] Vegetation Biomass Nutrient Uptake [fVB05 ] area scaled flux dVB05 Using output from proces [VBGrowth05 ] [SwVB05Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus05 ] [F1VB05 ] allocation factor comp. 1 (stem) VB05 Using output from proces [VB05availN ] [F2VB05 ] allocation factor comp. 2 (foliage) VB05 Using output from proces [VB05availN ] [F3VB05 ] allocation factor comp. 3 (branch) VB05 Using output from proces [VB05availN ] [F4VB05 ] allocation factor comp. 4 (root) VB05 Using output from proces [VB05availN ] [F5VB05 ] allocation factor comp. 5 (fineroot) VB05 Using output from proces [VB05availN ] [CNf1VB05 ] carbon-nitrogen ratio in stem VB05 using default value: 10.00000 [CNf2VB05 ] carbon-nitrogen ratio in foliage VB05 Using constant nr697 with value: 25.0000 [CNf3VB05 ] carbon-nitrogen ratio in branch VB05 using default value: 10.00000 [CNf4VB05 ] carbon-nitrogen ratio in root VB05 using default value: 10.00000 [CNf5VB05 ] carbon-nitrogen ratio in fineroot VB05 Using constant nr698 with value: 30.0000 [CPf1VB05 ] carbon-phosporus ratio in stem VB05 using default value: 100.0000 [CPf2VB05 ] carbon-phosporus ratio in foliage VB05 Using constant nr699 with value: 300.000 [CPf3VB05 ] carbon-phosporus ratio in branch VB05 using default value: 100.0000 [CPf4VB05 ] carbon-phosporus ratio in root VB05 using default value: 100.0000 [CPf5VB05 ] carbon-phosporus ratio in fineroot VB05 Using constant nr700 with value: 600.000 [CSf1VB05 ] carbon-sulphur ratio in stem VB05 using default value: 1000.000 [CSf2VB05 ] carbon-sulphur ratio in foliage VB05 Using constant nr701 with value: 1000.000 [CSf3VB05 ] carbon-sulphur ratio in branch VB05 using default value: 1000.000 [CSf4VB05 ] carbon-sulphur ratio in root VB05 using default value: 1000.000 [CSf5VB05 ] carbon-sulphur ratio in fineroot Using constant nr702 with value: 1000.000 Input for [VB05_Mrt3S ] Vegetation module mortality 3D flux sediment [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB05 ] bottom segment pointer Using output from proces [VBStatus05 ] [SwDisVB05 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr695 with value: 1.000000 [RootDeVB05 ] Max Height VB05 Using constant nr692 with value:-0.500000 [FfacVB05 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr694 with value: 1.000000 [nfVB_sed ] number of fluxes VBXX to be distributed using default value: 16.0000 [fC5VB05P1 ] mortality fineroot VB05 to POC1 Using output from proces [VBMort05 ] [fC5VB05P2 ] mortality fineroot VB05 to POC2 Using output from proces [VBMort05 ] [fC5VB05P3 ] mortality fineroot VB05 to POC3 Using output from proces [VBMort05 ] [fN5VB05P1 ] mortality fineroot VB05 to PON1 Using output from proces [VBMort05 ] [fN5VB05P2 ] mortality fineroot VB05 to PON2 Using output from proces [VBMort05 ] [fN5VB05P3 ] mortality fineroot VB05 to PON3 Using output from proces [VBMort05 ] [fP5VB05P1 ] mortality fineroot VB05 to POP1 Using output from proces [VBMort05 ] [fP5VB05P2 ] mortality fineroot VB05 to POP2 Using output from proces [VBMort05 ] [fP5VB05P3 ] mortality fineroot VB05 to POP3 Using output from proces [VBMort05 ] [fS5VB05P1 ] mortality fineroot VB05 to POS1 Using output from proces [VBMort05 ] [fS5VB05P2 ] mortality fineroot VB05 to POS2 Using output from proces [VBMort05 ] [fS5VB05P3 ] mortality fineroot VB05 to POS3 Using output from proces [VBMort05 ] [fC4VB05P5 ] mortality root VB05 to POC5 Using output from proces [VBMort05 ] [fN4VB05P5 ] mortality root VB05 to PON5 Using output from proces [VBMort05 ] [fP4VB05P5 ] mortality root VB05 to POP5 Using output from proces [VBMort05 ] [fS4VB05P5 ] mortality root VB05 to POS5 Using output from proces [VBMort05 ] Input for [VB05_Mrt3W ] Vegetation module mortality 3D flux water [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB05 ] bottom segment pointer Using output from proces [VBStatus05 ] [SwDisVB05 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr695 with value: 1.000000 [VegHeVB05 ] Max Height VB05 Using constant nr693 with value: 10.00000 [FfacVB05 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr694 with value: 1.000000 [nfVB_wat ] number of fluxes VBXX to be distributed using default value: 20.0000 [fC2VB05P1 ] mortality foliage VB05 to POC1 Using output from proces [VBMort05 ] [fC2VB05P2 ] mortality foliage VB05 to POC2 Using output from proces [VBMort05 ] [fC2VB05P3 ] mortality foliage VB05 to POC3 Using output from proces [VBMort05 ] [fN2VB05P1 ] mortality foliage VB05 to PON1 Using output from proces [VBMort05 ] [fN2VB05P2 ] mortality foliage VB05 to PON2 Using output from proces [VBMort05 ] [fN2VB05P3 ] mortality foliage VB05 to PON3 Using output from proces [VBMort05 ] [fP2VB05P1 ] mortality foliage VB05 to POP1 Using output from proces [VBMort05 ] [fP2VB05P2 ] mortality foliage VB05 to POP2 Using output from proces [VBMort05 ] [fP2VB05P3 ] mortality foliage VB05 to POP3 Using output from proces [VBMort05 ] [fS2VB05P1 ] mortality foliage VB05 to POS1 Using output from proces [VBMort05 ] [fS2VB05P2 ] mortality foliage VB05 to POS2 Using output from proces [VBMort05 ] [fS2VB05P3 ] mortality foliage VB05 to POS3 Using output from proces [VBMort05 ] [fC1VB05P5 ] mortality stem VB05 to POC5 Using output from proces [VBMort05 ] [fC3VB05P5 ] mortality branch VB05 to POC5 Using output from proces [VBMort05 ] [fN1VB05P5 ] mortality stem VB05 to PON5 Using output from proces [VBMort05 ] [fN3VB05P5 ] mortality branch VB05 to PON5 Using output from proces [VBMort05 ] [fP1VB05P5 ] mortality stem VB05 to POP5 Using output from proces [VBMort05 ] [fP3VB05P5 ] mortality branch VB05 to POP5 Using output from proces [VBMort05 ] [fS1VB05P5 ] mortality stem VB05 to POS5 Using output from proces [VBMort05 ] [fS3VB05P5 ] mortality branch VB05 to POS5 Using output from proces [VBMort05 ] Input for [VBMort05 ] Vegation Biomass Mortality [VB05 ] vegetation biomass cohort 5 Using substance nr 62 [F1VB05 ] allocation factor comp. 1 (stem) VB05 Using output from proces [VB05availN ] [F2VB05 ] allocation factor comp. 2 (foliage) VB05 Using output from proces [VB05availN ] [F3VB05 ] allocation factor comp. 3 (branch) VB05 Using output from proces [VB05availN ] [F4VB05 ] allocation factor comp. 4 (root) VB05 Using output from proces [VB05availN ] [F5VB05 ] allocation factor comp. 5 (fineroot) VB05 Using output from proces [VB05availN ] [SwVB05Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus05 ] [ageVB05 ] age of vegetation cohort 5 Using output from proces [VBGrowth05 ] [CNf1VB05 ] carbon-nitrogen ratio in stem VB05 using default value: 10.00000 [CNf2VB05 ] carbon-nitrogen ratio in foliage VB05 Using constant nr697 with value: 25.0000 [CNf3VB05 ] carbon-nitrogen ratio in branch VB05 using default value: 10.00000 [CNf4VB05 ] carbon-nitrogen ratio in root VB05 using default value: 10.00000 [CNf5VB05 ] carbon-nitrogen ratio in fineroot VB05 Using constant nr698 with value: 30.0000 [CPf1VB05 ] carbon-phosporus ratio in stem VB05 using default value: 100.0000 [CPf2VB05 ] carbon-phosporus ratio in foliage VB05 Using constant nr699 with value: 300.000 [CPf3VB05 ] carbon-phosporus ratio in branch VB05 using default value: 100.0000 [CPf4VB05 ] carbon-phosporus ratio in root VB05 using default value: 100.0000 [CPf5VB05 ] carbon-phosporus ratio in fineroot VB05 Using constant nr700 with value: 600.000 [CSf1VB05 ] carbon-sulphur ratio in stem VB05 using default value: 1000.000 [CSf2VB05 ] carbon-sulphur ratio in foliage VB05 Using constant nr701 with value: 1000.000 [CSf3VB05 ] carbon-sulphur ratio in branch VB05 using default value: 1000.000 [CSf4VB05 ] carbon-sulphur ratio in root VB05 using default value: 1000.000 [CSf5VB05 ] carbon-sulphur ratio in fineroot Using constant nr702 with value: 1000.000 [FfolPOC1 ] fraction of biomass foliage to POC1 Using constant nr555 with value: 0.400000 [FfolPOC2 ] fraction of biomass foliage to POC2 Using constant nr556 with value: 0.400000 [FfrootPOC1 ] fraction of biomass root to POC1 Using constant nr557 with value: 0.400000 [FfrootPOC2 ] fraction of biomass root to POC2 Using constant nr558 with value: 0.400000 [DELT ] timestep for processes Using DELWAQ timestep in days [Depth ] depth of segment Using output from proces [DynDepth ] [RcMrtVB05 ] rate constant inundation mortality cohort 5 Using constant nr714 with value: 0.500000E-01 [SWVB05Dec ] biomass is decaying after prev mort type 5 Using output from proces [VBGrowth05 ] [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0MSWV05 ] senescence mortality rate for VB05 at 20 oC Using constant nr709 with value: 0.100000E+00 [TcMSWV05 ] temperature coefficient of WV mort. for VB05 Using constant nr710 with value: 1.03000 [RcMGRWV05 ] grazing mortality pressure for VB05 Using constant nr711 with value: 0.00000 [AcMWV05 ] acceleration factor for senescence mort VB05 Using constant nr712 with value: 10.00000 [MinRWV05 ] minimum biomass ratio for VB05 Using constant nr706 with value: 0.100000E+00 [MaxRWV05 ] maximum biomass ratio for VB05 Using constant nr713 with value: 1.20000 [TBmWV05 ] target total biomass for VB05 Using function nr 7 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VBGrowth05 ] Vegation Biomass Growth [VB05 ] vegetation biomass cohort 5 Using substance nr 62 [maxVB05 ] maximum vegetation biomass cohort 5 using default value: 0.00000 [minVB05 ] minimum vegetation biomass cohort 5 using default value: 0.00000 [hlfAgeVB05 ] age where biomass is half of maximum cohort 5 using default value: 0.00000 [sfVB05 ] shape factor growth curve cohort 5 using default value: 1.000000 [dmCfVB05 ] dry matter carbon ratio veg. cohort 5 Using constant nr696 with value: 1.000000 [iniVB05 ] initial veg. biomass cohort 5 using default value: 0.00000 [iniCovVB05 ] initial veg. coverage cohort 5 Using constant nr708 with value: 5.00000 [SWiniVB05 ] switch 0=biomass 1=%coverage for cohort 5 Using constant nr707 with value: 1.000000 [ageVB05 ] age of vegetation cohort 5 Using output from proces [VBGrowth05 ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [SwVB05Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus05 ] [SwVB05Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus05 ] [VBType05 ] nr of the vegetation type (for warnings) using default value: 5.00000 [VB05Navail ] VB05 nitrogen availability in rooting zone Using output from proces [VB05availN ] [VB05Pavail ] VB05 phosphorus availability in rooting z. Using output from proces [VB05availN ] [VB05Savail ] VB05 sulfur availability in rooting zone Using output from proces [VB05availN ] [VBFrMaxU ] maximum fraction available for uptake <0-1> Using constant nr560 with value: 0.500000 [F1VB05 ] allocation factor comp. 1 (stem) VB05 Using output from proces [VB05availN ] [F2VB05 ] allocation factor comp. 2 (foliage) VB05 Using output from proces [VB05availN ] [F3VB05 ] allocation factor comp. 3 (branch) VB05 Using output from proces [VB05availN ] [F4VB05 ] allocation factor comp. 4 (root) VB05 Using output from proces [VB05availN ] [F5VB05 ] allocation factor comp. 5 (fineroot) VB05 Using output from proces [VB05availN ] [CNf1VB05 ] carbon-nitrogen ratio in stem VB05 using default value: 10.00000 [CNf2VB05 ] carbon-nitrogen ratio in foliage VB05 Using constant nr697 with value: 25.0000 [CNf3VB05 ] carbon-nitrogen ratio in branch VB05 using default value: 10.00000 [CNf4VB05 ] carbon-nitrogen ratio in root VB05 using default value: 10.00000 [CNf5VB05 ] carbon-nitrogen ratio in fineroot VB05 Using constant nr698 with value: 30.0000 [CPf1VB05 ] carbon-phosporus ratio in stem VB05 using default value: 100.0000 [CPf2VB05 ] carbon-phosporus ratio in foliage VB05 Using constant nr699 with value: 300.000 [CPf3VB05 ] carbon-phosporus ratio in branch VB05 using default value: 100.0000 [CPf4VB05 ] carbon-phosporus ratio in root VB05 using default value: 100.0000 [CPf5VB05 ] carbon-phosporus ratio in fineroot VB05 Using constant nr700 with value: 600.000 [CSf1VB05 ] carbon-sulphur ratio in stem VB05 using default value: 1000.000 [CSf2VB05 ] carbon-sulphur ratio in foliage VB05 Using constant nr701 with value: 1000.000 [CSf3VB05 ] carbon-sulphur ratio in branch VB05 using default value: 1000.000 [CSf4VB05 ] carbon-sulphur ratio in root VB05 using default value: 1000.000 [CSf5VB05 ] carbon-sulphur ratio in fineroot Using constant nr702 with value: 1000.000 [SWRegrVB05 ] allow regrowth (y=1,n=0) after decay using default value: 1.000000 [SWVB05Dec ] biomass is decaying after prev mort type 5 Using output from proces [VBGrowth05 ] [IniAgeVB05 ] inital age of VB at start of simulation using default value: 0.00000 [IniVB05dec ] inital decay Switch VB05 start simulation using default value: 0.00000 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0GWV05 ] wetland vegetation growth rate VB05 at 20 oC Using constant nr703 with value: 0.400000 [TcGWV05 ] temperature coefficient of WV growth for VB05 Using constant nr704 with value: 1.04000 [AcGWV05 ] acceleration factor for WV growth of VB05 Using constant nr705 with value: 10.00000 [MinRWV05 ] minimum biomass ratio for VB05 Using constant nr706 with value: 0.100000E+00 [TBmWV05 ] target total biomass for VB05 Using function nr 7 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VB05availN ] Vegetation module VB05 availability of nutrients [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [botsegVB05 ] bottom segment pointer Using output from proces [VBStatus05 ] [RootDeVB05 ] Max Height VB05 Using constant nr692 with value:-0.500000 [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [SWRootVB05 ] use RootShootModel(y=1,n=0) for F2VB F4VB Using constant nr550 with value: 1.000000 [VmaxVB05 ] maximun rate in Michelis/Menten using default value: 0.100000E+00 [KmVB05 ] TIN conc. at half of Vmax using default value: 0.100000E+00 [ViniVB05 ] initial rate in Michelis/Menten using default value: 0.100000E+00 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VBStatus05 ] Status of Vegation Biomass cohort 05 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [VBType05 ] nr of the vegetation type (for warnings) using default value: 5.00000 [nsfVB ] nr successive emersion(flood) VB01 using default value: 0.00000 [CrnsfVB05 ] critical number successive flood days VB05 Using constant nr715 with value: 10.00000 [Initnsfd ] initial number flood days at simulation start Using constant nr559 with value: 10.00000 [CrdepVB05 ] critical depth for inundation mortality VB05 Using constant nr716 with value: 1.000000 [nscdVB05 ] nr successive critical depth exceedence VB05 Using output from proces [VBStatus05 ] [InnscdVB05 ] initial critical depth exceedence days at start using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [TotalDepth ] total depth water column Using output from proces [TotDepth ] Input for [VB04_Upt3D ] Vegetation module VB04 uptake 3D flux distribution [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB04 ] bottom segment pointer Using output from proces [VBStatus04 ] [RootDeVB04 ] Max Height VB04 Using constant nr659 with value:-0.500000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [iniCovVB04 ] initial veg. coverage cohort 4 Using constant nr675 with value: 5.00000 [VB04Navail ] VB04 nitrogen availability in rooting zone Using output from proces [VB04availN ] [VB04Pavail ] VB04 phosphorus availability in rooting z. Using output from proces [VB04availN ] [VB04Savail ] VB04 sulfur availability in rooting zone Using output from proces [VB04availN ] [fNVB04up ] uptake (fine)roots VB04 Using output from proces [VB04Upt ] [fPVB04up ] uptake roots VB04 Using output from proces [VB04Upt ] [fSVB04up ] uptake roots VB04 Using output from proces [VB04Upt ] Input for [VB04Upt ] Vegetation Biomass Nutrient Uptake [fVB04 ] area scaled flux dVB04 Using output from proces [VBGrowth04 ] [SwVB04Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus04 ] [F1VB04 ] allocation factor comp. 1 (stem) VB04 Using output from proces [VB04availN ] [F2VB04 ] allocation factor comp. 2 (foliage) VB04 Using output from proces [VB04availN ] [F3VB04 ] allocation factor comp. 3 (branch) VB04 Using output from proces [VB04availN ] [F4VB04 ] allocation factor comp. 4 (root) VB04 Using output from proces [VB04availN ] [F5VB04 ] allocation factor comp. 5 (fineroot) VB04 Using output from proces [VB04availN ] [CNf1VB04 ] carbon-nitrogen ratio in stem VB04 using default value: 10.00000 [CNf2VB04 ] carbon-nitrogen ratio in foliage VB04 Using constant nr664 with value: 25.0000 [CNf3VB04 ] carbon-nitrogen ratio in branch VB04 using default value: 10.00000 [CNf4VB04 ] carbon-nitrogen ratio in root VB04 using default value: 10.00000 [CNf5VB04 ] carbon-nitrogen ratio in fineroot VB04 Using constant nr665 with value: 30.0000 [CPf1VB04 ] carbon-phosporus ratio in stem VB04 using default value: 100.0000 [CPf2VB04 ] carbon-phosporus ratio in foliage VB04 Using constant nr666 with value: 300.000 [CPf3VB04 ] carbon-phosporus ratio in branch VB04 using default value: 100.0000 [CPf4VB04 ] carbon-phosporus ratio in root VB04 using default value: 100.0000 [CPf5VB04 ] carbon-phosporus ratio in fineroot VB04 Using constant nr667 with value: 600.000 [CSf1VB04 ] carbon-sulphur ratio in stem VB04 using default value: 1000.000 [CSf2VB04 ] carbon-sulphur ratio in foliage VB04 Using constant nr668 with value: 1000.000 [CSf3VB04 ] carbon-sulphur ratio in branch VB04 using default value: 1000.000 [CSf4VB04 ] carbon-sulphur ratio in root VB04 using default value: 1000.000 [CSf5VB04 ] carbon-sulphur ratio in fineroot Using constant nr669 with value: 1000.000 Input for [VB04_Mrt3S ] Vegetation module mortality 3D flux sediment [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB04 ] bottom segment pointer Using output from proces [VBStatus04 ] [SwDisVB04 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr662 with value: 1.000000 [RootDeVB04 ] Max Height VB04 Using constant nr659 with value:-0.500000 [FfacVB04 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr661 with value: 1.000000 [nfVB_sed ] number of fluxes VBXX to be distributed using default value: 16.0000 [fC5VB04P1 ] mortality fineroot VB04 to POC1 Using output from proces [VBMort04 ] [fC5VB04P2 ] mortality fineroot VB04 to POC2 Using output from proces [VBMort04 ] [fC5VB04P3 ] mortality fineroot VB04 to POC3 Using output from proces [VBMort04 ] [fN5VB04P1 ] mortality fineroot VB04 to PON1 Using output from proces [VBMort04 ] [fN5VB04P2 ] mortality fineroot VB04 to PON2 Using output from proces [VBMort04 ] [fN5VB04P3 ] mortality fineroot VB04 to PON3 Using output from proces [VBMort04 ] [fP5VB04P1 ] mortality fineroot VB04 to POP1 Using output from proces [VBMort04 ] [fP5VB04P2 ] mortality fineroot VB04 to POP2 Using output from proces [VBMort04 ] [fP5VB04P3 ] mortality fineroot VB04 to POP3 Using output from proces [VBMort04 ] [fS5VB04P1 ] mortality fineroot VB04 to POS1 Using output from proces [VBMort04 ] [fS5VB04P2 ] mortality fineroot VB04 to POS2 Using output from proces [VBMort04 ] [fS5VB04P3 ] mortality fineroot VB04 to POS3 Using output from proces [VBMort04 ] [fC4VB04P5 ] mortality root VB04 to POC5 Using output from proces [VBMort04 ] [fN4VB04P5 ] mortality root VB04 to PON5 Using output from proces [VBMort04 ] [fP4VB04P5 ] mortality root VB04 to POP5 Using output from proces [VBMort04 ] [fS4VB04P5 ] mortality root VB04 to POS5 Using output from proces [VBMort04 ] Input for [VB04_Mrt3W ] Vegetation module mortality 3D flux water [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB04 ] bottom segment pointer Using output from proces [VBStatus04 ] [SwDisVB04 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr662 with value: 1.000000 [VegHeVB04 ] Max Height VB04 Using constant nr660 with value: 10.00000 [FfacVB04 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr661 with value: 1.000000 [nfVB_wat ] number of fluxes VBXX to be distributed using default value: 20.0000 [fC2VB04P1 ] mortality foliage VB04 to POC1 Using output from proces [VBMort04 ] [fC2VB04P2 ] mortality foliage VB04 to POC2 Using output from proces [VBMort04 ] [fC2VB04P3 ] mortality foliage VB04 to POC3 Using output from proces [VBMort04 ] [fN2VB04P1 ] mortality foliage VB04 to PON1 Using output from proces [VBMort04 ] [fN2VB04P2 ] mortality foliage VB04 to PON2 Using output from proces [VBMort04 ] [fN2VB04P3 ] mortality foliage VB04 to PON3 Using output from proces [VBMort04 ] [fP2VB04P1 ] mortality foliage VB04 to POP1 Using output from proces [VBMort04 ] [fP2VB04P2 ] mortality foliage VB04 to POP2 Using output from proces [VBMort04 ] [fP2VB04P3 ] mortality foliage VB04 to POP3 Using output from proces [VBMort04 ] [fS2VB04P1 ] mortality foliage VB04 to POS1 Using output from proces [VBMort04 ] [fS2VB04P2 ] mortality foliage VB04 to POS2 Using output from proces [VBMort04 ] [fS2VB04P3 ] mortality foliage VB04 to POS3 Using output from proces [VBMort04 ] [fC1VB04P5 ] mortality stem VB04 to POC5 Using output from proces [VBMort04 ] [fC3VB04P5 ] mortality branch VB04 to POC5 Using output from proces [VBMort04 ] [fN1VB04P5 ] mortality stem VB04 to PON5 Using output from proces [VBMort04 ] [fN3VB04P5 ] mortality branch VB04 to PON5 Using output from proces [VBMort04 ] [fP1VB04P5 ] mortality stem VB04 to POP5 Using output from proces [VBMort04 ] [fP3VB04P5 ] mortality branch VB04 to POP5 Using output from proces [VBMort04 ] [fS1VB04P5 ] mortality stem VB04 to POS5 Using output from proces [VBMort04 ] [fS3VB04P5 ] mortality branch VB04 to POS5 Using output from proces [VBMort04 ] Input for [VBMort04 ] Vegation Biomass Mortality [VB04 ] vegetation biomass cohort 4 Using substance nr 61 [F1VB04 ] allocation factor comp. 1 (stem) VB04 Using output from proces [VB04availN ] [F2VB04 ] allocation factor comp. 2 (foliage) VB04 Using output from proces [VB04availN ] [F3VB04 ] allocation factor comp. 3 (branch) VB04 Using output from proces [VB04availN ] [F4VB04 ] allocation factor comp. 4 (root) VB04 Using output from proces [VB04availN ] [F5VB04 ] allocation factor comp. 5 (fineroot) VB04 Using output from proces [VB04availN ] [SwVB04Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus04 ] [ageVB04 ] age of vegetation cohort 4 Using output from proces [VBGrowth04 ] [CNf1VB04 ] carbon-nitrogen ratio in stem VB04 using default value: 10.00000 [CNf2VB04 ] carbon-nitrogen ratio in foliage VB04 Using constant nr664 with value: 25.0000 [CNf3VB04 ] carbon-nitrogen ratio in branch VB04 using default value: 10.00000 [CNf4VB04 ] carbon-nitrogen ratio in root VB04 using default value: 10.00000 [CNf5VB04 ] carbon-nitrogen ratio in fineroot VB04 Using constant nr665 with value: 30.0000 [CPf1VB04 ] carbon-phosporus ratio in stem VB04 using default value: 100.0000 [CPf2VB04 ] carbon-phosporus ratio in foliage VB04 Using constant nr666 with value: 300.000 [CPf3VB04 ] carbon-phosporus ratio in branch VB04 using default value: 100.0000 [CPf4VB04 ] carbon-phosporus ratio in root VB04 using default value: 100.0000 [CPf5VB04 ] carbon-phosporus ratio in fineroot VB04 Using constant nr667 with value: 600.000 [CSf1VB04 ] carbon-sulphur ratio in stem VB04 using default value: 1000.000 [CSf2VB04 ] carbon-sulphur ratio in foliage VB04 Using constant nr668 with value: 1000.000 [CSf3VB04 ] carbon-sulphur ratio in branch VB04 using default value: 1000.000 [CSf4VB04 ] carbon-sulphur ratio in root VB04 using default value: 1000.000 [CSf5VB04 ] carbon-sulphur ratio in fineroot Using constant nr669 with value: 1000.000 [FfolPOC1 ] fraction of biomass foliage to POC1 Using constant nr555 with value: 0.400000 [FfolPOC2 ] fraction of biomass foliage to POC2 Using constant nr556 with value: 0.400000 [FfrootPOC1 ] fraction of biomass root to POC1 Using constant nr557 with value: 0.400000 [FfrootPOC2 ] fraction of biomass root to POC2 Using constant nr558 with value: 0.400000 [DELT ] timestep for processes Using DELWAQ timestep in days [Depth ] depth of segment Using output from proces [DynDepth ] [RcMrtVB04 ] rate constant inundation mortality cohort 4 Using constant nr681 with value: 0.100000E+00 [SWVB04Dec ] biomass is decaying after prev mort type 4 Using output from proces [VBGrowth04 ] [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0MSWV04 ] senescence mortality rate for VB04 at 20 oC Using constant nr676 with value: 0.500000E-01 [TcMSWV04 ] temperature coefficient of WV mort. for VB04 Using constant nr677 with value: 1.03000 [RcMGRWV04 ] grazing mortality pressure for VB04 Using constant nr678 with value: 0.00000 [AcMWV04 ] acceleration factor for senescence mort VB04 Using constant nr679 with value: 10.00000 [MinRWV04 ] minimum biomass ratio for VB04 Using constant nr673 with value: 0.750000 [MaxRWV04 ] maximum biomass ratio for VB04 Using constant nr680 with value: 1.20000 [TBmWV04 ] target total biomass for VB04 Using function nr 6 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VBGrowth04 ] Vegation Biomass Growth [VB04 ] vegetation biomass cohort 4 Using substance nr 61 [maxVB04 ] maximum vegetation biomass cohort 4 using default value: 0.00000 [minVB04 ] minimum vegetation biomass cohort 4 using default value: 0.00000 [hlfAgeVB04 ] age where biomass is half of maximum cohort 4 using default value: 0.00000 [sfVB04 ] shape factor growth curve cohort 4 using default value: 1.000000 [dmCfVB04 ] dry matter carbon ratio veg. cohort 4 Using constant nr663 with value: 1.000000 [iniVB04 ] initial veg. biomass cohort 4 using default value: 0.00000 [iniCovVB04 ] initial veg. coverage cohort 4 Using constant nr675 with value: 5.00000 [SWiniVB04 ] switch 0=biomass 1=%coverage for cohort 4 Using constant nr674 with value: 1.000000 [ageVB04 ] age of vegetation cohort 4 Using output from proces [VBGrowth04 ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [SwVB04Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus04 ] [SwVB04Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus04 ] [VBType04 ] nr of the vegetation type (for warnings) using default value: 4.00000 [VB04Navail ] VB04 nitrogen availability in rooting zone Using output from proces [VB04availN ] [VB04Pavail ] VB04 phosphorus availability in rooting z. Using output from proces [VB04availN ] [VB04Savail ] VB04 sulfur availability in rooting zone Using output from proces [VB04availN ] [VBFrMaxU ] maximum fraction available for uptake <0-1> Using constant nr560 with value: 0.500000 [F1VB04 ] allocation factor comp. 1 (stem) VB04 Using output from proces [VB04availN ] [F2VB04 ] allocation factor comp. 2 (foliage) VB04 Using output from proces [VB04availN ] [F3VB04 ] allocation factor comp. 3 (branch) VB04 Using output from proces [VB04availN ] [F4VB04 ] allocation factor comp. 4 (root) VB04 Using output from proces [VB04availN ] [F5VB04 ] allocation factor comp. 5 (fineroot) VB04 Using output from proces [VB04availN ] [CNf1VB04 ] carbon-nitrogen ratio in stem VB04 using default value: 10.00000 [CNf2VB04 ] carbon-nitrogen ratio in foliage VB04 Using constant nr664 with value: 25.0000 [CNf3VB04 ] carbon-nitrogen ratio in branch VB04 using default value: 10.00000 [CNf4VB04 ] carbon-nitrogen ratio in root VB04 using default value: 10.00000 [CNf5VB04 ] carbon-nitrogen ratio in fineroot VB04 Using constant nr665 with value: 30.0000 [CPf1VB04 ] carbon-phosporus ratio in stem VB04 using default value: 100.0000 [CPf2VB04 ] carbon-phosporus ratio in foliage VB04 Using constant nr666 with value: 300.000 [CPf3VB04 ] carbon-phosporus ratio in branch VB04 using default value: 100.0000 [CPf4VB04 ] carbon-phosporus ratio in root VB04 using default value: 100.0000 [CPf5VB04 ] carbon-phosporus ratio in fineroot VB04 Using constant nr667 with value: 600.000 [CSf1VB04 ] carbon-sulphur ratio in stem VB04 using default value: 1000.000 [CSf2VB04 ] carbon-sulphur ratio in foliage VB04 Using constant nr668 with value: 1000.000 [CSf3VB04 ] carbon-sulphur ratio in branch VB04 using default value: 1000.000 [CSf4VB04 ] carbon-sulphur ratio in root VB04 using default value: 1000.000 [CSf5VB04 ] carbon-sulphur ratio in fineroot Using constant nr669 with value: 1000.000 [SWRegrVB04 ] allow regrowth (y=1,n=0) after decay using default value: 1.000000 [SWVB04Dec ] biomass is decaying after prev mort type 4 Using output from proces [VBGrowth04 ] [IniAgeVB04 ] inital age of VB at start of simulation using default value: 0.00000 [IniVB04dec ] inital decay Switch VB04 start simulation using default value: 0.00000 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0GWV04 ] wetland vegetation growth rate VB04 at 20 oC Using constant nr670 with value: 0.100000E+00 [TcGWV04 ] temperature coefficient of WV growth for VB04 Using constant nr671 with value: 1.07200 [AcGWV04 ] acceleration factor for WV growth of VB04 Using constant nr672 with value: 10.00000 [MinRWV04 ] minimum biomass ratio for VB04 Using constant nr673 with value: 0.750000 [TBmWV04 ] target total biomass for VB04 Using function nr 6 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VB04availN ] Vegetation module VB04 availability of nutrients [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [botsegVB04 ] bottom segment pointer Using output from proces [VBStatus04 ] [RootDeVB04 ] Max Height VB04 Using constant nr659 with value:-0.500000 [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [SWRootVB04 ] use RootShootModel(y=1,n=0) for F2VB F4VB Using constant nr549 with value: 1.000000 [VmaxVB04 ] maximun rate in Michelis/Menten using default value: 0.100000E+00 [KmVB04 ] TIN conc. at half of Vmax using default value: 0.100000E+00 [ViniVB04 ] initial rate in Michelis/Menten using default value: 0.100000E+00 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VBStatus04 ] Status of Vegation Biomass cohort 04 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [VBType04 ] nr of the vegetation type (for warnings) using default value: 4.00000 [nsfVB ] nr successive emersion(flood) VB01 using default value: 0.00000 [CrnsfVB04 ] critical number successive flood days VB04 Using constant nr682 with value: 10.00000 [Initnsfd ] initial number flood days at simulation start Using constant nr559 with value: 10.00000 [CrdepVB04 ] critical depth for inundation mortality VB04 Using constant nr683 with value: 2.55000 [nscdVB04 ] nr successive critical depth exceedence VB04 Using output from proces [VBStatus04 ] [InnscdVB04 ] initial critical depth exceedence days at start using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [TotalDepth ] total depth water column Using output from proces [TotDepth ] Input for [VB03_Upt3D ] Vegetation module VB03 uptake 3D flux distribution [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB03 ] bottom segment pointer Using output from proces [VBStatus03 ] [RootDeVB03 ] Max Height VB03 Using constant nr626 with value:-0.500000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [iniCovVB03 ] initial veg. coverage cohort 3 Using constant nr642 with value: 5.00000 [VB03Navail ] VB03 nitrogen availability in rooting zone Using output from proces [VB03availN ] [VB03Pavail ] VB03 phosphorus availability in rooting z. Using output from proces [VB03availN ] [VB03Savail ] VB03 sulfur availability in rooting zone Using output from proces [VB03availN ] [fNVB03up ] uptake (fine)roots VB03 Using output from proces [VB03Upt ] [fPVB03up ] uptake roots VB03 Using output from proces [VB03Upt ] [fSVB03up ] uptake roots VB03 Using output from proces [VB03Upt ] Input for [VB03Upt ] Vegetation Biomass Nutrient Uptake [fVB03 ] area scaled flux dVB03 Using output from proces [VBGrowth03 ] [SwVB03Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus03 ] [F1VB03 ] allocation factor comp. 1 (stem) VB03 Using output from proces [VB03availN ] [F2VB03 ] allocation factor comp. 2 (foliage) VB03 Using output from proces [VB03availN ] [F3VB03 ] allocation factor comp. 3 (branch) VB03 Using output from proces [VB03availN ] [F4VB03 ] allocation factor comp. 4 (root) VB03 Using output from proces [VB03availN ] [F5VB03 ] allocation factor comp. 5 (fineroot) VB03 Using output from proces [VB03availN ] [CNf1VB03 ] carbon-nitrogen ratio in stem VB03 using default value: 10.00000 [CNf2VB03 ] carbon-nitrogen ratio in foliage VB03 Using constant nr631 with value: 25.0000 [CNf3VB03 ] carbon-nitrogen ratio in branch VB03 using default value: 10.00000 [CNf4VB03 ] carbon-nitrogen ratio in root VB03 using default value: 10.00000 [CNf5VB03 ] carbon-nitrogen ratio in fineroot VB03 Using constant nr632 with value: 30.0000 [CPf1VB03 ] carbon-phosporus ratio in stem VB03 using default value: 100.0000 [CPf2VB03 ] carbon-phosporus ratio in foliage VB03 Using constant nr633 with value: 300.000 [CPf3VB03 ] carbon-phosporus ratio in branch VB03 using default value: 100.0000 [CPf4VB03 ] carbon-phosporus ratio in root VB03 using default value: 100.0000 [CPf5VB03 ] carbon-phosporus ratio in fineroot VB03 Using constant nr634 with value: 600.000 [CSf1VB03 ] carbon-sulphur ratio in stem VB03 using default value: 1000.000 [CSf2VB03 ] carbon-sulphur ratio in foliage VB03 Using constant nr635 with value: 1000.000 [CSf3VB03 ] carbon-sulphur ratio in branch VB03 using default value: 1000.000 [CSf4VB03 ] carbon-sulphur ratio in root VB03 using default value: 1000.000 [CSf5VB03 ] carbon-sulphur ratio in fineroot Using constant nr636 with value: 1000.000 Input for [VB03_Mrt3S ] Vegetation module mortality 3D flux sediment [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB03 ] bottom segment pointer Using output from proces [VBStatus03 ] [SwDisVB03 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr629 with value: 1.000000 [RootDeVB03 ] Max Height VB03 Using constant nr626 with value:-0.500000 [FfacVB03 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr628 with value: 1.000000 [nfVB_sed ] number of fluxes VBXX to be distributed using default value: 16.0000 [fC5VB03P1 ] mortality fineroot VB03 to POC1 Using output from proces [VBMort03 ] [fC5VB03P2 ] mortality fineroot VB03 to POC2 Using output from proces [VBMort03 ] [fC5VB03P3 ] mortality fineroot VB03 to POC3 Using output from proces [VBMort03 ] [fN5VB03P1 ] mortality fineroot VB03 to PON1 Using output from proces [VBMort03 ] [fN5VB03P2 ] mortality fineroot VB03 to PON2 Using output from proces [VBMort03 ] [fN5VB03P3 ] mortality fineroot VB03 to PON3 Using output from proces [VBMort03 ] [fP5VB03P1 ] mortality fineroot VB03 to POP1 Using output from proces [VBMort03 ] [fP5VB03P2 ] mortality fineroot VB03 to POP2 Using output from proces [VBMort03 ] [fP5VB03P3 ] mortality fineroot VB03 to POP3 Using output from proces [VBMort03 ] [fS5VB03P1 ] mortality fineroot VB03 to POS1 Using output from proces [VBMort03 ] [fS5VB03P2 ] mortality fineroot VB03 to POS2 Using output from proces [VBMort03 ] [fS5VB03P3 ] mortality fineroot VB03 to POS3 Using output from proces [VBMort03 ] [fC4VB03P5 ] mortality root VB03 to POC5 Using output from proces [VBMort03 ] [fN4VB03P5 ] mortality root VB03 to PON5 Using output from proces [VBMort03 ] [fP4VB03P5 ] mortality root VB03 to POP5 Using output from proces [VBMort03 ] [fS4VB03P5 ] mortality root VB03 to POS5 Using output from proces [VBMort03 ] Input for [VB03_Mrt3W ] Vegetation module mortality 3D flux water [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB03 ] bottom segment pointer Using output from proces [VBStatus03 ] [SwDisVB03 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr629 with value: 1.000000 [VegHeVB03 ] Max Height VB03 Using constant nr627 with value: 10.00000 [FfacVB03 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr628 with value: 1.000000 [nfVB_wat ] number of fluxes VBXX to be distributed using default value: 20.0000 [fC2VB03P1 ] mortality foliage VB03 to POC1 Using output from proces [VBMort03 ] [fC2VB03P2 ] mortality foliage VB03 to POC2 Using output from proces [VBMort03 ] [fC2VB03P3 ] mortality foliage VB03 to POC3 Using output from proces [VBMort03 ] [fN2VB03P1 ] mortality foliage VB03 to PON1 Using output from proces [VBMort03 ] [fN2VB03P2 ] mortality foliage VB03 to PON2 Using output from proces [VBMort03 ] [fN2VB03P3 ] mortality foliage VB03 to PON3 Using output from proces [VBMort03 ] [fP2VB03P1 ] mortality foliage VB03 to POP1 Using output from proces [VBMort03 ] [fP2VB03P2 ] mortality foliage VB03 to POP2 Using output from proces [VBMort03 ] [fP2VB03P3 ] mortality foliage VB03 to POP3 Using output from proces [VBMort03 ] [fS2VB03P1 ] mortality foliage VB03 to POS1 Using output from proces [VBMort03 ] [fS2VB03P2 ] mortality foliage VB03 to POS2 Using output from proces [VBMort03 ] [fS2VB03P3 ] mortality foliage VB03 to POS3 Using output from proces [VBMort03 ] [fC1VB03P5 ] mortality stem VB03 to POC5 Using output from proces [VBMort03 ] [fC3VB03P5 ] mortality branch VB03 to POC5 Using output from proces [VBMort03 ] [fN1VB03P5 ] mortality stem VB03 to PON5 Using output from proces [VBMort03 ] [fN3VB03P5 ] mortality branch VB03 to PON5 Using output from proces [VBMort03 ] [fP1VB03P5 ] mortality stem VB03 to POP5 Using output from proces [VBMort03 ] [fP3VB03P5 ] mortality branch VB03 to POP5 Using output from proces [VBMort03 ] [fS1VB03P5 ] mortality stem VB03 to POS5 Using output from proces [VBMort03 ] [fS3VB03P5 ] mortality branch VB03 to POS5 Using output from proces [VBMort03 ] Input for [VBMort03 ] Vegation Biomass Mortality [VB03 ] vegetation biomass cohort 3 Using substance nr 60 [F1VB03 ] allocation factor comp. 1 (stem) VB03 Using output from proces [VB03availN ] [F2VB03 ] allocation factor comp. 2 (foliage) VB03 Using output from proces [VB03availN ] [F3VB03 ] allocation factor comp. 3 (branch) VB03 Using output from proces [VB03availN ] [F4VB03 ] allocation factor comp. 4 (root) VB03 Using output from proces [VB03availN ] [F5VB03 ] allocation factor comp. 5 (fineroot) VB03 Using output from proces [VB03availN ] [SwVB03Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus03 ] [ageVB03 ] age of vegetation cohort 3 Using output from proces [VBGrowth03 ] [CNf1VB03 ] carbon-nitrogen ratio in stem VB03 using default value: 10.00000 [CNf2VB03 ] carbon-nitrogen ratio in foliage VB03 Using constant nr631 with value: 25.0000 [CNf3VB03 ] carbon-nitrogen ratio in branch VB03 using default value: 10.00000 [CNf4VB03 ] carbon-nitrogen ratio in root VB03 using default value: 10.00000 [CNf5VB03 ] carbon-nitrogen ratio in fineroot VB03 Using constant nr632 with value: 30.0000 [CPf1VB03 ] carbon-phosporus ratio in stem VB03 using default value: 100.0000 [CPf2VB03 ] carbon-phosporus ratio in foliage VB03 Using constant nr633 with value: 300.000 [CPf3VB03 ] carbon-phosporus ratio in branch VB03 using default value: 100.0000 [CPf4VB03 ] carbon-phosporus ratio in root VB03 using default value: 100.0000 [CPf5VB03 ] carbon-phosporus ratio in fineroot VB03 Using constant nr634 with value: 600.000 [CSf1VB03 ] carbon-sulphur ratio in stem VB03 using default value: 1000.000 [CSf2VB03 ] carbon-sulphur ratio in foliage VB03 Using constant nr635 with value: 1000.000 [CSf3VB03 ] carbon-sulphur ratio in branch VB03 using default value: 1000.000 [CSf4VB03 ] carbon-sulphur ratio in root VB03 using default value: 1000.000 [CSf5VB03 ] carbon-sulphur ratio in fineroot Using constant nr636 with value: 1000.000 [FfolPOC1 ] fraction of biomass foliage to POC1 Using constant nr555 with value: 0.400000 [FfolPOC2 ] fraction of biomass foliage to POC2 Using constant nr556 with value: 0.400000 [FfrootPOC1 ] fraction of biomass root to POC1 Using constant nr557 with value: 0.400000 [FfrootPOC2 ] fraction of biomass root to POC2 Using constant nr558 with value: 0.400000 [DELT ] timestep for processes Using DELWAQ timestep in days [Depth ] depth of segment Using output from proces [DynDepth ] [RcMrtVB03 ] rate constant inundation mortality cohort 3 Using constant nr648 with value: 0.500000E-01 [SWVB03Dec ] biomass is decaying after prev mort type 3 Using output from proces [VBGrowth03 ] [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0MSWV03 ] senescence mortality rate for VB03 at 20 oC Using constant nr643 with value: 0.100000E+00 [TcMSWV03 ] temperature coefficient of WV mort. for VB03 Using constant nr644 with value: 1.03000 [RcMGRWV03 ] grazing mortality pressure for VB03 Using function nr 5 [AcMWV03 ] acceleration factor for senescence mort VB03 Using constant nr646 with value: 10.00000 [MinRWV03 ] minimum biomass ratio for VB03 Using constant nr640 with value: 0.100000E+00 [MaxRWV03 ] maximum biomass ratio for VB03 Using constant nr647 with value: 1.20000 [TBmWV03 ] target total biomass for VB03 Using function nr 4 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VBGrowth03 ] Vegation Biomass Growth [VB03 ] vegetation biomass cohort 3 Using substance nr 60 [maxVB03 ] maximum vegetation biomass cohort 3 using default value: 0.00000 [minVB03 ] minimum vegetation biomass cohort 3 using default value: 0.00000 [hlfAgeVB03 ] age where biomass is half of maximum cohort 3 using default value: 0.00000 [sfVB03 ] shape factor growth curve cohort 3 using default value: 1.000000 [dmCfVB03 ] dry matter carbon ratio veg. cohort 3 Using constant nr630 with value: 1.000000 [iniVB03 ] initial veg. biomass cohort 3 using default value: 0.00000 [iniCovVB03 ] initial veg. coverage cohort 3 Using constant nr642 with value: 5.00000 [SWiniVB03 ] switch 0=biomass 1=%coverage for cohort 3 Using constant nr641 with value: 1.000000 [ageVB03 ] age of vegetation cohort 3 Using output from proces [VBGrowth03 ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [SwVB03Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus03 ] [SwVB03Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus03 ] [VBType03 ] nr of the vegetation type (for warnings) using default value: 3.00000 [VB03Navail ] VB03 nitrogen availability in rooting zone Using output from proces [VB03availN ] [VB03Pavail ] VB03 phosphorus availability in rooting z. Using output from proces [VB03availN ] [VB03Savail ] VB03 sulfur availability in rooting zone Using output from proces [VB03availN ] [VBFrMaxU ] maximum fraction available for uptake <0-1> Using constant nr560 with value: 0.500000 [F1VB03 ] allocation factor comp. 1 (stem) VB03 Using output from proces [VB03availN ] [F2VB03 ] allocation factor comp. 2 (foliage) VB03 Using output from proces [VB03availN ] [F3VB03 ] allocation factor comp. 3 (branch) VB03 Using output from proces [VB03availN ] [F4VB03 ] allocation factor comp. 4 (root) VB03 Using output from proces [VB03availN ] [F5VB03 ] allocation factor comp. 5 (fineroot) VB03 Using output from proces [VB03availN ] [CNf1VB03 ] carbon-nitrogen ratio in stem VB03 using default value: 10.00000 [CNf2VB03 ] carbon-nitrogen ratio in foliage VB03 Using constant nr631 with value: 25.0000 [CNf3VB03 ] carbon-nitrogen ratio in branch VB03 using default value: 10.00000 [CNf4VB03 ] carbon-nitrogen ratio in root VB03 using default value: 10.00000 [CNf5VB03 ] carbon-nitrogen ratio in fineroot VB03 Using constant nr632 with value: 30.0000 [CPf1VB03 ] carbon-phosporus ratio in stem VB03 using default value: 100.0000 [CPf2VB03 ] carbon-phosporus ratio in foliage VB03 Using constant nr633 with value: 300.000 [CPf3VB03 ] carbon-phosporus ratio in branch VB03 using default value: 100.0000 [CPf4VB03 ] carbon-phosporus ratio in root VB03 using default value: 100.0000 [CPf5VB03 ] carbon-phosporus ratio in fineroot VB03 Using constant nr634 with value: 600.000 [CSf1VB03 ] carbon-sulphur ratio in stem VB03 using default value: 1000.000 [CSf2VB03 ] carbon-sulphur ratio in foliage VB03 Using constant nr635 with value: 1000.000 [CSf3VB03 ] carbon-sulphur ratio in branch VB03 using default value: 1000.000 [CSf4VB03 ] carbon-sulphur ratio in root VB03 using default value: 1000.000 [CSf5VB03 ] carbon-sulphur ratio in fineroot Using constant nr636 with value: 1000.000 [SWRegrVB03 ] allow regrowth (y=1,n=0) after decay using default value: 1.000000 [SWVB03Dec ] biomass is decaying after prev mort type 3 Using output from proces [VBGrowth03 ] [IniAgeVB03 ] inital age of VB at start of simulation using default value: 0.00000 [IniVB03dec ] inital decay Switch VB03 start simulation using default value: 0.00000 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0GWV03 ] wetland vegetation growth rate VB03 at 20 oC Using constant nr637 with value: 0.400000 [TcGWV03 ] temperature coefficient of WV growth for VB03 Using constant nr638 with value: 1.04000 [AcGWV03 ] acceleration factor for WV growth of VB03 Using constant nr639 with value: 10.00000 [MinRWV03 ] minimum biomass ratio for VB03 Using constant nr640 with value: 0.100000E+00 [TBmWV03 ] target total biomass for VB03 Using function nr 4 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VB03availN ] Vegetation module VB03 availability of nutrients [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [botsegVB03 ] bottom segment pointer Using output from proces [VBStatus03 ] [RootDeVB03 ] Max Height VB03 Using constant nr626 with value:-0.500000 [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [SWRootVB03 ] use RootShootModel(y=1,n=0) for F2VB F4VB Using constant nr548 with value: 1.000000 [VmaxVB03 ] maximun rate in Michelis/Menten using default value: 0.100000E+00 [KmVB03 ] TIN conc. at half of Vmax using default value: 0.100000E+00 [ViniVB03 ] initial rate in Michelis/Menten using default value: 0.100000E+00 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VBStatus03 ] Status of Vegation Biomass cohort 03 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [VBType03 ] nr of the vegetation type (for warnings) using default value: 3.00000 [nsfVB ] nr successive emersion(flood) VB01 using default value: 0.00000 [CrnsfVB03 ] critical number successive flood days VB03 Using constant nr649 with value: 10.00000 [Initnsfd ] initial number flood days at simulation start Using constant nr559 with value: 10.00000 [CrdepVB03 ] critical depth for inundation mortality VB03 Using constant nr650 with value: 2.49000 [nscdVB03 ] nr successive critical depth exceedence VB03 Using output from proces [VBStatus03 ] [InnscdVB03 ] initial critical depth exceedence days at start using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [TotalDepth ] total depth water column Using output from proces [TotDepth ] Input for [VB02_Upt3D ] Vegetation module VB02 uptake 3D flux distribution [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB02 ] bottom segment pointer Using output from proces [VBStatus02 ] [RootDeVB02 ] Max Height VB02 Using constant nr594 with value:-0.500000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [iniCovVB02 ] initial veg. coverage cohort 2 Using function nr 2 [VB02Navail ] VB02 nitrogen availability in rooting zone Using output from proces [VB02availN ] [VB02Pavail ] VB02 phosphorus availability in rooting z. Using output from proces [VB02availN ] [VB02Savail ] VB02 sulfur availability in rooting zone Using output from proces [VB02availN ] [fNVB02up ] uptake (fine)roots VB02 Using output from proces [VB02Upt ] [fPVB02up ] uptake roots VB02 Using output from proces [VB02Upt ] [fSVB02up ] uptake roots VB02 Using output from proces [VB02Upt ] Input for [VB02Upt ] Vegetation Biomass Nutrient Uptake [fVB02 ] area scaled flux dVB02 Using output from proces [VBGrowth02 ] [SwVB02Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus02 ] [F1VB02 ] allocation factor comp. 1 (stem) VB02 Using output from proces [VB02availN ] [F2VB02 ] allocation factor comp. 2 (foliage) VB02 Using output from proces [VB02availN ] [F3VB02 ] allocation factor comp. 3 (branch) VB02 Using output from proces [VB02availN ] [F4VB02 ] allocation factor comp. 4 (root) VB02 Using output from proces [VB02availN ] [F5VB02 ] allocation factor comp. 5 (fineroot) VB02 Using output from proces [VB02availN ] [CNf1VB02 ] carbon-nitrogen ratio in stem VB02 using default value: 10.00000 [CNf2VB02 ] carbon-nitrogen ratio in foliage VB02 Using constant nr599 with value: 25.0000 [CNf3VB02 ] carbon-nitrogen ratio in branch VB02 using default value: 10.00000 [CNf4VB02 ] carbon-nitrogen ratio in root VB02 using default value: 10.00000 [CNf5VB02 ] carbon-nitrogen ratio in fineroot VB02 Using constant nr600 with value: 30.0000 [CPf1VB02 ] carbon-phosporus ratio in stem VB02 using default value: 100.0000 [CPf2VB02 ] carbon-phosporus ratio in foliage VB02 Using constant nr601 with value: 300.000 [CPf3VB02 ] carbon-phosporus ratio in branch VB02 using default value: 100.0000 [CPf4VB02 ] carbon-phosporus ratio in root VB02 using default value: 100.0000 [CPf5VB02 ] carbon-phosporus ratio in fineroot VB02 Using constant nr602 with value: 600.000 [CSf1VB02 ] carbon-sulphur ratio in stem VB02 using default value: 1000.000 [CSf2VB02 ] carbon-sulphur ratio in foliage VB02 Using constant nr603 with value: 1000.000 [CSf3VB02 ] carbon-sulphur ratio in branch VB02 using default value: 1000.000 [CSf4VB02 ] carbon-sulphur ratio in root VB02 using default value: 1000.000 [CSf5VB02 ] carbon-sulphur ratio in fineroot Using constant nr604 with value: 1000.000 Input for [VB02_Mrt3S ] Vegetation module mortality 3D flux sediment [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB02 ] bottom segment pointer Using output from proces [VBStatus02 ] [SwDisVB02 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr597 with value: 1.000000 [RootDeVB02 ] Max Height VB02 Using constant nr594 with value:-0.500000 [FfacVB02 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr596 with value: 1.000000 [nfVB_sed ] number of fluxes VBXX to be distributed using default value: 16.0000 [fC5VB02P1 ] mortality fineroot VB02 to POC1 Using output from proces [VBMort02 ] [fC5VB02P2 ] mortality fineroot VB02 to POC2 Using output from proces [VBMort02 ] [fC5VB02P3 ] mortality fineroot VB02 to POC3 Using output from proces [VBMort02 ] [fN5VB02P1 ] mortality fineroot VB02 to PON1 Using output from proces [VBMort02 ] [fN5VB02P2 ] mortality fineroot VB02 to PON2 Using output from proces [VBMort02 ] [fN5VB02P3 ] mortality fineroot VB02 to PON3 Using output from proces [VBMort02 ] [fP5VB02P1 ] mortality fineroot VB02 to POP1 Using output from proces [VBMort02 ] [fP5VB02P2 ] mortality fineroot VB02 to POP2 Using output from proces [VBMort02 ] [fP5VB02P3 ] mortality fineroot VB02 to POP3 Using output from proces [VBMort02 ] [fS5VB02P1 ] mortality fineroot VB02 to POS1 Using output from proces [VBMort02 ] [fS5VB02P2 ] mortality fineroot VB02 to POS2 Using output from proces [VBMort02 ] [fS5VB02P3 ] mortality fineroot VB02 to POS3 Using output from proces [VBMort02 ] [fC4VB02P5 ] mortality root VB02 to POC5 Using output from proces [VBMort02 ] [fN4VB02P5 ] mortality root VB02 to PON5 Using output from proces [VBMort02 ] [fP4VB02P5 ] mortality root VB02 to POP5 Using output from proces [VBMort02 ] [fS4VB02P5 ] mortality root VB02 to POS5 Using output from proces [VBMort02 ] Input for [VB02_Mrt3W ] Vegetation module mortality 3D flux water [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB02 ] bottom segment pointer Using output from proces [VBStatus02 ] [SwDisVB02 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr597 with value: 1.000000 [VegHeVB02 ] Max Height VB02 Using constant nr595 with value: 10.00000 [FfacVB02 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr596 with value: 1.000000 [nfVB_wat ] number of fluxes VBXX to be distributed using default value: 20.0000 [fC2VB02P1 ] mortality foliage VB02 to POC1 Using output from proces [VBMort02 ] [fC2VB02P2 ] mortality foliage VB02 to POC2 Using output from proces [VBMort02 ] [fC2VB02P3 ] mortality foliage VB02 to POC3 Using output from proces [VBMort02 ] [fN2VB02P1 ] mortality foliage VB02 to PON1 Using output from proces [VBMort02 ] [fN2VB02P2 ] mortality foliage VB02 to PON2 Using output from proces [VBMort02 ] [fN2VB02P3 ] mortality foliage VB02 to PON3 Using output from proces [VBMort02 ] [fP2VB02P1 ] mortality foliage VB02 to POP1 Using output from proces [VBMort02 ] [fP2VB02P2 ] mortality foliage VB02 to POP2 Using output from proces [VBMort02 ] [fP2VB02P3 ] mortality foliage VB02 to POP3 Using output from proces [VBMort02 ] [fS2VB02P1 ] mortality foliage VB02 to POS1 Using output from proces [VBMort02 ] [fS2VB02P2 ] mortality foliage VB02 to POS2 Using output from proces [VBMort02 ] [fS2VB02P3 ] mortality foliage VB02 to POS3 Using output from proces [VBMort02 ] [fC1VB02P5 ] mortality stem VB02 to POC5 Using output from proces [VBMort02 ] [fC3VB02P5 ] mortality branch VB02 to POC5 Using output from proces [VBMort02 ] [fN1VB02P5 ] mortality stem VB02 to PON5 Using output from proces [VBMort02 ] [fN3VB02P5 ] mortality branch VB02 to PON5 Using output from proces [VBMort02 ] [fP1VB02P5 ] mortality stem VB02 to POP5 Using output from proces [VBMort02 ] [fP3VB02P5 ] mortality branch VB02 to POP5 Using output from proces [VBMort02 ] [fS1VB02P5 ] mortality stem VB02 to POS5 Using output from proces [VBMort02 ] [fS3VB02P5 ] mortality branch VB02 to POS5 Using output from proces [VBMort02 ] Input for [VBMort02 ] Vegation Biomass Mortality [VB02 ] vegetation biomass cohort 2 Using substance nr 59 [F1VB02 ] allocation factor comp. 1 (stem) VB02 Using output from proces [VB02availN ] [F2VB02 ] allocation factor comp. 2 (foliage) VB02 Using output from proces [VB02availN ] [F3VB02 ] allocation factor comp. 3 (branch) VB02 Using output from proces [VB02availN ] [F4VB02 ] allocation factor comp. 4 (root) VB02 Using output from proces [VB02availN ] [F5VB02 ] allocation factor comp. 5 (fineroot) VB02 Using output from proces [VB02availN ] [SwVB02Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus02 ] [ageVB02 ] age of vegetation cohort 2 Using output from proces [VBGrowth02 ] [CNf1VB02 ] carbon-nitrogen ratio in stem VB02 using default value: 10.00000 [CNf2VB02 ] carbon-nitrogen ratio in foliage VB02 Using constant nr599 with value: 25.0000 [CNf3VB02 ] carbon-nitrogen ratio in branch VB02 using default value: 10.00000 [CNf4VB02 ] carbon-nitrogen ratio in root VB02 using default value: 10.00000 [CNf5VB02 ] carbon-nitrogen ratio in fineroot VB02 Using constant nr600 with value: 30.0000 [CPf1VB02 ] carbon-phosporus ratio in stem VB02 using default value: 100.0000 [CPf2VB02 ] carbon-phosporus ratio in foliage VB02 Using constant nr601 with value: 300.000 [CPf3VB02 ] carbon-phosporus ratio in branch VB02 using default value: 100.0000 [CPf4VB02 ] carbon-phosporus ratio in root VB02 using default value: 100.0000 [CPf5VB02 ] carbon-phosporus ratio in fineroot VB02 Using constant nr602 with value: 600.000 [CSf1VB02 ] carbon-sulphur ratio in stem VB02 using default value: 1000.000 [CSf2VB02 ] carbon-sulphur ratio in foliage VB02 Using constant nr603 with value: 1000.000 [CSf3VB02 ] carbon-sulphur ratio in branch VB02 using default value: 1000.000 [CSf4VB02 ] carbon-sulphur ratio in root VB02 using default value: 1000.000 [CSf5VB02 ] carbon-sulphur ratio in fineroot Using constant nr604 with value: 1000.000 [FfolPOC1 ] fraction of biomass foliage to POC1 Using constant nr555 with value: 0.400000 [FfolPOC2 ] fraction of biomass foliage to POC2 Using constant nr556 with value: 0.400000 [FfrootPOC1 ] fraction of biomass root to POC1 Using constant nr557 with value: 0.400000 [FfrootPOC2 ] fraction of biomass root to POC2 Using constant nr558 with value: 0.400000 [DELT ] timestep for processes Using DELWAQ timestep in days [Depth ] depth of segment Using output from proces [DynDepth ] [RcMrtVB02 ] rate constant inundation mortality cohort 2 Using constant nr615 with value: 0.500000E-01 [SWVB02Dec ] biomass is decaying after prev mort type 2 Using output from proces [VBGrowth02 ] [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0MSWV02 ] senescence mortality rate for VB02 at 20 oC Using constant nr610 with value: 0.100000E+00 [TcMSWV02 ] temperature coefficient of WV mort. for VB02 Using constant nr611 with value: 1.03000 [RcMGRWV02 ] grazing mortality pressure for VB02 Using constant nr612 with value: 0.00000 [AcMWV02 ] acceleration factor for senescence mort VB02 Using constant nr613 with value: 10.00000 [MinRWV02 ] minimum biomass ratio for VB02 Using constant nr608 with value: 0.100000E+00 [MaxRWV02 ] maximum biomass ratio for VB02 Using constant nr614 with value: 1.20000 [TBmWV02 ] target total biomass for VB02 Using function nr 3 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VBGrowth02 ] Vegation Biomass Growth [VB02 ] vegetation biomass cohort 2 Using substance nr 59 [maxVB02 ] maximum vegetation biomass cohort 2 using default value: 0.00000 [minVB02 ] minimum vegetation biomass cohort 2 using default value: 0.00000 [hlfAgeVB02 ] age where biomass is half of maximum cohort 2 using default value: 0.00000 [sfVB02 ] shape factor growth curve cohort 2 using default value: 1.000000 [dmCfVB02 ] dry matter carbon ratio veg. cohort 2 Using constant nr598 with value: 1.000000 [iniVB02 ] initial veg. biomass cohort 2 using default value: 0.00000 [iniCovVB02 ] initial veg. coverage cohort 2 Using function nr 2 [SWiniVB02 ] switch 0=biomass 1=%coverage for cohort 2 Using constant nr609 with value: 1.000000 [ageVB02 ] age of vegetation cohort 2 Using output from proces [VBGrowth02 ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [SwVB02Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus02 ] [SwVB02Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus02 ] [VBType02 ] nr of the vegetation type (for warnings) using default value: 2.00000 [VB02Navail ] VB02 nitrogen availability in rooting zone Using output from proces [VB02availN ] [VB02Pavail ] VB02 phosphorus availability in rooting z. Using output from proces [VB02availN ] [VB02Savail ] VB02 sulfur availability in rooting zone Using output from proces [VB02availN ] [VBFrMaxU ] maximum fraction available for uptake <0-1> Using constant nr560 with value: 0.500000 [F1VB02 ] allocation factor comp. 1 (stem) VB02 Using output from proces [VB02availN ] [F2VB02 ] allocation factor comp. 2 (foliage) VB02 Using output from proces [VB02availN ] [F3VB02 ] allocation factor comp. 3 (branch) VB02 Using output from proces [VB02availN ] [F4VB02 ] allocation factor comp. 4 (root) VB02 Using output from proces [VB02availN ] [F5VB02 ] allocation factor comp. 5 (fineroot) VB02 Using output from proces [VB02availN ] [CNf1VB02 ] carbon-nitrogen ratio in stem VB02 using default value: 10.00000 [CNf2VB02 ] carbon-nitrogen ratio in foliage VB02 Using constant nr599 with value: 25.0000 [CNf3VB02 ] carbon-nitrogen ratio in branch VB02 using default value: 10.00000 [CNf4VB02 ] carbon-nitrogen ratio in root VB02 using default value: 10.00000 [CNf5VB02 ] carbon-nitrogen ratio in fineroot VB02 Using constant nr600 with value: 30.0000 [CPf1VB02 ] carbon-phosporus ratio in stem VB02 using default value: 100.0000 [CPf2VB02 ] carbon-phosporus ratio in foliage VB02 Using constant nr601 with value: 300.000 [CPf3VB02 ] carbon-phosporus ratio in branch VB02 using default value: 100.0000 [CPf4VB02 ] carbon-phosporus ratio in root VB02 using default value: 100.0000 [CPf5VB02 ] carbon-phosporus ratio in fineroot VB02 Using constant nr602 with value: 600.000 [CSf1VB02 ] carbon-sulphur ratio in stem VB02 using default value: 1000.000 [CSf2VB02 ] carbon-sulphur ratio in foliage VB02 Using constant nr603 with value: 1000.000 [CSf3VB02 ] carbon-sulphur ratio in branch VB02 using default value: 1000.000 [CSf4VB02 ] carbon-sulphur ratio in root VB02 using default value: 1000.000 [CSf5VB02 ] carbon-sulphur ratio in fineroot Using constant nr604 with value: 1000.000 [SWRegrVB02 ] allow regrowth (y=1,n=0) after decay using default value: 1.000000 [SWVB02Dec ] biomass is decaying after prev mort type 2 Using output from proces [VBGrowth02 ] [IniAgeVB02 ] inital age of VB at start of simulation using default value: 0.00000 [IniVB02dec ] inital decay Switch VB02 start simulation using default value: 0.00000 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0GWV02 ] wetland vegetation growth rate VB02 at 20 oC Using constant nr605 with value: 0.400000 [TcGWV02 ] temperature coefficient of WV growth for VB02 Using constant nr606 with value: 1.04000 [AcGWV02 ] acceleration factor for WV growth of VB02 Using constant nr607 with value: 10.00000 [MinRWV02 ] minimum biomass ratio for VB02 Using constant nr608 with value: 0.100000E+00 [TBmWV02 ] target total biomass for VB02 Using function nr 3 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VB02availN ] Vegetation module VB02 availability of nutrients [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [botsegVB02 ] bottom segment pointer Using output from proces [VBStatus02 ] [RootDeVB02 ] Max Height VB02 Using constant nr594 with value:-0.500000 [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [SWRootVB02 ] use RootShootModel(y=1,n=0) for F2VB F4VB Using constant nr547 with value: 1.000000 [VmaxVB02 ] maximun rate in Michelis/Menten using default value: 0.100000E+00 [KmVB02 ] TIN conc. at half of Vmax using default value: 0.100000E+00 [ViniVB02 ] initial rate in Michelis/Menten using default value: 0.100000E+00 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VBStatus02 ] Status of Vegation Biomass cohort 02 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [VBType02 ] nr of the vegetation type (for warnings) using default value: 2.00000 [nsfVB ] nr successive emersion(flood) VB01 using default value: 0.00000 [CrnsfVB02 ] critical number successive flood days VB02 Using constant nr616 with value: 10.00000 [Initnsfd ] initial number flood days at simulation start Using constant nr559 with value: 10.00000 [CrdepVB02 ] critical depth for inundation mortality VB02 Using constant nr617 with value: 0.850000 [nscdVB02 ] nr successive critical depth exceedence VB02 Using output from proces [VBStatus02 ] [InnscdVB02 ] initial critical depth exceedence days at start using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [TotalDepth ] total depth water column Using output from proces [TotDepth ] Input for [VB01_Upt3D ] Vegetation module VB01 uptake 3D flux distribution [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB01 ] bottom segment pointer Using output from proces [VBStatus01 ] [RootDeVB01 ] Max Height VB01 Using constant nr561 with value:-0.500000 [DELT ] timestep for processes Using DELWAQ timestep in days [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [iniCovVB01 ] initial veg. coverage cohort 1 Using constant nr577 with value: 5.00000 [VB01Navail ] VB01 nitrogen availability in rooting zone Using output from proces [VB01availN ] [VB01Pavail ] VB01 phosphorus availability in rooting z. Using output from proces [VB01availN ] [VB01Savail ] VB01 sulfur availability in rooting zone Using output from proces [VB01availN ] [fNVB01up ] uptake (fine)roots VB01 Using output from proces [VB01Upt ] [fPVB01up ] uptake roots VB01 Using output from proces [VB01Upt ] [fSVB01up ] uptake roots VB01 Using output from proces [VB01Upt ] Input for [VB01Upt ] Vegetation Biomass Nutrient Uptake [fVB01 ] area scaled flux dVB01 Using output from proces [VBGrowth01 ] [SwVB01Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus01 ] [F1VB01 ] allocation factor comp. 1 (stem) VB01 Using output from proces [VB01availN ] [F2VB01 ] allocation factor comp. 2 (foliage) VB01 Using output from proces [VB01availN ] [F3VB01 ] allocation factor comp. 3 (branch) VB01 Using output from proces [VB01availN ] [F4VB01 ] allocation factor comp. 4 (root) VB01 Using output from proces [VB01availN ] [F5VB01 ] allocation factor comp. 5 (fineroot) VB01 Using output from proces [VB01availN ] [CNf1VB01 ] carbon-nitrogen ratio in stem VB01 using default value: 10.00000 [CNf2VB01 ] carbon-nitrogen ratio in foliage VB01 Using constant nr566 with value: 25.0000 [CNf3VB01 ] carbon-nitrogen ratio in branch VB01 using default value: 10.00000 [CNf4VB01 ] carbon-nitrogen ratio in root VB01 using default value: 10.00000 [CNf5VB01 ] carbon-nitrogen ratio in fineroot VB01 Using constant nr567 with value: 30.0000 [CPf1VB01 ] carbon-phosporus ratio in stem VB01 using default value: 100.0000 [CPf2VB01 ] carbon-phosporus ratio in foliage VB01 Using constant nr568 with value: 300.000 [CPf3VB01 ] carbon-phosporus ratio in branch VB01 using default value: 100.0000 [CPf4VB01 ] carbon-phosporus ratio in root VB01 using default value: 100.0000 [CPf5VB01 ] carbon-phosporus ratio in fineroot VB01 Using constant nr569 with value: 600.000 [CSf1VB01 ] carbon-sulphur ratio in stem VB01 using default value: 1000.000 [CSf2VB01 ] carbon-sulphur ratio in foliage VB01 Using constant nr570 with value: 1000.000 [CSf3VB01 ] carbon-sulphur ratio in branch VB01 using default value: 1000.000 [CSf4VB01 ] carbon-sulphur ratio in root VB01 using default value: 1000.000 [CSf5VB01 ] carbon-sulphur ratio in fineroot Using constant nr571 with value: 1000.000 Input for [VB01_Mrt3S ] Vegetation module mortality 3D flux sediment [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB01 ] bottom segment pointer Using output from proces [VBStatus01 ] [SwDisVB01 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr564 with value: 1.000000 [RootDeVB01 ] Max Height VB01 Using constant nr561 with value:-0.500000 [FfacVB01 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr563 with value: 1.000000 [nfVB_sed ] number of fluxes VBXX to be distributed using default value: 16.0000 [fC5VB01P1 ] mortality fineroot VB01 to POC1 Using output from proces [VBMort01 ] [fC5VB01P2 ] mortality fineroot VB01 to POC2 Using output from proces [VBMort01 ] [fC5VB01P3 ] mortality fineroot VB01 to POC3 Using output from proces [VBMort01 ] [fN5VB01P1 ] mortality fineroot VB01 to PON1 Using output from proces [VBMort01 ] [fN5VB01P2 ] mortality fineroot VB01 to PON2 Using output from proces [VBMort01 ] [fN5VB01P3 ] mortality fineroot VB01 to PON3 Using output from proces [VBMort01 ] [fP5VB01P1 ] mortality fineroot VB01 to POP1 Using output from proces [VBMort01 ] [fP5VB01P2 ] mortality fineroot VB01 to POP2 Using output from proces [VBMort01 ] [fP5VB01P3 ] mortality fineroot VB01 to POP3 Using output from proces [VBMort01 ] [fS5VB01P1 ] mortality fineroot VB01 to POS1 Using output from proces [VBMort01 ] [fS5VB01P2 ] mortality fineroot VB01 to POS2 Using output from proces [VBMort01 ] [fS5VB01P3 ] mortality fineroot VB01 to POS3 Using output from proces [VBMort01 ] [fC4VB01P5 ] mortality root VB01 to POC5 Using output from proces [VBMort01 ] [fN4VB01P5 ] mortality root VB01 to PON5 Using output from proces [VBMort01 ] [fP4VB01P5 ] mortality root VB01 to POP5 Using output from proces [VBMort01 ] [fS4VB01P5 ] mortality root VB01 to POS5 Using output from proces [VBMort01 ] Input for [VB01_Mrt3W ] Vegetation module mortality 3D flux water [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [botsegVB01 ] bottom segment pointer Using output from proces [VBStatus01 ] [SwDisVB01 ] Switch Gr. Distr.VBXX (1)cont. (2)lin. (3)exp. Using constant nr564 with value: 1.000000 [VegHeVB01 ] Max Height VB01 Using constant nr562 with value: 10.00000 [FfacVB01 ] Form factor lin: F = M(mean)/(M/Hmax) VBXX Using constant nr563 with value: 1.000000 [nfVB_wat ] number of fluxes VBXX to be distributed using default value: 20.0000 [fC2VB01P1 ] mortality foliage VB01 to POC1 Using output from proces [VBMort01 ] [fC2VB01P2 ] mortality foliage VB01 to POC2 Using output from proces [VBMort01 ] [fC2VB01P3 ] mortality foliage VB01 to POC3 Using output from proces [VBMort01 ] [fN2VB01P1 ] mortality foliage VB01 to PON1 Using output from proces [VBMort01 ] [fN2VB01P2 ] mortality foliage VB01 to PON2 Using output from proces [VBMort01 ] [fN2VB01P3 ] mortality foliage VB01 to PON3 Using output from proces [VBMort01 ] [fP2VB01P1 ] mortality foliage VB01 to POP1 Using output from proces [VBMort01 ] [fP2VB01P2 ] mortality foliage VB01 to POP2 Using output from proces [VBMort01 ] [fP2VB01P3 ] mortality foliage VB01 to POP3 Using output from proces [VBMort01 ] [fS2VB01P1 ] mortality foliage VB01 to POS1 Using output from proces [VBMort01 ] [fS2VB01P2 ] mortality foliage VB01 to POS2 Using output from proces [VBMort01 ] [fS2VB01P3 ] mortality foliage VB01 to POS3 Using output from proces [VBMort01 ] [fC1VB01P5 ] mortality stem VB01 to POC5 Using output from proces [VBMort01 ] [fC3VB01P5 ] mortality branch VB01 to POC5 Using output from proces [VBMort01 ] [fN1VB01P5 ] mortality stem VB01 to PON5 Using output from proces [VBMort01 ] [fN3VB01P5 ] mortality branch VB01 to PON5 Using output from proces [VBMort01 ] [fP1VB01P5 ] mortality stem VB01 to POP5 Using output from proces [VBMort01 ] [fP3VB01P5 ] mortality branch VB01 to POP5 Using output from proces [VBMort01 ] [fS1VB01P5 ] mortality stem VB01 to POS5 Using output from proces [VBMort01 ] [fS3VB01P5 ] mortality branch VB01 to POS5 Using output from proces [VBMort01 ] Input for [VBMort01 ] Vegation Biomass Mortality [VB01 ] vegetation biomass cohort 1 Using substance nr 58 [F1VB01 ] allocation factor comp. 1 (stem) VB01 Using output from proces [VB01availN ] [F2VB01 ] allocation factor comp. 2 (foliage) VB01 Using output from proces [VB01availN ] [F3VB01 ] allocation factor comp. 3 (branch) VB01 Using output from proces [VB01availN ] [F4VB01 ] allocation factor comp. 4 (root) VB01 Using output from proces [VB01availN ] [F5VB01 ] allocation factor comp. 5 (fineroot) VB01 Using output from proces [VB01availN ] [SwVB01Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus01 ] [ageVB01 ] age of vegetation cohort 1 Using output from proces [VBGrowth01 ] [CNf1VB01 ] carbon-nitrogen ratio in stem VB01 using default value: 10.00000 [CNf2VB01 ] carbon-nitrogen ratio in foliage VB01 Using constant nr566 with value: 25.0000 [CNf3VB01 ] carbon-nitrogen ratio in branch VB01 using default value: 10.00000 [CNf4VB01 ] carbon-nitrogen ratio in root VB01 using default value: 10.00000 [CNf5VB01 ] carbon-nitrogen ratio in fineroot VB01 Using constant nr567 with value: 30.0000 [CPf1VB01 ] carbon-phosporus ratio in stem VB01 using default value: 100.0000 [CPf2VB01 ] carbon-phosporus ratio in foliage VB01 Using constant nr568 with value: 300.000 [CPf3VB01 ] carbon-phosporus ratio in branch VB01 using default value: 100.0000 [CPf4VB01 ] carbon-phosporus ratio in root VB01 using default value: 100.0000 [CPf5VB01 ] carbon-phosporus ratio in fineroot VB01 Using constant nr569 with value: 600.000 [CSf1VB01 ] carbon-sulphur ratio in stem VB01 using default value: 1000.000 [CSf2VB01 ] carbon-sulphur ratio in foliage VB01 Using constant nr570 with value: 1000.000 [CSf3VB01 ] carbon-sulphur ratio in branch VB01 using default value: 1000.000 [CSf4VB01 ] carbon-sulphur ratio in root VB01 using default value: 1000.000 [CSf5VB01 ] carbon-sulphur ratio in fineroot Using constant nr571 with value: 1000.000 [FfolPOC1 ] fraction of biomass foliage to POC1 Using constant nr555 with value: 0.400000 [FfolPOC2 ] fraction of biomass foliage to POC2 Using constant nr556 with value: 0.400000 [FfrootPOC1 ] fraction of biomass root to POC1 Using constant nr557 with value: 0.400000 [FfrootPOC2 ] fraction of biomass root to POC2 Using constant nr558 with value: 0.400000 [DELT ] timestep for processes Using DELWAQ timestep in days [Depth ] depth of segment Using output from proces [DynDepth ] [RcMrtVB01 ] rate constant inundation mortality cohort 1 Using constant nr583 with value: 0.100000E+00 [SWVB01Dec ] biomass is decaying after prev mort type 1 Using output from proces [VBGrowth01 ] [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0MSWV01 ] senescence mortality rate for VB01 at 20 oC Using constant nr578 with value: 0.100000E+00 [TcMSWV01 ] temperature coefficient of WV mort. for VB01 Using constant nr579 with value: 1.03000 [RcMGRWV01 ] grazing mortality pressure for VB01 Using constant nr580 with value: 0.00000 [AcMWV01 ] acceleration factor for senescence mort VB01 Using constant nr581 with value: 10.00000 [MinRWV01 ] minimum biomass ratio for VB01 Using constant nr575 with value: 0.750000 [MaxRWV01 ] maximum biomass ratio for VB01 Using constant nr582 with value: 1.20000 [TBmWV01 ] target total biomass for VB01 Using function nr 1 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VBGrowth01 ] Vegation Biomass Growth [VB01 ] vegetation biomass cohort 1 Using substance nr 58 [maxVB01 ] maximum vegetation biomass cohort 1 using default value: 0.00000 [minVB01 ] minimum vegetation biomass cohort 1 using default value: 0.00000 [hlfAgeVB01 ] age where biomass is half of maximum cohort 1 using default value: 0.00000 [sfVB01 ] shape factor growth curve cohort 1 using default value: 1.000000 [dmCfVB01 ] dry matter carbon ratio veg. cohort 1 Using constant nr565 with value: 1.000000 [iniVB01 ] initial veg. biomass cohort 1 using default value: 0.00000 [iniCovVB01 ] initial veg. coverage cohort 1 Using constant nr577 with value: 5.00000 [SWiniVB01 ] switch 0=biomass 1=%coverage for cohort 1 Using constant nr576 with value: 1.000000 [ageVB01 ] age of vegetation cohort 1 Using output from proces [VBGrowth01 ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [SwVB01Gro ] vegetation biomass growth allowed (0=no,1=yes) Using output from proces [VBStatus01 ] [SwVB01Mrt ] vegetation biomass dead (0=no,1=yes) Using output from proces [VBStatus01 ] [VBType01 ] nr of the vegetation type (for warnings) using default value: 1.000000 [VB01Navail ] VB01 nitrogen availability in rooting zone Using output from proces [VB01availN ] [VB01Pavail ] VB01 phosphorus availability in rooting z. Using output from proces [VB01availN ] [VB01Savail ] VB01 sulfur availability in rooting zone Using output from proces [VB01availN ] [VBFrMaxU ] maximum fraction available for uptake <0-1> Using constant nr560 with value: 0.500000 [F1VB01 ] allocation factor comp. 1 (stem) VB01 Using output from proces [VB01availN ] [F2VB01 ] allocation factor comp. 2 (foliage) VB01 Using output from proces [VB01availN ] [F3VB01 ] allocation factor comp. 3 (branch) VB01 Using output from proces [VB01availN ] [F4VB01 ] allocation factor comp. 4 (root) VB01 Using output from proces [VB01availN ] [F5VB01 ] allocation factor comp. 5 (fineroot) VB01 Using output from proces [VB01availN ] [CNf1VB01 ] carbon-nitrogen ratio in stem VB01 using default value: 10.00000 [CNf2VB01 ] carbon-nitrogen ratio in foliage VB01 Using constant nr566 with value: 25.0000 [CNf3VB01 ] carbon-nitrogen ratio in branch VB01 using default value: 10.00000 [CNf4VB01 ] carbon-nitrogen ratio in root VB01 using default value: 10.00000 [CNf5VB01 ] carbon-nitrogen ratio in fineroot VB01 Using constant nr567 with value: 30.0000 [CPf1VB01 ] carbon-phosporus ratio in stem VB01 using default value: 100.0000 [CPf2VB01 ] carbon-phosporus ratio in foliage VB01 Using constant nr568 with value: 300.000 [CPf3VB01 ] carbon-phosporus ratio in branch VB01 using default value: 100.0000 [CPf4VB01 ] carbon-phosporus ratio in root VB01 using default value: 100.0000 [CPf5VB01 ] carbon-phosporus ratio in fineroot VB01 Using constant nr569 with value: 600.000 [CSf1VB01 ] carbon-sulphur ratio in stem VB01 using default value: 1000.000 [CSf2VB01 ] carbon-sulphur ratio in foliage VB01 Using constant nr570 with value: 1000.000 [CSf3VB01 ] carbon-sulphur ratio in branch VB01 using default value: 1000.000 [CSf4VB01 ] carbon-sulphur ratio in root VB01 using default value: 1000.000 [CSf5VB01 ] carbon-sulphur ratio in fineroot Using constant nr571 with value: 1000.000 [SWRegrVB01 ] allow regrowth (y=1,n=0) after decay using default value: 1.000000 [SWVB01Dec ] biomass is decaying after prev mort type 1 Using output from proces [VBGrowth01 ] [IniAgeVB01 ] inital age of VB at start of simulation using default value: 0.00000 [IniVB01dec ] inital decay Switch VB01 start simulation using default value: 0.00000 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [Rc0GWV01 ] wetland vegetation growth rate VB01 at 20 oC Using constant nr572 with value: 0.100000E+00 [TcGWV01 ] temperature coefficient of WV growth for VB01 Using constant nr573 with value: 1.07200 [AcGWV01 ] acceleration factor for WV growth of VB01 Using constant nr574 with value: 10.00000 [MinRWV01 ] minimum biomass ratio for VB01 Using constant nr575 with value: 0.750000 [TBmWV01 ] target total biomass for VB01 Using function nr 1 [TempAir ] Air temperature Using function nr 10 [MinVB ] minimum biomass for all vegetation Using constant nr554 with value: 0.100000E-02 Input for [VB01availN ] Vegetation module VB01 availability of nutrients [Depth ] depth of segment Using output from proces [DynDepth ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [LocSedDept ] Sediment layer depth to bottom of segment Using output from proces [TotDepth ] [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [botsegVB01 ] bottom segment pointer Using output from proces [VBStatus01 ] [RootDeVB01 ] Max Height VB01 Using constant nr561 with value:-0.500000 [NH4 ] Ammonium (NH4) Using substance nr 8 [NO3 ] Nitrate (NO3) Using substance nr 9 [AAP ] adsorbed ortho phosphate Using substance nr 11 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [SO4 ] sulphate (SO4) Using substance nr 16 [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [SWRootVB01 ] use RootShootModel(y=1,n=0) for F2VB F4VB Using constant nr546 with value: 1.000000 [VmaxVB01 ] maximun rate in Michelis/Menten using default value: 0.100000E+00 [KmVB01 ] TIN conc. at half of Vmax using default value: 0.100000E+00 [ViniVB01 ] initial rate in Michelis/Menten using default value: 0.100000E+00 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VBStatus01 ] Status of Vegation Biomass cohort 01 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [SwVegMod ] use wetland vegetation model (0=no,1=yes) Using constant nr553 with value: 1.000000 [VBType01 ] nr of the vegetation type (for warnings) using default value: 1.000000 [nsfVB ] nr successive emersion(flood) VB01 using default value: 0.00000 [CrnsfVB01 ] critical number successive flood days VB01 Using constant nr584 with value: 100.0000 [Initnsfd ] initial number flood days at simulation start Using constant nr559 with value: 10.00000 [CrdepVB01 ] critical depth for inundation mortality VB01 Using constant nr585 with value: 0.770000 [nscdVB01 ] nr successive critical depth exceedence VB01 Using output from proces [VBStatus01 ] [InnscdVB01 ] initial critical depth exceedence days at start using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [TotalDepth ] total depth water column Using output from proces [TotDepth ] Input for [APATITE ] Dissolution/precipitation of apatite-like mineral [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [APATP ] Apatite-P Using substance nr 13 [EqAPATDisP ] equilibrium concentration PO4 with apatite Using constant nr392 with value: 0.150000 [RCprecP20 ] pseudo 1st order rate P-precipitation 20oC Using constant nr388 with value: 0.600000 [TCprecipP ] temperature dependency constant precipitation using default value: 1.000000 [RCdisAP20 ] 2nd order dissolution rate of apatite Using constant nr393 with value: 0.250000E-02 [TCdissolP ] temperature dependency constant dissolution using default value: 1.000000 [RatAPandVP ] ratio of apat. and vivian. precipitation rate Using parameter nr 12 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [DELT ] timestep for processes Using DELWAQ timestep in days Input for [Secchi ] Secchi depth for visible-light (370-680nm) [ExtVl ] total extinction coefficient visible light Using output from proces [Extinc_VLG ] [IM1 ] inorganic matter (IM1) Using substance nr 5 [IM2 ] inorganic matter (IM2) Using substance nr 6 [IM3 ] inorganic matter (IM3) Using function nr 16 [POC1 ] POC1 (fast decomposing fraction) Using substance nr 20 [POC2 ] POC2 (medium decomposing fraction) Using substance nr 21 [POC3 ] POC3 (slow decomposing fraction) Using substance nr 22 [POC4 ] POC4 (particulate refractory fraction) Using substance nr 23 [ExtVlODS ] VL extinction by DOC Using output from proces [Extinc_VLG ] [Chlfa ] Chlorophyll-a concentration using default value: 0.00000 [SW_Uitz ] Extinction by Uitzicht On (1) or Off (0) using default value: 0.00000 [UitZDEPT1 ] Z1 (depth) using default value: 1.20000 [UitZDEPT2 ] Z2 (depth) using default value: 1.000000 [UitZCORCH ] CORa correction factor using default value: 2.50000 [UitZC_DET ] C3 coeff. absorption ash weight & detritus using default value: 0.260000E-01 [UitZC_GL1 ] C1 coeff. absorption ash weight & detritus using default value: 0.730000 [UitZC_GL2 ] C2 coeff. absorption ash weight & detritus using default value: 1.000000 [UitZHELHM ] Hel_h constant using default value: 0.140000E-01 [UitZTAU ] Tau constant calculation transparency using default value: 7.80000 [UitZangle ] Angle of incidence solar radiation using default value: 30.0000 [DMCFDetC ] DM:C ratio DetC using default value: 2.50000 [PAConstant ] Poole-Atkins constant Using constant nr447 with value: 1.70000 Input for [CONSBL ] Grazing module [DELT ] timestep for processes Using DELWAQ timestep in days [Volume ] volume of computational cell Using DELWAQ volume [Temp ] ambient water temperature Using function nr 11 [Depth ] depth of segment Using output from proces [DynDepth ] [SWDetTyp ] option for POX (value must not be changed) Using constant nr328 with value: 1.000000 [Zooplank ] input concentration of zooplankton-grazer1 Using segment function nr 4 [CZooplank ] calculated concentration of zooplankton-grazer1 Using output from proces [CONSBL ] [ZDETFF ] Faecal fraction for detritus of Zooplank Using constant nr258 with value: 0.500000 [ZDETPR ] Preference of Zooplank for detritus Using constant nr259 with value: 0.500000E-01 [ZGRZFM ] Max. filtration velocity Zooplank Using constant nr260 with value: 1.50000 [ZGRZGM ] Max. relative growth rate Zooplank Using constant nr261 with value: 0.500000 [ZGRZML ] Mult. factor for biomass Zooplank Using constant nr262 with value: 1.000000 [ZGRZMM ] Max. relative mortality Zooplank Using constant nr263 with value: 0.500000 [ZGRZMO ] Monod term filtration rate Zooplank Using constant nr264 with value: 0.100000E+00 [ZGRZRE ] Maintenance respiration coefficient Zooplank Using constant nr265 with value: 0.250000 [ZGRZRM ] Max. daily uptake Zooplank Using constant nr266 with value: 1.50000 [ZGRZSE ] Standard respiration coefficient Zooplank Using constant nr267 with value: 0.500000E-01 [ZFrDetBot ] Fract. produced detritus to bottom Zooplank using default value: 0.00000 [ZGRZSTC ] C:C ratio Zooplank Using constant nr268 with value: 1.000000 [ZGRZSTN ] N:C ratio Zooplank Using constant nr269 with value: 0.181800 [ZGRZSTP ] P:C ratio Zooplank Using constant nr270 with value: 0.263000E-01 [ZGRZSTSi ] Si:C ratio Zooplank Using constant nr271 with value: 0.00000 [ZTMPFM ] temperature coefficient Zooplank filtration Using constant nr272 with value: 0.400000E-01 [ZTMPGM ] temperature coefficient Zooplank growth Using constant nr273 with value: 0.400000E-01 [ZTMPMM ] temperature coefficient Zooplank mortality Using constant nr274 with value: 0.400000E-01 [ZTMPRE ] temperature coefficient Zooplank routine metabol. Using constant nr275 with value: 0.400000E-01 [ZTMPRM ] temperature coefficient Zooplank feeding rate Using constant nr276 with value: 0.400000E-01 [ZTMPSE ] temperature coefficient Zooplank standard metabol. Using constant nr277 with value: 0.400000E-01 [ZUnitSW ] Use gC/m3 (0) or gC/m2 (1) for Zooplankton Using constant nr278 with value: 0.00000 [Mussel ] input concentration of Mussel Using segment function nr 5 [CMussel ] calculated concentration of mussel-grazer2 Using output from proces [CONSBL ] [MDETFF ] Faecal fraction for detritus of Mussel Using constant nr307 with value: 0.500000 [MDETPR ] Preference of Mussel for detritus Using constant nr308 with value: 1.000000 [MGRZFM ] maximum filtration velocity Mussel Using constant nr309 with value: 0.500000E-01 [MGRZGM ] maximum relative growth rate Mussel Using constant nr310 with value: 0.200000 [MGRZML ] multiplication factor for biomass Mussel Using constant nr311 with value: 1.000000 [MGRZMM ] maximum relative mortality Mussel Using constant nr312 with value: 0.200000 [MGRZMO ] Monod term filtration rate Mussel Using constant nr313 with value: 0.100000E+00 [MGRZRE ] Maintenance respiration coefficient Mussel Using constant nr314 with value: 0.200000 [MGRZRM ] maximum daily uptake Mussel Using constant nr315 with value: 0.100000E+00 [MGRZSE ] Standard respiration coefficient Mussel Using constant nr316 with value: 0.500000E-02 [MFrDetBot ] Fract. produced detritus to bottom Mussel using default value: 1.000000 [MGRZSTC ] C:C ratio Mussel Using constant nr317 with value: 1.000000 [MGRZSTN ] N:C ratio Mussel Using constant nr318 with value: 0.181800 [MGRZSTP ] P:C ratio Mussel Using constant nr319 with value: 0.263000E-01 [MGRZSTSi ] Si:C ratio Mussel Using constant nr320 with value: 0.00000 [MTMPFM ] temperature coefficient Mussel filtration Using constant nr321 with value: 0.400000E-01 [MTMPGM ] temperature coefficient Mussel growth Using constant nr322 with value: 0.400000E-01 [MTMPMM ] temperature coefficient Mussel mortality Using constant nr323 with value: 0.400000E-01 [MTMPRE ] temperature coefficient Mussel routine metabol. Using constant nr324 with value: 0.400000E-01 [MTMPRM ] temperature coefficient Mussel feeding rate Using constant nr325 with value: 0.400000E-01 [MTMPSE ] temperature coefficient Mussel standard metabol. Using constant nr326 with value: 0.400000E-01 [MUnitSW ] Use gC/m3 (0) or gC/m2 (1) for Mussels Using constant nr327 with value: 0.00000 [Grazer3 ] input concentration of Grazer3 using default value: 0.00000 [CGrazer3 ] calculated concentration of Grazer3 Using output from proces [CONSBL ] [G3DETFF ] Faecal fraction for detritus of grazer 3 using default value: 0.500000 [G3DETPR ] Preference of grazer 3 for detritus using default value: 1.000000 [G3GRZFM ] Maximum filtration velocity grazer 3 using default value: 1.50000 [G3GRZGM ] Maximum relative growth rate grazer 3 using default value: 0.500000 [G3GRZML ] Multiplication factor for biomass grazer 3 using default value: 1.000000 [G3GRZMM ] Maximum relative mortality grazer 3 using default value: 0.500000 [G3GRZMO ] Monod term filtration rate grazer 3 using default value: 0.100000E+00 [G3GRZRE ] Maintenance respiration coefficient grazer 3 using default value: 0.250000 [G3GRZRM ] Maximum daily uptake grazer 3 using default value: 1.50000 [G3GRZSE ] Standard respiration coefficient grazer 3 using default value: 0.500000E-01 [G3FrDetBot ] Fract. produced detritus to bottom grazer 3 using default value: 0.00000 [G3GRZSTC ] C:C ratio grazer 3 using default value: 1.000000 [G3GRZSTN ] N:C ratio grazer 3 using default value: 0.181800 [G3GRZSTP ] P:C ratio grazer 3 using default value: 0.263000E-01 [G3GRZSTSi ] Si:C ratio grazer 3 using default value: 0.00000 [G3TMPFM ] temperature coefficient grazer 3 filtration using default value: 0.400000E-01 [G3TMPGM ] temperature coefficient grazer 3 growth using default value: 0.400000E-01 [G3TMPMM ] temperature coefficient grazer 3 mortality using default value: 0.400000E-01 [G3TMPRE ] temperature coefficient grazer 3 routine metabol. using default value: 0.400000E-01 [G3TMPRM ] temperature coefficient grazer 3 feeding rate using default value: 0.400000E-01 [G3TMPSE ] temperature coefficient grazer 3 standard metabol. using default value: 0.400000E-01 [G3UnitSW ] Use gC/m3 (0) or gC/m2 (1) for Grazer 3 using default value: 0.00000 [Grazer4 ] input concentration of Grazer4 using default value: 0.00000 [CGrazer4 ] calculated concentration of Grazer4 Using output from proces [CONSBL ] [G4DETFF ] Faecal fraction for detritus of grazer 4 using default value: 0.500000 [G4DETPR ] Preference of grazer 4 for detritus using default value: 1.000000 [G4GRZFM ] Maximum filtration velocity grazer 4 using default value: 1.50000 [G4GRZGM ] Maximum relative growth rate grazer 4 using default value: 0.500000 [G4GRZML ] Multiplication factor for biomass grazer 4 using default value: 1.000000 [G4GRZMM ] Maximum relative mortality grazer 4 using default value: 0.500000 [G4GRZMO ] Monod term filtration rate grazer 4 using default value: 0.100000E+00 [G4GRZRE ] Maintenance respiration coefficient grazer 4 using default value: 0.250000 [G4GRZRM ] Maximum daily uptake grazer 4 using default value: 1.50000 [G4GRZSE ] Standard respiration coefficient grazer 4 using default value: 0.500000E-01 [G4FrDetBot ] Fract. produced detritus to bottom grazer 4 using default value: 0.00000 [G4GRZSTC ] C:C ratio grazer 4 using default value: 1.000000 [G4GRZSTN ] N:C ratio grazer 4 using default value: 0.181800 [G4GRZSTP ] P:C ratio grazer 4 using default value: 0.263000E-01 [G4GRZSTSi ] Si:C ratio grazer 4 using default value: 0.00000 [G4TMPFM ] temperature coefficient grazer 4 filtration using default value: 0.400000E-01 [G4TMPGM ] temperature coefficient grazer 4 growth using default value: 0.400000E-01 [G4TMPMM ] temperature coefficient grazer 4 mortality using default value: 0.400000E-01 [G4TMPRE ] temperature coefficient grazer 4 routine metabol. using default value: 0.400000E-01 [G4TMPRM ] temperature coefficient grazer 4 feeding rate using default value: 0.400000E-01 [G4TMPSE ] temperature coefficient grazer 4 standard metabol. using default value: 0.400000E-01 [G4UnitSW ] Use gC/m3 (0) or gC/m2 (1) for Grazer 4 using default value: 0.00000 [Grazer5 ] input concentration of Grazer5 using default value: 0.00000 [CGrazer5 ] calculated concentration of Grazer5 Using output from proces [CONSBL ] [G5DETFF ] Faecal fraction for detritus of grazer 5 using default value: 0.500000 [G5DETPR ] Preference of grazer 5 for detritus using default value: 1.000000 [G5GRZFM ] Maximum filtration velocity grazer 5 using default value: 1.50000 [G5GRZGM ] Maximum relative growth rate grazer 5 using default value: 0.500000 [G5GRZML ] Multiplication factor for biomass grazer 5 using default value: 1.000000 [G5GRZMM ] Maximum relative mortality grazer 5 using default value: 0.500000 [G5GRZMO ] Monod term filtration rate grazer 5 using default value: 0.100000E+00 [G5GRZRE ] Maintenance respiration coefficient grazer 5 using default value: 0.250000 [G5GRZRM ] Maximum daily uptake grazer 5 using default value: 1.50000 [G5GRZSE ] Standard respiration coefficient grazer 5 using default value: 0.500000E-01 [G5FrDetBot ] Fract. produced detritus to bottom grazer 5 using default value: 0.00000 [G5GRZSTC ] C:C ratio grazer 5 using default value: 1.000000 [G5GRZSTN ] N:C ratio grazer 5 using default value: 0.181800 [G5GRZSTP ] P:C ratio grazer 5 using default value: 0.263000E-01 [G5GRZSTSi ] Si:C ratio grazer 5 using default value: 0.00000 [G5TMPFM ] temperature coefficient grazer 5 filtration using default value: 0.400000E-01 [G5TMPGM ] temperature coefficient grazer 5 growth using default value: 0.400000E-01 [G5TMPMM ] temperature coefficient grazer 5 mortality using default value: 0.400000E-01 [G5TMPRE ] temperature coefficient grazer 5 routine metabol. using default value: 0.400000E-01 [G5TMPRM ] temperature coefficient grazer 5 feeding rate using default value: 0.400000E-01 [G5TMPSE ] temperature coefficient grazer 5 standard metabol. using default value: 0.400000E-01 [G5UnitSW ] Use gC/m3 (0) or gC/m2 (1) for Grazer 5 using default value: 0.00000 [DetC ] Detritus Carbon (DetC) using default value: 0.00000 [DetN ] Detritus Nitrogen (DetN) using default value: 0.00000 [DetP ] Detritus Phosphorus (DetP) using default value: 0.00000 [DetSi ] Detritus Silica (DetSi) using default value: 0.00000 [POC1 ] POC1 (fast decomposing fraction) Using substance nr 20 [PON1 ] PON1 (fast decomposing fraction) Using substance nr 25 [POP1 ] POP1 (fast decomposing fraction) Using substance nr 30 [Opal ] Opal-Si Using substance nr 15 [Green ] Algae (non-Diatoms) using default value: 0.00000 [Diat ] Diatoms using default value: 0.00000 [BLOOMALG01 ] concentration of algae type 1 using default value: -101.000 [BLOOMALG02 ] concentration of algae type 2 using default value: -101.000 [BLOOMALG03 ] concentration of algae type 3 using default value: -101.000 [BLOOMALG04 ] concentration of algae type 4 using default value: -101.000 [BLOOMALG05 ] concentration of algae type 5 using default value: -101.000 [BLOOMALG06 ] concentration of algae type 6 using default value: -101.000 [BLOOMALG07 ] concentration of algae type 7 using default value: -101.000 [BLOOMALG08 ] concentration of algae type 8 using default value: -101.000 [BLOOMALG09 ] concentration of algae type 9 using default value: -101.000 [BLOOMALG10 ] concentration of algae type 10 using default value: -101.000 [BLOOMALG11 ] concentration of algae type 11 using default value: -101.000 [BLOOMALG12 ] concentration of algae type 12 using default value: -101.000 [BLOOMALG13 ] concentration of algae type 13 using default value: -101.000 [BLOOMALG14 ] concentration of algae type 14 using default value: -101.000 [BLOOMALG15 ] concentration of algae type 15 using default value: -101.000 [BLOOMALG16 ] concentration of algae type 16 using default value: -101.000 [BLOOMALG17 ] concentration of algae type 17 using default value: -101.000 [BLOOMALG18 ] concentration of algae type 18 using default value: -101.000 [BLOOMALG19 ] concentration of algae type 19 using default value: -101.000 [BLOOMALG20 ] concentration of algae type 20 using default value: -101.000 [BLOOMALG21 ] concentration of algae type 21 using default value: -101.000 [BLOOMALG22 ] concentration of algae type 22 using default value: -101.000 [BLOOMALG23 ] concentration of algae type 23 using default value: -101.000 [BLOOMALG24 ] concentration of algae type 24 using default value: -101.000 [BLOOMALG25 ] concentration of algae type 25 using default value: -101.000 [BLOOMALG26 ] concentration of algae type 26 using default value: -101.000 [BLOOMALG27 ] concentration of algae type 27 using default value: -101.000 [BLOOMALG28 ] concentration of algae type 28 using default value: -101.000 [BLOOMALG29 ] concentration of algae type 29 using default value: -101.000 [BLOOMALG30 ] concentration of algae type 30 using default value: -101.000 [NCRatGreen ] N:C ratio Greens using default value: 0.160000 [NCRatDiat ] N:C ratio Diatoms using default value: 0.160000 [NCRAlg01 ] N:C ratio algae type 01 using default value: 0.200000 [NCRAlg02 ] N:C ratio algae type 02 using default value: 0.200000 [NCRAlg03 ] N:C ratio algae type 03 using default value: 0.200000 [NCRAlg04 ] N:C ratio algae type 04 using default value: 0.200000 [NCRAlg05 ] N:C ratio algae type 05 using default value: 0.200000 [NCRAlg06 ] N:C ratio algae type 06 using default value: 0.200000 [NCRAlg07 ] N:C ratio algae type 07 using default value: 0.200000 [NCRAlg08 ] N:C ratio algae type 08 using default value: 0.200000 [NCRAlg09 ] N:C ratio algae type 09 using default value: 0.200000 [NCRAlg10 ] N:C ratio algae type 10 using default value: 0.200000 [NCRAlg11 ] N:C ratio algae type 11 using default value: 0.200000 [NCRAlg12 ] N:C ratio algae type 12 using default value: 0.200000 [NCRAlg13 ] N:C ratio algae type 13 using default value: 0.200000 [NCRAlg14 ] N:C ratio algae type 14 using default value: 0.200000 [NCRAlg15 ] N:C ratio algae type 15 using default value: 0.200000 [NCRAlg16 ] N:C ratio algae type 16 using default value: 0.200000 [NCRAlg17 ] N:C ratio algae type 17 using default value: 0.200000 [NCRAlg18 ] N:C ratio algae type 18 using default value: 0.200000 [NCRAlg19 ] N:C ratio algae type 19 using default value: 0.200000 [NCRAlg20 ] N:C ratio algae type 20 using default value: 0.200000 [NCRAlg21 ] N:C ratio algae type 21 using default value: 0.200000 [NCRAlg22 ] N:C ratio algae type 22 using default value: 0.200000 [NCRAlg23 ] N:C ratio algae type 23 using default value: 0.200000 [NCRAlg24 ] N:C ratio algae type 24 using default value: 0.200000 [NCRAlg25 ] N:C ratio algae type 25 using default value: 0.200000 [NCRAlg26 ] N:C ratio algae type 26 using default value: 0.200000 [NCRAlg27 ] N:C ratio algae type 27 using default value: 0.200000 [NCRAlg28 ] N:C ratio algae type 28 using default value: 0.200000 [NCRAlg29 ] N:C ratio algae type 29 using default value: 0.200000 [NCRAlg30 ] N:C ratio algae type 30 using default value: 0.200000 [PCRatGreen ] P:C ratio Greens using default value: 0.200000E-01 [PCRatDiat ] P:C ratio Diatoms using default value: 0.200000E-01 [PCRAlg01 ] P:C ratio algae type 01 using default value: 0.200000E-01 [PCRAlg02 ] P:C ratio algae type 02 using default value: 0.200000E-01 [PCRAlg03 ] P:C ratio algae type 03 using default value: 0.200000E-01 [PCRAlg04 ] P:C ratio algae type 04 using default value: 0.200000E-01 [PCRAlg05 ] P:C ratio algae type 05 using default value: 0.200000E-01 [PCRAlg06 ] P:C ratio algae type 06 using default value: 0.200000E-01 [PCRAlg07 ] P:C ratio algae type 07 using default value: 0.200000E-01 [PCRAlg08 ] P:C ratio algae type 08 using default value: 0.200000E-01 [PCRAlg09 ] P:C ratio algae type 09 using default value: 0.200000E-01 [PCRAlg10 ] P:C ratio algae type 10 using default value: 0.200000E-01 [PCRAlg11 ] P:C ratio algae type 11 using default value: 0.200000E-01 [PCRAlg12 ] P:C ratio algae type 12 using default value: 0.200000E-01 [PCRAlg13 ] P:C ratio algae type 13 using default value: 0.200000E-01 [PCRAlg14 ] P:C ratio algae type 14 using default value: 0.200000E-01 [PCRAlg15 ] P:C ratio algae type 15 using default value: 0.200000E-01 [PCRAlg16 ] P:C ratio algae type 16 using default value: 0.200000E-01 [PCRAlg17 ] P:C ratio algae type 17 using default value: 0.200000E-01 [PCRAlg18 ] P:C ratio algae type 18 using default value: 0.200000E-01 [PCRAlg19 ] P:C ratio algae type 19 using default value: 0.200000E-01 [PCRAlg20 ] P:C ratio algae type 20 using default value: 0.200000E-01 [PCRAlg21 ] P:C ratio algae type 21 using default value: 0.200000E-01 [PCRAlg22 ] P:C ratio algae type 22 using default value: 0.200000E-01 [PCRAlg23 ] P:C ratio algae type 23 using default value: 0.200000E-01 [PCRAlg24 ] P:C ratio algae type 24 using default value: 0.200000E-01 [PCRAlg25 ] P:C ratio algae type 25 using default value: 0.200000E-01 [PCRAlg26 ] P:C ratio algae type 26 using default value: 0.200000E-01 [PCRAlg27 ] P:C ratio algae type 27 using default value: 0.200000E-01 [PCRAlg28 ] P:C ratio algae type 28 using default value: 0.200000E-01 [PCRAlg29 ] P:C ratio algae type 29 using default value: 0.200000E-01 [PCRAlg30 ] P:C ratio algae type 30 using default value: 0.200000E-01 [SCRatGreen ] Si:C ratio Greens using default value: 0.00000 [SCRatDiat ] Si:C ratio Diatoms using default value: 0.490000 [SCRAlg01 ] Si:C ratio algae type 01 using default value: 0.200000E-02 [SCRAlg02 ] Si:C ratio algae type 02 using default value: 0.200000E-02 [SCRAlg03 ] Si:C ratio algae type 03 using default value: 0.200000E-02 [SCRAlg04 ] Si:C ratio algae type 04 using default value: 0.200000E-02 [SCRAlg05 ] Si:C ratio algae type 05 using default value: 0.200000E-02 [SCRAlg06 ] Si:C ratio algae type 06 using default value: 0.200000E-02 [SCRAlg07 ] Si:C ratio algae type 07 using default value: 0.200000E-02 [SCRAlg08 ] Si:C ratio algae type 08 using default value: 0.200000E-02 [SCRAlg09 ] Si:C ratio algae type 09 using default value: 0.200000E-02 [SCRAlg10 ] Si:C ratio algae type 10 using default value: 0.200000E-02 [SCRAlg11 ] Si:C ratio algae type 11 using default value: 0.200000E-02 [SCRAlg12 ] Si:C ratio algae type 12 using default value: 0.200000E-02 [SCRAlg13 ] Si:C ratio algae type 13 using default value: 0.200000E-02 [SCRAlg14 ] Si:C ratio algae type 14 using default value: 0.200000E-02 [SCRAlg15 ] Si:C ratio algae type 15 using default value: 0.200000E-02 [SCRAlg16 ] Si:C ratio algae type 16 using default value: 0.200000E-02 [SCRAlg17 ] Si:C ratio algae type 17 using default value: 0.200000E-02 [SCRAlg18 ] Si:C ratio algae type 18 using default value: 0.200000E-02 [SCRAlg19 ] Si:C ratio algae type 19 using default value: 0.200000E-02 [SCRAlg20 ] Si:C ratio algae type 20 using default value: 0.200000E-02 [SCRAlg21 ] Si:C ratio algae type 21 using default value: 0.200000E-02 [SCRAlg22 ] Si:C ratio algae type 22 using default value: 0.200000E-02 [SCRAlg23 ] Si:C ratio algae type 23 using default value: 0.200000E-02 [SCRAlg24 ] Si:C ratio algae type 24 using default value: 0.200000E-02 [SCRAlg25 ] Si:C ratio algae type 25 using default value: 0.200000E-02 [SCRAlg26 ] Si:C ratio algae type 26 using default value: 0.200000E-02 [SCRAlg27 ] Si:C ratio algae type 27 using default value: 0.200000E-02 [SCRAlg28 ] Si:C ratio algae type 28 using default value: 0.200000E-02 [SCRAlg29 ] Si:C ratio algae type 29 using default value: 0.200000E-02 [SCRAlg30 ] Si:C ratio algae type 30 using default value: 0.200000E-02 [ZALGPRGrn ] Preference of Zooplank for Greens using default value: 1.000000 [ZALGPRDiat ] Preference of Zooplank for Diatoms using default value: 1.000000 [ZALGPR01 ] Preference of Zooplank for algae type 01 Using constant nr244 with value: 1.000000 [ZALGPR02 ] Preference of Zooplank for algae type 02 Using constant nr245 with value: 1.000000 [ZALGPR03 ] Preference of Zooplank for algae type 03 Using constant nr246 with value: 1.000000 [ZALGPR04 ] Preference of Zooplank for algae type 04 Using constant nr247 with value: 1.000000 [ZALGPR05 ] Preference of Zooplank for algae type 05 Using constant nr248 with value: 1.000000 [ZALGPR06 ] Preference of Zooplank for algae type 06 Using constant nr249 with value: 1.000000 [ZALGPR07 ] Preference of Zooplank for algae type 07 Using constant nr250 with value: 1.000000 [ZALGPR08 ] Preference of Zooplank for algae type 08 Using constant nr251 with value: 1.000000 [ZALGPR09 ] Preference of Zooplank for algae type 09 Using constant nr252 with value: 1.000000 [ZALGPR10 ] Preference of Zooplank for algae type 10 Using constant nr253 with value: 1.000000 [ZALGPR11 ] Preference of Zooplank for algae type 11 Using constant nr254 with value: 1.000000 [ZALGPR12 ] Preference of Zooplank for algae type 12 Using constant nr255 with value: 1.000000 [ZALGPR13 ] Preference of Zooplank for algae type 13 Using constant nr256 with value: 1.000000 [ZALGPR14 ] Preference of Zooplank for algae type 14 Using constant nr257 with value: 1.000000 [ZALGPR15 ] Preference of Zooplank for algae type 15 using default value: 1.000000 [ZALGPR16 ] Preference of Zooplank for algae type 16 using default value: 1.000000 [ZALGPR17 ] Preference of Zooplank for algae type 17 using default value: 1.000000 [ZALGPR18 ] Preference of Zooplank for algae type 18 using default value: 1.000000 [ZALGPR19 ] Preference of Zooplank for algae type 19 using default value: 1.000000 [ZALGPR20 ] Preference of Zooplank for algae type 20 using default value: 1.000000 [ZALGPR21 ] Preference of Zooplank for algae type 21 using default value: 1.000000 [ZALGPR22 ] Preference of Zooplank for algae type 22 using default value: 1.000000 [ZALGPR23 ] Preference of Zooplank for algae type 23 using default value: 1.000000 [ZALGPR24 ] Preference of Zooplank for algae type 24 using default value: 1.000000 [ZALGPR25 ] Preference of Zooplank for algae type 25 using default value: 1.000000 [ZALGPR26 ] Preference of Zooplank for algae type 26 using default value: 1.000000 [ZALGPR27 ] Preference of Zooplank for algae type 27 using default value: 1.000000 [ZALGPR28 ] Preference of Zooplank for algae type 28 using default value: 1.000000 [ZALGPR29 ] Preference of Zooplank for algae type 29 using default value: 1.000000 [ZALGPR30 ] Preference of Zooplank for algae type 30 using default value: 1.000000 [MALGPRGrn ] Preference of Mussel for Greens using default value: 1.000000 [MALGPRDiat ] Preference of Mussel for Diatoms using default value: 1.000000 [MALGPR01 ] Preference of Mussel for algae type 01 Using constant nr293 with value: 1.000000 [MALGPR02 ] Preference of Mussel for algae type 02 Using constant nr294 with value: 1.000000 [MALGPR03 ] Preference of Mussel for algae type 03 Using constant nr295 with value: 1.000000 [MALGPR04 ] Preference of Mussel for algae type 04 Using constant nr296 with value: 1.000000 [MALGPR05 ] Preference of Mussel for algae type 05 Using constant nr297 with value: 1.000000 [MALGPR06 ] Preference of Mussel for algae type 06 Using constant nr298 with value: 1.000000 [MALGPR07 ] Preference of Mussel for algae type 07 Using constant nr299 with value: 1.000000 [MALGPR08 ] Preference of Mussel for algae type 08 Using constant nr300 with value: 1.000000 [MALGPR09 ] Preference of Mussel for algae type 09 Using constant nr301 with value: 1.000000 [MALGPR10 ] Preference of Mussel for algae type 10 Using constant nr302 with value: 1.000000 [MALGPR11 ] Preference of Mussel for algae type 11 Using constant nr303 with value: 1.000000 [MALGPR12 ] Preference of Mussel for algae type 12 Using constant nr304 with value: 1.000000 [MALGPR13 ] Preference of Mussel for algae type 13 Using constant nr305 with value: 1.000000 [MALGPR14 ] Preference of Mussel for algae type 14 Using constant nr306 with value: 1.000000 [MALGPR15 ] Preference of Mussel for algae type 15 using default value: 1.000000 [MALGPR16 ] Preference of Mussel for algae type 16 using default value: 1.000000 [MALGPR17 ] Preference of Mussel for algae type 17 using default value: 1.000000 [MALGPR18 ] Preference of Mussel for algae type 18 using default value: 1.000000 [MALGPR19 ] Preference of Mussel for algae type 19 using default value: 1.000000 [MALGPR20 ] Preference of Mussel for algae type 20 using default value: 1.000000 [MALGPR21 ] Preference of Mussel for algae type 21 using default value: 1.000000 [MALGPR22 ] Preference of Mussel for algae type 22 using default value: 1.000000 [MALGPR23 ] Preference of Mussel for algae type 23 using default value: 1.000000 [MALGPR24 ] Preference of Mussel for algae type 24 using default value: 1.000000 [MALGPR25 ] Preference of Mussel for algae type 25 using default value: 1.000000 [MALGPR26 ] Preference of Mussel for algae type 26 using default value: 1.000000 [MALGPR27 ] Preference of Mussel for algae type 27 using default value: 1.000000 [MALGPR28 ] Preference of Mussel for algae type 28 using default value: 1.000000 [MALGPR29 ] Preference of Mussel for algae type 29 using default value: 1.000000 [MALGPR30 ] Preference of Mussel for algae type 30 using default value: 1.000000 [G3ALGPRGrn ] Preference of grazer 3 for Greens using default value: 1.000000 [G3ALGPRDia ] Preference of grazer 3 for Diatoms using default value: 1.000000 [G3ALGPR01 ] Preference of grazer 3 for algae type 01 using default value: 1.000000 [G3ALGPR02 ] Preference of grazer 3 for algae type 02 using default value: 1.000000 [G3ALGPR03 ] Preference of grazer 3 for algae type 03 using default value: 1.000000 [G3ALGPR04 ] Preference of grazer 3 for algae type 04 using default value: 1.000000 [G3ALGPR05 ] Preference of grazer 3 for algae type 05 using default value: 1.000000 [G3ALGPR06 ] Preference of grazer 3 for algae type 06 using default value: 1.000000 [G3ALGPR07 ] Preference of grazer 3 for algae type 07 using default value: 1.000000 [G3ALGPR08 ] Preference of grazer 3 for algae type 08 using default value: 1.000000 [G3ALGPR09 ] Preference of grazer 3 for algae type 09 using default value: 1.000000 [G3ALGPR10 ] Preference of grazer 3 for algae type 10 using default value: 1.000000 [G3ALGPR11 ] Preference of grazer 3 for algae type 11 using default value: 1.000000 [G3ALGPR12 ] Preference of grazer 3 for algae type 12 using default value: 1.000000 [G3ALGPR13 ] Preference of grazer 3 for algae type 13 using default value: 1.000000 [G3ALGPR14 ] Preference of grazer 3 for algae type 14 using default value: 1.000000 [G3ALGPR15 ] Preference of grazer 3 for algae type 15 using default value: 1.000000 [G3ALGPR16 ] Preference of grazer 3 for algae type 16 using default value: 1.000000 [G3ALGPR17 ] Preference of grazer 3 for algae type 17 using default value: 1.000000 [G3ALGPR18 ] Preference of grazer 3 for algae type 18 using default value: 1.000000 [G3ALGPR19 ] Preference of grazer 3 for algae type 19 using default value: 1.000000 [G3ALGPR20 ] Preference of grazer 3 for algae type 20 using default value: 1.000000 [G3ALGPR21 ] Preference of grazer 3 for algae type 21 using default value: 1.000000 [G3ALGPR22 ] Preference of grazer 3 for algae type 22 using default value: 1.000000 [G3ALGPR23 ] Preference of grazer 3 for algae type 23 using default value: 1.000000 [G3ALGPR24 ] Preference of grazer 3 for algae type 24 using default value: 1.000000 [G3ALGPR25 ] Preference of grazer 3 for algae type 25 using default value: 1.000000 [G3ALGPR26 ] Preference of grazer 3 for algae type 26 using default value: 1.000000 [G3ALGPR27 ] Preference of grazer 3 for algae type 27 using default value: 1.000000 [G3ALGPR28 ] Preference of grazer 3 for algae type 28 using default value: 1.000000 [G3ALGPR29 ] Preference of grazer 3 for algae type 29 using default value: 1.000000 [G3ALGPR30 ] Preference of grazer 3 for algae type 30 using default value: 1.000000 [G4ALGPRGrn ] Preference of grazer 4 for Greens using default value: 1.000000 [G4ALGPRDia ] Preference of grazer 4 for Diatoms using default value: 1.000000 [G4ALGPR01 ] Preference of grazer 4 for algae type 01 using default value: 1.000000 [G4ALGPR02 ] Preference of grazer 4 for algae type 02 using default value: 1.000000 [G4ALGPR03 ] Preference of grazer 4 for algae type 03 using default value: 1.000000 [G4ALGPR04 ] Preference of grazer 4 for algae type 04 using default value: 1.000000 [G4ALGPR05 ] Preference of grazer 4 for algae type 05 using default value: 1.000000 [G4ALGPR06 ] Preference of grazer 4 for algae type 06 using default value: 1.000000 [G4ALGPR07 ] Preference of grazer 4 for algae type 07 using default value: 1.000000 [G4ALGPR08 ] Preference of grazer 4 for algae type 08 using default value: 1.000000 [G4ALGPR09 ] Preference of grazer 4 for algae type 09 using default value: 1.000000 [G4ALGPR10 ] Preference of grazer 4 for algae type 10 using default value: 1.000000 [G4ALGPR11 ] Preference of grazer 4 for algae type 11 using default value: 1.000000 [G4ALGPR12 ] Preference of grazer 4 for algae type 12 using default value: 1.000000 [G4ALGPR13 ] Preference of grazer 4 for algae type 13 using default value: 1.000000 [G4ALGPR14 ] Preference of grazer 4 for algae type 14 using default value: 1.000000 [G4ALGPR15 ] Preference of grazer 4 for algae type 15 using default value: 1.000000 [G4ALGPR16 ] Preference of grazer 4 for algae type 16 using default value: 1.000000 [G4ALGPR17 ] Preference of grazer 4 for algae type 17 using default value: 1.000000 [G4ALGPR18 ] Preference of grazer 4 for algae type 18 using default value: 1.000000 [G4ALGPR19 ] Preference of grazer 4 for algae type 19 using default value: 1.000000 [G4ALGPR20 ] Preference of grazer 4 for algae type 20 using default value: 1.000000 [G4ALGPR21 ] Preference of grazer 4 for algae type 21 using default value: 1.000000 [G4ALGPR22 ] Preference of grazer 4 for algae type 22 using default value: 1.000000 [G4ALGPR23 ] Preference of grazer 4 for algae type 23 using default value: 1.000000 [G4ALGPR24 ] Preference of grazer 4 for algae type 24 using default value: 1.000000 [G4ALGPR25 ] Preference of grazer 4 for algae type 25 using default value: 1.000000 [G4ALGPR26 ] Preference of grazer 4 for algae type 26 using default value: 1.000000 [G4ALGPR27 ] Preference of grazer 4 for algae type 27 using default value: 1.000000 [G4ALGPR28 ] Preference of grazer 4 for algae type 28 using default value: 1.000000 [G4ALGPR29 ] Preference of grazer 4 for algae type 29 using default value: 1.000000 [G4ALGPR30 ] Preference of grazer 4 for algae type 30 using default value: 1.000000 [G5ALGPRGrn ] Preference of grazer 5 for Greens using default value: 1.000000 [G5ALGPRDia ] Preference of grazer 5 for Diatoms using default value: 1.000000 [G5ALGPR01 ] Preference of grazer 5 for algae type 01 using default value: 1.000000 [G5ALGPR02 ] Preference of grazer 5 for algae type 02 using default value: 1.000000 [G5ALGPR03 ] Preference of grazer 5 for algae type 03 using default value: 1.000000 [G5ALGPR04 ] Preference of grazer 5 for algae type 04 using default value: 1.000000 [G5ALGPR05 ] Preference of grazer 5 for algae type 05 using default value: 1.000000 [G5ALGPR06 ] Preference of grazer 5 for algae type 06 using default value: 1.000000 [G5ALGPR07 ] Preference of grazer 5 for algae type 07 using default value: 1.000000 [G5ALGPR08 ] Preference of grazer 5 for algae type 08 using default value: 1.000000 [G5ALGPR09 ] Preference of grazer 5 for algae type 09 using default value: 1.000000 [G5ALGPR10 ] Preference of grazer 5 for algae type 10 using default value: 1.000000 [G5ALGPR11 ] Preference of grazer 5 for algae type 11 using default value: 1.000000 [G5ALGPR12 ] Preference of grazer 5 for algae type 12 using default value: 1.000000 [G5ALGPR13 ] Preference of grazer 5 for algae type 13 using default value: 1.000000 [G5ALGPR14 ] Preference of grazer 5 for algae type 14 using default value: 1.000000 [G5ALGPR15 ] Preference of grazer 5 for algae type 15 using default value: 1.000000 [G5ALGPR16 ] Preference of grazer 5 for algae type 16 using default value: 1.000000 [G5ALGPR17 ] Preference of grazer 5 for algae type 17 using default value: 1.000000 [G5ALGPR18 ] Preference of grazer 5 for algae type 18 using default value: 1.000000 [G5ALGPR19 ] Preference of grazer 5 for algae type 19 using default value: 1.000000 [G5ALGPR20 ] Preference of grazer 5 for algae type 20 using default value: 1.000000 [G5ALGPR21 ] Preference of grazer 5 for algae type 21 using default value: 1.000000 [G5ALGPR22 ] Preference of grazer 5 for algae type 22 using default value: 1.000000 [G5ALGPR23 ] Preference of grazer 5 for algae type 23 using default value: 1.000000 [G5ALGPR24 ] Preference of grazer 5 for algae type 24 using default value: 1.000000 [G5ALGPR25 ] Preference of grazer 5 for algae type 25 using default value: 1.000000 [G5ALGPR26 ] Preference of grazer 5 for algae type 26 using default value: 1.000000 [G5ALGPR27 ] Preference of grazer 5 for algae type 27 using default value: 1.000000 [G5ALGPR28 ] Preference of grazer 5 for algae type 28 using default value: 1.000000 [G5ALGPR29 ] Preference of grazer 5 for algae type 29 using default value: 1.000000 [G5ALGPR30 ] Preference of grazer 5 for algae type 30 using default value: 1.000000 [ZALGFFGrn ] Faecal fraction Greens for Zooplank using default value: 0.500000 [ZALGFFDiat ] Faecal fraction Diatoms for Zooplank using default value: 0.500000 [ZALGFF01 ] Faecal fraction Alg01 for Zooplank Using constant nr230 with value: 0.500000 [ZALGFF02 ] Faecal fraction Alg02 for Zooplank Using constant nr231 with value: 0.500000 [ZALGFF03 ] Faecal fraction Alg03 for Zooplank Using constant nr232 with value: 0.500000 [ZALGFF04 ] Faecal fraction Alg04 for Zooplank Using constant nr233 with value: 0.500000 [ZALGFF05 ] Faecal fraction Alg05 for Zooplank Using constant nr234 with value: 0.500000 [ZALGFF06 ] Faecal fraction Alg06 for Zooplank Using constant nr235 with value: 0.500000 [ZALGFF07 ] Faecal fraction Alg07 for Zooplank Using constant nr236 with value: 0.500000 [ZALGFF08 ] Faecal fraction Alg08 for Zooplank Using constant nr237 with value: 0.500000 [ZALGFF09 ] Faecal fraction Alg09 for Zooplank Using constant nr238 with value: 0.500000 [ZALGFF10 ] Faecal fraction Alg10 for Zooplank Using constant nr239 with value: 0.500000 [ZALGFF11 ] Faecal fraction Alg11 for Zooplank Using constant nr240 with value: 0.500000 [ZALGFF12 ] Faecal fraction Alg12 for Zooplank Using constant nr241 with value: 0.500000 [ZALGFF13 ] Faecal fraction Alg13 for Zooplank Using constant nr242 with value: 0.500000 [ZALGFF14 ] Faecal fraction Alg14 for Zooplank Using constant nr243 with value: 0.500000 [ZALGFF15 ] Faecal fraction Alg15 for Zooplank using default value: 0.500000 [ZALGFF16 ] Faecal fraction Alg16 for Zooplank using default value: 0.500000 [ZALGFF17 ] Faecal fraction Alg17 for Zooplank using default value: 0.500000 [ZALGFF18 ] Faecal fraction Alg18 for Zooplank using default value: 0.500000 [ZALGFF19 ] Faecal fraction Alg19 for Zooplank using default value: 0.500000 [ZALGFF20 ] Faecal fraction Alg20 for Zooplank using default value: 0.500000 [ZALGFF21 ] Faecal fraction Alg21 for Zooplank using default value: 0.500000 [ZALGFF22 ] Faecal fraction Alg22 for Zooplank using default value: 0.500000 [ZALGFF23 ] Faecal fraction Alg23 for Zooplank using default value: 0.500000 [ZALGFF24 ] Faecal fraction Alg24 for Zooplank using default value: 0.500000 [ZALGFF25 ] Faecal fraction Alg25 for Zooplank using default value: 0.500000 [ZALGFF26 ] Faecal fraction Alg26 for Zooplank using default value: 0.500000 [ZALGFF27 ] Faecal fraction Alg27 for Zooplank using default value: 0.500000 [ZALGFF28 ] Faecal fraction Alg28 for Zooplank using default value: 0.500000 [ZALGFF29 ] Faecal fraction Alg29 for Zooplank using default value: 0.500000 [ZALGFF30 ] Faecal fraction Alg30 for Zooplank using default value: 0.500000 [MALGFFGrn ] Faecal fraction Greens for Mussel using default value: 0.500000 [MALGFFDiat ] Faecal fraction Diatoms for Mussel using default value: 0.500000 [MALGFF01 ] Faecal fraction Alg01 for Mussel Using constant nr279 with value: 0.500000 [MALGFF02 ] Faecal fraction Alg02 for Mussel Using constant nr280 with value: 0.500000 [MALGFF03 ] Faecal fraction Alg03 for Mussel Using constant nr281 with value: 0.500000 [MALGFF04 ] Faecal fraction Alg04 for Mussel Using constant nr282 with value: 0.500000 [MALGFF05 ] Faecal fraction Alg05 for Mussel Using constant nr283 with value: 0.500000 [MALGFF06 ] Faecal fraction Alg06 for Mussel Using constant nr284 with value: 0.500000 [MALGFF07 ] Faecal fraction Alg07 for Mussel Using constant nr285 with value: 0.500000 [MALGFF08 ] Faecal fraction Alg08 for Mussel Using constant nr286 with value: 0.500000 [MALGFF09 ] Faecal fraction Alg09 for Mussel Using constant nr287 with value: 0.500000 [MALGFF10 ] Faecal fraction Alg10 for Mussel Using constant nr288 with value: 0.500000 [MALGFF11 ] Faecal fraction Alg11 for Mussel Using constant nr289 with value: 0.500000 [MALGFF12 ] Faecal fraction Alg12 for Mussel Using constant nr290 with value: 0.500000 [MALGFF13 ] Faecal fraction Alg13 for Mussel Using constant nr291 with value: 0.500000 [MALGFF14 ] Faecal fraction Alg14 for Mussel Using constant nr292 with value: 0.500000 [MALGFF15 ] Faecal fraction Alg15 for Mussel using default value: 0.500000 [MALGFF16 ] Faecal fraction Alg16 for Mussel using default value: 0.500000 [MALGFF17 ] Faecal fraction Alg17 for Mussel using default value: 0.500000 [MALGFF18 ] Faecal fraction Alg18 for Mussel using default value: 0.500000 [MALGFF19 ] Faecal fraction Alg19 for Mussel using default value: 0.500000 [MALGFF20 ] Faecal fraction Alg20 for Mussel using default value: 0.500000 [MALGFF21 ] Faecal fraction Alg21 for Mussel using default value: 0.500000 [MALGFF22 ] Faecal fraction Alg22 for Mussel using default value: 0.500000 [MALGFF23 ] Faecal fraction Alg23 for Mussel using default value: 0.500000 [MALGFF24 ] Faecal fraction Alg24 for Mussel using default value: 0.500000 [MALGFF25 ] Faecal fraction Alg25 for Mussel using default value: 0.500000 [MALGFF26 ] Faecal fraction Alg26 for Mussel using default value: 0.500000 [MALGFF27 ] Faecal fraction Alg27 for Mussel using default value: 0.500000 [MALGFF28 ] Faecal fraction Alg28 for Mussel using default value: 0.500000 [MALGFF29 ] Faecal fraction Alg29 for Mussel using default value: 0.500000 [MALGFF30 ] Faecal fraction Alg30 for Mussel using default value: 0.500000 [G3ALGFFGrn ] Faecal fraction Greens for grazer 3 using default value: 0.500000 [G3ALGFFDia ] Faecal fraction Diatoms for grazer 3 using default value: 0.500000 [G3ALGFF01 ] Faecal fraction Alg01 for grazer 3 using default value: 0.500000 [G3ALGFF02 ] Faecal fraction Alg02 for grazer 3 using default value: 0.500000 [G3ALGFF03 ] Faecal fraction Alg03 for grazer 3 using default value: 0.500000 [G3ALGFF04 ] Faecal fraction Alg04 for grazer 3 using default value: 0.500000 [G3ALGFF05 ] Faecal fraction Alg05 for grazer 3 using default value: 0.500000 [G3ALGFF06 ] Faecal fraction Alg06 for grazer 3 using default value: 0.500000 [G3ALGFF07 ] Faecal fraction Alg07 for grazer 3 using default value: 0.500000 [G3ALGFF08 ] Faecal fraction Alg08 for grazer 3 using default value: 0.500000 [G3ALGFF09 ] Faecal fraction Alg09 for grazer 3 using default value: 0.500000 [G3ALGFF10 ] Faecal fraction Alg10 for grazer 3 using default value: 0.500000 [G3ALGFF11 ] Faecal fraction Alg11 for grazer 3 using default value: 0.500000 [G3ALGFF12 ] Faecal fraction Alg12 for grazer 3 using default value: 0.500000 [G3ALGFF13 ] Faecal fraction Alg13 for grazer 3 using default value: 0.500000 [G3ALGFF14 ] Faecal fraction Alg14 for grazer 3 using default value: 0.500000 [G3ALGFF15 ] Faecal fraction Alg15 for grazer 3 using default value: 0.500000 [G3ALGFF16 ] Faecal fraction Alg16 for grazer 3 using default value: 0.500000 [G3ALGFF17 ] Faecal fraction Alg17 for grazer 3 using default value: 0.500000 [G3ALGFF18 ] Faecal fraction Alg18 for grazer 3 using default value: 0.500000 [G3ALGFF19 ] Faecal fraction Alg19 for grazer 3 using default value: 0.500000 [G3ALGFF20 ] Faecal fraction Alg20 for grazer 3 using default value: 0.500000 [G3ALGFF21 ] Faecal fraction Alg21 for grazer 3 using default value: 0.500000 [G3ALGFF22 ] Faecal fraction Alg22 for grazer 3 using default value: 0.500000 [G3ALGFF23 ] Faecal fraction Alg23 for grazer 3 using default value: 0.500000 [G3ALGFF24 ] Faecal fraction Alg24 for grazer 3 using default value: 0.500000 [G3ALGFF25 ] Faecal fraction Alg25 for grazer 3 using default value: 0.500000 [G3ALGFF26 ] Faecal fraction Alg26 for grazer 3 using default value: 0.500000 [G3ALGFF27 ] Faecal fraction Alg27 for grazer 3 using default value: 0.500000 [G3ALGFF28 ] Faecal fraction Alg28 for grazer 3 using default value: 0.500000 [G3ALGFF29 ] Faecal fraction Alg29 for grazer 3 using default value: 0.500000 [G3ALGFF30 ] Faecal fraction Alg30 for grazer 3 using default value: 0.500000 [G4ALGFFGrn ] Faecal fraction Greens for grazer 4 using default value: 0.500000 [G4ALGFFDia ] Faecal fraction Diatoms for grazer 4 using default value: 0.500000 [G4ALGFF01 ] Faecal fraction Alg01 for grazer 4 using default value: 0.500000 [G4ALGFF02 ] Faecal fraction Alg02 for grazer 4 using default value: 0.500000 [G4ALGFF03 ] Faecal fraction Alg03 for grazer 4 using default value: 0.500000 [G4ALGFF04 ] Faecal fraction Alg04 for grazer 4 using default value: 0.500000 [G4ALGFF05 ] Faecal fraction Alg05 for grazer 4 using default value: 0.500000 [G4ALGFF06 ] Faecal fraction Alg06 for grazer 4 using default value: 0.500000 [G4ALGFF07 ] Faecal fraction Alg07 for grazer 4 using default value: 0.500000 [G4ALGFF08 ] Faecal fraction Alg08 for grazer 4 using default value: 0.500000 [G4ALGFF09 ] Faecal fraction Alg09 for grazer 4 using default value: 0.500000 [G4ALGFF10 ] Faecal fraction Alg10 for grazer 4 using default value: 0.500000 [G4ALGFF11 ] Faecal fraction Alg11 for grazer 4 using default value: 0.500000 [G4ALGFF12 ] Faecal fraction Alg12 for grazer 4 using default value: 0.500000 [G4ALGFF13 ] Faecal fraction Alg13 for grazer 4 using default value: 0.500000 [G4ALGFF14 ] Faecal fraction Alg14 for grazer 4 using default value: 0.500000 [G4ALGFF15 ] Faecal fraction Alg15 for grazer 4 using default value: 0.500000 [G4ALGFF16 ] Faecal fraction Alg16 for grazer 4 using default value: 0.500000 [G4ALGFF17 ] Faecal fraction Alg17 for grazer 4 using default value: 0.500000 [G4ALGFF18 ] Faecal fraction Alg18 for grazer 4 using default value: 0.500000 [G4ALGFF19 ] Faecal fraction Alg19 for grazer 4 using default value: 0.500000 [G4ALGFF20 ] Faecal fraction Alg20 for grazer 4 using default value: 0.500000 [G4ALGFF21 ] Faecal fraction Alg21 for grazer 4 using default value: 0.500000 [G4ALGFF22 ] Faecal fraction Alg22 for grazer 4 using default value: 0.500000 [G4ALGFF23 ] Faecal fraction Alg23 for grazer 4 using default value: 0.500000 [G4ALGFF24 ] Faecal fraction Alg24 for grazer 4 using default value: 0.500000 [G4ALGFF25 ] Faecal fraction Alg25 for grazer 4 using default value: 0.500000 [G4ALGFF26 ] Faecal fraction Alg26 for grazer 4 using default value: 0.500000 [G4ALGFF27 ] Faecal fraction Alg27 for grazer 4 using default value: 0.500000 [G4ALGFF28 ] Faecal fraction Alg28 for grazer 4 using default value: 0.500000 [G4ALGFF29 ] Faecal fraction Alg29 for grazer 4 using default value: 0.500000 [G4ALGFF30 ] Faecal fraction Alg30 for grazer 4 using default value: 0.500000 [G5ALGFFGrn ] Faecal fraction Greens for grazer 5 using default value: 0.500000 [G5ALGFFDia ] Faecal fraction Diatoms for grazer 5 using default value: 0.500000 [G5ALGFF01 ] Faecal fraction Alg01 for grazer 5 using default value: 0.500000 [G5ALGFF02 ] Faecal fraction Alg02 for grazer 5 using default value: 0.500000 [G5ALGFF03 ] Faecal fraction Alg03 for grazer 5 using default value: 0.500000 [G5ALGFF04 ] Faecal fraction Alg04 for grazer 5 using default value: 0.500000 [G5ALGFF05 ] Faecal fraction Alg05 for grazer 5 using default value: 0.500000 [G5ALGFF06 ] Faecal fraction Alg06 for grazer 5 using default value: 0.500000 [G5ALGFF07 ] Faecal fraction Alg07 for grazer 5 using default value: 0.500000 [G5ALGFF08 ] Faecal fraction Alg08 for grazer 5 using default value: 0.500000 [G5ALGFF09 ] Faecal fraction Alg09 for grazer 5 using default value: 0.500000 [G5ALGFF10 ] Faecal fraction Alg10 for grazer 5 using default value: 0.500000 [G5ALGFF11 ] Faecal fraction Alg11 for grazer 5 using default value: 0.500000 [G5ALGFF12 ] Faecal fraction Alg12 for grazer 5 using default value: 0.500000 [G5ALGFF13 ] Faecal fraction Alg13 for grazer 5 using default value: 0.500000 [G5ALGFF14 ] Faecal fraction Alg14 for grazer 5 using default value: 0.500000 [G5ALGFF15 ] Faecal fraction Alg15 for grazer 5 using default value: 0.500000 [G5ALGFF16 ] Faecal fraction Alg16 for grazer 5 using default value: 0.500000 [G5ALGFF17 ] Faecal fraction Alg17 for grazer 5 using default value: 0.500000 [G5ALGFF18 ] Faecal fraction Alg18 for grazer 5 using default value: 0.500000 [G5ALGFF19 ] Faecal fraction Alg19 for grazer 5 using default value: 0.500000 [G5ALGFF20 ] Faecal fraction Alg20 for grazer 5 using default value: 0.500000 [G5ALGFF21 ] Faecal fraction Alg21 for grazer 5 using default value: 0.500000 [G5ALGFF22 ] Faecal fraction Alg22 for grazer 5 using default value: 0.500000 [G5ALGFF23 ] Faecal fraction Alg23 for grazer 5 using default value: 0.500000 [G5ALGFF24 ] Faecal fraction Alg24 for grazer 5 using default value: 0.500000 [G5ALGFF25 ] Faecal fraction Alg25 for grazer 5 using default value: 0.500000 [G5ALGFF26 ] Faecal fraction Alg26 for grazer 5 using default value: 0.500000 [G5ALGFF27 ] Faecal fraction Alg27 for grazer 5 using default value: 0.500000 [G5ALGFF28 ] Faecal fraction Alg28 for grazer 5 using default value: 0.500000 [G5ALGFF29 ] Faecal fraction Alg29 for grazer 5 using default value: 0.500000 [G5ALGFF30 ] Faecal fraction Alg30 for grazer 5 using default value: 0.500000 Input for [TrSe2_Opal ] Total of transport in sediment for Opal [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_APAT ] Total of transport in sediment for APATP [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_VIVP ] Total of transport in sediment for VIVP [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_Si ] Total of transport in sediment for Si [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_AAP ] Total of transport in sediment for AAP [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_Cl ] Total of transport in sediment for Cl [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_IM2 ] Total of transport in sediment for IM2 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_SUP ] Total of transport in sediment for SUP [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_SUD ] Total of transport in sediment for SUD [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_CH4 ] Total of transport in sediment for CH4 [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_SO4 ] Total of transport in sediment for SO4 [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_NO3 ] Total of transport in sediment for NO3 [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_PO4 ] Total of transport in sediment for PO4 [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_NH4 ] Total of transport in sediment for NH4 [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_dis ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_DOS ] Total of transport in sediment for DOS [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrAllDOC ] substance in DOC phase using default value: 1.000000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_DOP ] Total of transport in sediment for DOP [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrAllDOC ] substance in DOC phase using default value: 1.000000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_DON ] Total of transport in sediment for DON [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrAllDOC ] substance in DOC phase using default value: 1.000000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_DOC ] Total of transport in sediment for DOC [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrAllDOC ] substance in DOC phase using default value: 1.000000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POS4 ] Total of transport in sediment for POS4 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POS3 ] Total of transport in sediment for POS3 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POS2 ] Total of transport in sediment for POS2 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POS1 ] Total of transport in sediment for POS1 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POP4 ] Total of transport in sediment for POP4 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_PON4 ] Total of transport in sediment for PON4 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POC4 ] Total of transport in sediment for POC4 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POP3 ] Total of transport in sediment for POP3 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POP2 ] Total of transport in sediment for POP2 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POP1 ] Total of transport in sediment for POP1 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_PON3 ] Total of transport in sediment for PON3 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_PON2 ] Total of transport in sediment for PON2 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_PON1 ] Total of transport in sediment for PON1 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POC3 ] Total of transport in sediment for POC3 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POC2 ] Total of transport in sediment for POC2 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TrSe2_POC1 ] Total of transport in sediment for POC1 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_OXY ] Total of transport in sediment for OXY [FrAllDis ] substance in dis phase using default value: 1.000000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [XtrDsp_OXY ] extra diffusion factor during emersion DO using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [TraSe2_IM1 ] Total of transport in sediment for IM1 [FrNonDis ] substance not in dis phase using default value: 0.00000 [FrNonDOC ] substance not in DOC phase using default value: 0.00000 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [xtrdsp_non ] extra diffusion factor during emersion using default value: 1.000000 [VxRes0 ] resuspension velocity Using output from proces [AdvTra ] [VxSedDum ] sedimentation velocity dummy using default value: 0.00000 [VxBur0 ] burial velocity Using output from proces [AdvTra ] [VxTur0 ] bio-turbation velocities Using output from proces [DSPTra ] [VxDif0 ] bio-irrigation velocities Using output from proces [DSPTra ] [VxSep0 ] seepage velocity Using output from proces [AdvTra ] Input for [DSPTra ] Dispersion/diffusion in the sediment [ActTh ] actual thickness total sediment layer Using output from proces [DMVolume ] [Diflen ] thickness of laminar layer Using constant nr437 with value: 0.500000E-03 [Poros ] volumetric porosity Using output from proces [DMVolume ] [TurCoef ] bioturbation at lower interface Using segment function nr 1 [DifCoef ] diffusion constant at upper interface Using segment function nr 2 Input for [AdvTra ] Advective transport of solids in sediment [TPM ] total particulate matter (including algae) Using output from proces [Compos ] [fSedDM ] total sedimentation flux dry matter Using output from proces [Sum_Sedim ] [ZResDM ] zeroth-order resuspension flux Using constant nr432 with value: 0.00000 [VBurDM ] first order burial rate using default value: 0.00000 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TauCrDM ] critical shear stress for resuspension DM Using constant nr433 with value: 0.200000 [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [Depth ] depth of segment Using output from proces [DynDepth ] [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [ActTh ] actual thickness total sediment layer Using output from proces [DMVolume ] [MinTh ] minimum layer thickness Using constant nr436 with value: 0.100000E-05 [MaxTh ] maximum sediment thickness Using parameter nr 3 [SWSediment ] switch for sediment (0=fixed, 1=variable) Using constant nr434 with value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days [Poros ] volumetric porosity Using output from proces [DMVolume ] [Porinp ] target volumetric porosity Using parameter nr 15 [VSeep ] seepage/infltration Using parameter nr 16 [SwErosion ] switch erosion 0=Partheniades, 1=de Boer Using constant nr435 with value: 0.00000 [alpha ] salpha for density distribution Rayleigh using default value: 2.00000 [fResCommun ] communicate fResTDM between ADVTRA-CONSOL using default value: 0.00000 Input for [Sed_CAAP ] Sedimentation adsorbed P as component [AAP ] adsorbed ortho phosphate Using substance nr 11 [ZSedAAP ] zeroth-order sedimentation flux AAP using default value: 0.00000 [VSedAAP ] sedimentation velocity AAP Using parameter nr 28 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSAAP ] critical shear stress for sedimentation AAP Using parameter nr 19 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedAAP ] sedimentation velocity AAP using default value: 0.500000 Input for [Sum_Sedim ] Total of all sedimenting substances [fSedIM1 ] sedimentation flux IM1 Using output from proces [Sed_IM1 ] [fSedIM2 ] sedimentation flux IM2 Using output from proces [Sed_IM2 ] [fSedIM3 ] sedimentation flux IM3 using default value: 0.00000 [fSedPOC1 ] sedimentation flux POC1 Using output from proces [Sed_POC1 ] [fSedPOC2 ] sedimentation flux POC2 Using output from proces [Sed_POC2 ] [fSedPOC3 ] sedimentation flux POC3 Using output from proces [Sed_POC3 ] [fSedPOC4 ] sedimentation flux POC4 Using output from proces [Sed_POC4 ] [fSedPHYT ] total sedimentation flux phytoplankton using default value: 0.00000 [fSedAlgDM ] total sedimentation flux phytoplankton as DM using default value: 0.00000 [DMCFIM1 ] DM:C ratio IM1 using default value: 1.000000 [DMCFIM2 ] DM:C ratio IM2 using default value: 1.000000 [DMCFIM3 ] DM:C ratio IM3 using default value: 1.000000 [DmCfPOC1 ] DM:C ratio POC1 using default value: 2.50000 [DmCfPOC2 ] DM:C ratio POC2 using default value: 2.50000 [DmCfPOC3 ] DM:C ratio POC3 using default value: 2.50000 [DmCfPOC4 ] DM:C ratio POC4 using default value: 2.50000 [IM1 ] inorganic matter (IM1) Using substance nr 5 [IM2 ] inorganic matter (IM2) Using substance nr 6 [IM3 ] inorganic matter (IM3) Using function nr 16 [POC1 ] POC1 (fast decomposing fraction) Using substance nr 20 [POC2 ] POC2 (medium decomposing fraction) Using substance nr 21 [POC3 ] POC3 (slow decomposing fraction) Using substance nr 22 [POC4 ] POC4 (particulate refractory fraction) Using substance nr 23 [VxSedIM1 ] sedimentation velocity IM1 Using output from proces [Sed_IM1 ] [VxSedIM2 ] sedimentation velocity IM2 Using output from proces [Sed_IM2 ] [VxSedIM3 ] sedimentation velocity IM3 using default value: 0.00000 [VxSedPOC1 ] sedimentation velocity POC1 Using output from proces [Sed_POC1 ] [VxSedPOC2 ] sedimentation velocity POC2 Using output from proces [Sed_POC2 ] [VxSedPOC3 ] sedimentation velocity POC3 Using output from proces [Sed_POC3 ] [VxSedPOC4 ] sedimentation velocity POC4 Using output from proces [Sed_POC4 ] Input for [Sed_ApatP ] Sedimentation Apatite-P [APATP ] Apatite-P Using substance nr 13 [ZSedAPATP ] zeroth-order sedimentation flux APATP using default value: 0.00000 [VSedAPATP ] sedimentation velocity APATP Using parameter nr 35 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSAPAT ] critical shear stress sedimentation APATP Using parameter nr 20 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedAPATP ] sedimentation velocity APATP using default value: 0.500000 Input for [Sed_VivP ] Sedimentation vivianite 3d [VIVP ] Vivianite-P Using substance nr 12 [ZSedVIVP ] zeroth-order sedimentation flux VIVP using default value: 0.00000 [VSedVIVP ] sedimentation velocity VIVP Using parameter nr 34 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSVIVP ] critical shear stress for sedimentation VIVP Using parameter nr 21 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedVIVP ] sedimentation velocity VIVP using default value: 0.500000 Input for [Sed_POC4 ] Sedimentation POC4 3d [POC4 ] POC4 (particulate refractory fraction) Using substance nr 23 [ZSedPOC4 ] zeroth-order sedimentation flux POC4 using default value: 0.00000 [VSedPOC4 ] sedimentation velocity POC4 Using parameter nr 33 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSPOC4 ] critical shear stress for sedimentation POC4 Using parameter nr 26 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedPOC4 ] sedimentation velocity POC4 using default value: 0.500000 Input for [Sed_POC3 ] Sedimentation POC3 3d [POC3 ] POC3 (slow decomposing fraction) Using substance nr 22 [ZSedPOC3 ] zeroth-order sedimentation flux POC3 using default value: 0.00000 [VSedPOC3 ] sedimentation velocity POC3 Using parameter nr 32 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSPOC3 ] critical shear stress for sedimentation POC3 Using parameter nr 25 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedPOC3 ] sedimentation velocity POC3 using default value: 0.500000 Input for [Sed_POC2 ] Sedimentation POC2 3d [POC2 ] POC2 (medium decomposing fraction) Using substance nr 21 [ZSedPOC2 ] zeroth-order sedimentation flux POC2 using default value: 0.00000 [VSedPOC2 ] sedimentation velocity POC2 Using parameter nr 31 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSPOC2 ] critical shear stress for sedimentation POC2 Using parameter nr 24 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedPOC2 ] sedimentation velocity POC2 using default value: 0.500000 Input for [Sed_POC1 ] Sedimentation POC1 3d [POC1 ] POC1 (fast decomposing fraction) Using substance nr 20 [ZSedPOC1 ] zeroth-order sedimentation flux POC1 using default value: 0.00000 [VSedPOC1 ] sedimentation velocity POC1 Using parameter nr 30 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSPOC1 ] critical shear stress for sedimentation POC1 Using parameter nr 23 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedPOC1 ] sedimentation velocity POC1 using default value: 0.500000 Input for [Sed_Opal ] Sedimentation Opal 3d [Opal ] Opal-Si Using substance nr 15 [ZSedOpal ] zeroth-order sedimentation flux Opal using default value: 0.00000 [VSedOpal ] sedimentation velocity Opal Using parameter nr 29 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSOpal ] critical shear stress for sedimentation Opal Using parameter nr 22 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedOpal ] sedimentation velocity Opal using default value: 0.500000 Input for [Sed_IM2 ] Sedimentation IM2 [IM2 ] inorganic matter (IM2) Using substance nr 6 [ZSedIM2 ] zeroth-order sedimentation flux IM2 using default value: 0.00000 [VSedIM2 ] sedimentation velocity IM2 Using constant nr430 with value: 0.00000 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSIM2 ] critical shear stress for sedimentation IM2 Using parameter nr 18 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedIM2 ] sedimentation velocity IM2 Using constant nr430 with value: 0.00000 Input for [Sed_IM1 ] Sedimentation IM1 [IM1 ] inorganic matter (IM1) Using substance nr 5 [ZSedIM1 ] zeroth-order sedimentation flux IM1 using default value: 0.00000 [VSedIM1 ] sedimentation velocity IM1 Using parameter nr 36 [Tau ] total bottom shear stress Using constant nr431 with value:-1.000000 [TaucSIM1 ] critical shear stress for sedimentation IM1 Using parameter nr 17 [Depth ] depth of segment Using output from proces [DynDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days [MinDepth ] minimum waterdepth for sedimentation using default value: 0.100000E+00 [VSedIM1 ] sedimentation velocity IM1 using default value: 0.100000E+00 Input for [OXIDCH4 ] Oxidation of methane [CH4 ] CH4 (methane) Using substance nr 19 [OXY ] Dissolved Oxygen Using substance nr 7 [SO4 ] sulphate (SO4) Using substance nr 16 [Rc0MetOx ] zero-order oxid. rate with DO at low temp using default value: 0.00000 [RcMetOx20 ] MM- oxidation rate with DO at 20 oC Using constant nr406 with value: 0.100000E+00 [TcMetOx ] temperature coefficient for oxid. with DO Using constant nr414 with value: 1.07000 [KsMet ] half saturation constant for methane Using constant nr407 with value: 0.500000 [KsOxMet ] half saturation constant for DO Using constant nr408 with value: 1.000000 [CoxMet ] critical DO concentration for oxidation Using constant nr409 with value: 0.00000 [Rc0MetSu ] zero-order oxid. rate with SU at low temp using default value: 0.00000 [RcMetSu20 ] MM- oxidation rate with sulphate at 20 oC Using constant nr410 with value: 0.500000E-01 [TcMetSu ] temperature coefficient for oxid. with sulphate Using constant nr415 with value: 1.07000 [KsSuMet ] half saturation constant for SO4 inhibition Using constant nr411 with value: 1.000000 [CsuMet ] critical sulphate concentration for oxid. Using constant nr412 with value: 0.00000 [Temp ] ambient water temperature Using function nr 11 [CTMetOx ] critical temperature for methane oxidation Using constant nr413 with value: 3.00000 [Poros ] volumetric porosity Using output from proces [DMVolume ] [DELT ] timestep for processes Using DELWAQ timestep in days [RadMetInh ] irradiation for full inhibition Using constant nr420 with value: 1000.000 [Rad ] irradiation at the segment upper-boundary Using output from proces [CalcRad ] [KSRadFr ] half saturation (light inhib) for frac SurfRad Using constant nr421 with value: 0.200000 [KSRadSh ] shape factor for light inhibition function Using constant nr422 with value: 15.0000 Input for [PRECSUL ] Precipitation and dissolution of sulphide [SUP ] particulate sulphide (SUP) Using substance nr 18 [DisSWK ] (S--) in water column Using output from proces [SPECSUD ] [DisSEqFeS ] saturation free sulphide concentration Using constant nr399 with value: 0.200000E-10 [RcDisS20 ] first order dissolution rate at 20 oC Using constant nr400 with value: 0.200000E+07 [TcDisS ] temperature coeff. for dissolution sulphide using default value: 1.07000 [RcPrcS20 ] first order precipitation rate at 20 oC Using constant nr401 with value: 0.100000E+07 [TcPrcS ] temperature coeff. for precipitation sulphide using default value: 1.07000 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [DELT ] timestep for processes Using DELWAQ timestep in days Input for [OXIDSUD ] Oxidation of dissolved sulphide [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [OXY ] Dissolved Oxygen Using substance nr 7 [Rc0Sox ] zero-order oxidation rate using default value: 0.00000 [RcSox20 ] second order oxidation rate at 20 oC Using constant nr397 with value: 10.00000 [TcSox ] temperature coefficient for oxidation using default value: 1.07000 [CoxSUD ] critical DO concentration for oxidation Using constant nr398 with value: 0.00000 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [DELT ] timestep for processes Using DELWAQ timestep in days Input for [SPECSUD ] Speciation of dissolved sulphide [SUD ] total dissolved sulphide (SUD) Using substance nr 17 [lKstH2S ] log acidity constant for H2S (l.mole-1) Using constant nr402 with value: -7.10000 [TcKstH2S ] temperature coefficient for KstH2S Using constant nr403 with value: 1.000000 [lKstHS ] log acidity constant for HS- (l.mole-1) Using constant nr404 with value: -14.0000 [TcKstHS ] temperature coefficient for KstHS Using constant nr405 with value: 1.000000 [pH ] pH Using segment function nr 3 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] Input for [VolatCH4 ] Volatilisation of methane [CH4 ] CH4 (methane) Using substance nr 19 [Depth ] depth of segment Using output from proces [DynDepth ] [Temp ] ambient water temperature Using function nr 11 [Velocity ] horizontal flow velocity Using output from proces [Veloc ] [VWind ] wind speed Using function nr 12 [SWVolCH4 ] switch for methane volat. formulation <15> Using constant nr416 with value: 9.00000 [KLVolCH4 ] water transfer coefficient for methane Using constant nr417 with value: 1.000000 [TCVolCH4 ] volatilisation temperature coefficient Using constant nr418 with value: 1.01600 [DELT ] timestep for processes Using DELWAQ timestep in days [SaturCH4 ] saturation concentration of methane Using output from proces [SaturCH4 ] [Salinity ] Salinity Using output from proces [Salinchlor ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [fcover ] fraction of water surface covered <0-1> using default value: 0.00000 [KLRMaxCH4 ] maximum KLREAR CH4 for temperature correction using default value: 1000.000 [KLRMinCH4 ] minimum rearation transfer coefficient CH4 using default value: 0.200000 [Rain ] rainfall rate using default value: 0.00000 [coefACH4 ] gas transfer CH4 coefficient transmission using default value: 1.66000 [coefB1CH4 ] gas transfer CH4 coefficient wind scale 1 using default value: 0.260000 [coefB2CH4 ] gas transfer CH4 coefficient wind scale 2 using default value: 1.000000 [coefC1CH4 ] gas transfer CH4 coefficient rain scale 1 using default value: 0.660000 [coefC2CH4 ] gas transfer CH4 coefficient rain scale 2 using default value: 1.000000 [coefD1CH4 ] fresh water coefficient1 for Schmidt nr CH4 using default value: 1800.06 [coefD2CH4 ] fresh water coefficient2 for Schmidt nr CH4 using default value: 120.100 [coefD3CH4 ] fresh water coefficient3 for Schmidt nr CH4 using default value: 3.78180 [coefD4CH4 ] fresh water coefficient4 for Schmidt nr CH4 using default value: 0.476080E-01 Input for [SaturCH4 ] Saturation concentration methane [AtmPrCH4 ] atmospheric methane pressure Using constant nr419 with value: 0.100000E-09 [Temp ] ambient water temperature Using function nr 11 Input for [EBULCH4 ] Ebullition of methane [CH4 ] CH4 (methane) Using substance nr 19 [fScEbul ] scaling factor for methane ebullition using default value: 1.000000 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [LocalDepth ] depth from water surface to bottom of segment Using output from proces [TotDepth ] [DELT ] timestep for processes Using DELWAQ timestep in days Input for [CONSELAC ] Consumption oxygen/other electron acceptors [OXY ] Dissolved Oxygen Using substance nr 7 [NO3 ] Nitrate (NO3) Using substance nr 9 [FeIIIpa ] particulate amorphous oxidizing iron using default value: 0.00000 [SO4 ] sulphate (SO4) Using substance nr 16 [f_minPOC1 ] mineralization flux POC1 Using output from proces [DecFast ] [f_minPOC2 ] mineralization flux POC2 Using output from proces [DecMedium ] [f_minPOC3 ] mineralization flux POC3 Using output from proces [DecSlow ] [f_minPOC4 ] mineralization flux POC4 Using output from proces [DecRefr ] [f_minPOC5 ] mineralization flux POC5 submerged Using output from proces [DecPOC5 ] [f_minDOC ] mineralization flux DOC Using output from proces [DecDOC ] [KsOxCon ] half saturation constant for DO limitation Using constant nr360 with value: 1.000000 [KsNiDen ] half saturation constant for nitrate cons. Using constant nr361 with value: 0.250000 [KsFeRed ] half saturation constant for Fe limitation using default value: 2.00000 [KsSuRed ] half saturation constant for SO4 limitation Using constant nr362 with value: 2.00000 [KsOxDenInh ] half saturation constant for oxygen inhib. Using constant nr363 with value: 1.000000 [KsNiIRdInh ] half sat. const. NO3 inhib. iron reduction using default value: 0.200000 [KsNiSRdInh ] half sat. const. NO3 inhib. SO4 reduction Using constant nr364 with value: 0.200000E-01 [KsSuMetInh ] half saturation constant for SO4 inhibition Using constant nr365 with value: 1.000000 [TcOxCon ] temperature coeff. for oxygen consumption Using constant nr373 with value: 1.07000 [TcDen ] temperature coefficient for denitrification Using constant nr374 with value: 1.07000 [TcIRed ] temperature coeff. for iron reduction using default value: 1.12000 [TcSRed ] temperature coeff. for sulphate reduction Using constant nr375 with value: 1.07000 [TcMet ] temperature coeff. for methanogenesis Using constant nr376 with value: 1.07000 [RedFacDen ] reduction factor for denitrif. at low temp. Using constant nr366 with value: 1.25000 [RedFacIRed ] reduction factor for iron red. at low temp. using default value: 1.000000 [RedFacSRed ] reduction factor for sulph. red. at low temp. Using constant nr367 with value: 1.25000 [RedFacMet ] reduction factor for methanog. at low temp. Using constant nr368 with value: 1.25000 [CoxDenInh ] crit. diss. ox. conc. for inhib. denitrif. Using parameter nr 13 [CoxIRedInh ] crit. diss. ox. conc. for inhib. iron red. using default value: 0.200000 [CoxSRedInh ] crit. diss. ox. conc. for inhib. sulph. red. Using constant nr369 with value: 0.500000E-01 [CoxMetInh ] crit. diss. ox. conc. for inhib. methanog. Using constant nr370 with value: 0.200000E-01 [CniMetInh ] crit. nitrate conc. for inhib. methanog. Using constant nr371 with value: 0.500000E-01 [CTBactAc ] critical temp. for specific bacterial activity Using constant nr372 with value: 2.00000 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [DELT ] timestep for processes Using DELWAQ timestep in days [FrMetGeCH4 ] fraction of methanogenesis towards CH4 using default value: 0.500000 [SWOxCon ] Switch: only OxCon (1) or not (0) using default value: 0.00000 Input for [DisSi ] Dissolution of Si in opal (SWITCH defaults) [Si ] dissolved Silica (Si) Using substance nr 14 [Opal ] Opal-Si Using substance nr 15 [Ceq_disSi ] Saturation concentration of Si with opal Using constant nr394 with value: 10.00000 [RCdisSi20 ] 2nd order dissolution rate SiO2 at 20 oC Using constant nr395 with value: 0.500000E-04 [TCdisSi ] temperature dependency dissolution Si Using constant nr396 with value: 1.07000 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [SWDisSi ] option: 0.0 2nd order diss., 1.0 1st order diss. using default value: 0.00000 Input for [Vivianit ] Dissolution/precipitation of P in vivianite [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [VIVP ] Vivianite-P Using substance nr 12 [EqVivDisP ] equilibrium concentration PO4 with vivianite Using constant nr387 with value: 0.150000 [RCprecP20 ] pseudo 1st order rate P-precipitation 20oC Using constant nr388 with value: 0.600000 [TCprecipP ] temperature dependency constant precipitation using default value: 1.000000 [RCdissP20 ] 2nd order dissolution/oxidation rate VIVP Using constant nr389 with value: 0.500000E-01 [TCdissolP ] temperature dependency constant dissolution using default value: 1.000000 [OXY ] Dissolved Oxygen Using substance nr 7 [Cc_oxVivP ] critical oxygen conc for vivianite oxid. Using constant nr391 with value: 0.250000 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [DELT ] timestep for processes Using DELWAQ timestep in days Input for [DecPOC5 ] Mineralisation POC5 [POC5 ] POC5 (vegetation fraction) Using substance nr 54 [PON5 ] PON5 (vegetation fraction) Using substance nr 55 [POP5 ] POP5 (vegetation fraction) Using substance nr 56 [POS5 ] POS5 (vegetation fraction) Using substance nr 57 [ku_P5dcC20 ] upper limit decay rate POC5 at 20 degrees using default value: 0.100000E+00 [kl_P5dcC20 ] lower limit decay rate POC5 at 20 degrees using default value: 0.500000E-01 [kT_dec ] temperature coefficient for decomposition Using constant nr329 with value: 1.04700 [Temp ] ambient water temperature Using function nr 11 [a_dNpr ] target N:C ratio in refractory detritus Using constant nr355 with value: 0.700000E-01 [a_dPpr ] target P:C ratio in refractory detritus Using constant nr356 with value: 0.700000E-02 [a_dSpr ] target S:C ratio in refractory detritus Using constant nr357 with value: 0.500000E-02 [al_dNPOC5 ] lower limit N:C ratio in POC5 using default value: 0.600000E-01 [al_dPPOC5 ] lower limit P:C ratio in POC5 using default value: 0.600000E-02 [au_dNPOC5 ] upper limit N:C ratio in POC5 using default value: 0.100000E+00 [au_dPPOC5 ] upper limit P:C ratio in POC5 using default value: 0.100000E-01 [OXY ] Dissolved Oxygen Using substance nr 7 [NO3 ] Nitrate (NO3) Using substance nr 9 [b_ni ] attenuation factor decomp. in denitrifying zone Using constant nr358 with value: 1.000000 [b_su ] attenuation factor decomp. in sulphate red.zone Using constant nr359 with value: 1.000000 [b_poc5poc4 ] fraction POC5 converted to POC4 using default value: 0.400000 [b_poc5doc ] fraction POC5 converted to DOC using default value: 0.400000E-01 [Volume ] volume of computational cell Using DELWAQ volume [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [NatTemp ] air temperature using default value: 15.0000 Input for [DecDOC ] Mineralization DOC (diss. refr. detritus) [DOC ] Dissolved Organic Carbon (DOC) Using substance nr 24 [DON ] Dissolved Organic Nitrogen (DON) Using substance nr 29 [DOP ] Dissolved Organic Phosphorus (DOP) Using substance nr 34 [DOS ] Dissolved Organic Sulphur (DOS) Using substance nr 39 [IdDet2 ] identifier for detritus group POC4 and DOC using default value: 2.00000 [k_DOCdcC20 ] mineralization rate dissolved detr. at 20 oC Using constant nr354 with value: 0.200000E-02 [kl_RCdummy ] dummy lower limit mineralization rate detr-C using default value: 0.100000E-02 [ku_RNdummy ] dummy upper limit mineralization rate detr-N using default value: 0.100000E-02 [kl_RNdummy ] dummy lower limit mineralization rate detr-N using default value: 0.100000E-02 [ku_RPdummy ] dummy upper limit mineralization rate detr-P using default value: 0.100000E-02 [kl_RPdummy ] dummy lower limit mineralization rate detr-P using default value: 0.100000E-02 [kT_dec ] temperature coefficient for decomposition Using constant nr329 with value: 1.04700 [Temp ] ambient water temperature Using function nr 11 [a_dNpr ] target N:C ratio in refractory detritus Using constant nr355 with value: 0.700000E-01 [a_dPpr ] target P:C ratio in refractory detritus Using constant nr356 with value: 0.700000E-02 [a_dSpr ] target S:C ratio in refractory detritus Using constant nr357 with value: 0.500000E-02 [al_dNdummy ] dummy lower limit N:C ratio using default value: 0.100000E-19 [al_dPdummy ] dummy lower limit P:C ratio using default value: 0.100000E-19 [au_dNdummy ] dummy upper limit N:C ratio using default value: 0.100000E-19 [au_dPdummy ] dummy upper limit P:C ratio using default value: 0.100000E-19 [OXY ] Dissolved Oxygen Using substance nr 7 [NO3 ] Nitrate (NO3) Using substance nr 9 [b_ni ] attenuation factor decomp. in denitrifying zone Using constant nr358 with value: 1.000000 [b_su ] attenuation factor decomp. in sulphate red.zone Using constant nr359 with value: 1.000000 [b_dcXdummy ] fraction DOC converted to POCX using default value: 0.00000 [b_dcYdummy ] fraction DOC converted to DOCY using default value: 0.00000 [SWODdummy ] option: 0.0 for stripping, 1.0 for different rates using default value: 1.000000 Input for [DecRefr ] Mineralization part. refractory detritus POC4 [POC4 ] POC4 (particulate refractory fraction) Using substance nr 23 [PON4 ] PON4 (particulate refractory fraction) Using substance nr 28 [POP4 ] POP4 (particulate refractory fraction) Using substance nr 33 [POS4 ] POS4 (particulate refractory fraction) Using substance nr 38 [IdDet2 ] identifier for detritus group POC4 and DOC using default value: 2.00000 [k_dprdcC20 ] mineralization rate refr. detritus at 20 oC Using constant nr353 with value: 0.350000E-04 [kl_RCdummy ] dummy lower limit mineralization rate detr-C using default value: 0.100000E-02 [ku_RNdummy ] dummy upper limit mineralization rate detr-N using default value: 0.100000E-02 [kl_RNdummy ] dummy lower limit mineralization rate detr-N using default value: 0.100000E-02 [ku_RPdummy ] dummy upper limit mineralization rate detr-P using default value: 0.100000E-02 [kl_RPdummy ] dummy lower limit mineralization rate detr-P using default value: 0.100000E-02 [kT_dec ] temperature coefficient for decomposition Using constant nr329 with value: 1.04700 [Temp ] ambient water temperature Using function nr 11 [a_dNpr ] target N:C ratio in refractory detritus Using constant nr355 with value: 0.700000E-01 [a_dPpr ] target P:C ratio in refractory detritus Using constant nr356 with value: 0.700000E-02 [a_dSpr ] target S:C ratio in refractory detritus Using constant nr357 with value: 0.500000E-02 [al_dNdummy ] dummy lower limit N:C ratio using default value: 0.100000E-19 [al_dPdummy ] dummy lower limit P:C ratio using default value: 0.100000E-19 [au_dNdummy ] dummy upper limit N:C ratio using default value: 0.100000E-19 [au_dPdummy ] dummy upper limit P:C ratio using default value: 0.100000E-19 [OXY ] Dissolved Oxygen Using substance nr 7 [NO3 ] Nitrate (NO3) Using substance nr 9 [b_ni ] attenuation factor decomp. in denitrifying zone Using constant nr358 with value: 1.000000 [b_su ] attenuation factor decomp. in sulphate red.zone Using constant nr359 with value: 1.000000 [b_p4xdummy ] fraction POC4 converted to POCX using default value: 0.00000 [b_p4ddummy ] fraction POC4 converted to DOC using default value: 0.00000 [SWODdummy ] option: 0.0 for stripping, 1.0 for different rates using default value: 1.000000 Input for [DecSlow ] Mineralization slow decomp. detritus POC3 [POC3 ] POC3 (slow decomposing fraction) Using substance nr 22 [PON3 ] PON3 (slow decomposing fraction) Using substance nr 27 [POP3 ] POP3 (slow decomposing fraction) Using substance nr 32 [POS3 ] POS3 (slow decomposing fraction) Using substance nr 37 [IdDet1 ] identifier for detritus group POC1, POC2, POC3 using default value: 1.000000 [ku_dSdec20 ] upper limit mineralization rate slow detr-C Using constant nr345 with value: 0.120000E-02 [kl_dSdec20 ] lower limit mineralization rate slow detr-C Using constant nr346 with value: 0.120000E-02 [ku_dSdec20 ] upper limit mineralization rate slow detr-C Using constant nr345 with value: 0.120000E-02 [kl_dSdec20 ] lower limit mineralization rate slow detr-C Using constant nr346 with value: 0.120000E-02 [ku_dSdec20 ] upper limit mineralization rate slow detr-C Using constant nr345 with value: 0.120000E-02 [kl_dSdec20 ] lower limit mineralization rate slow detr-C Using constant nr346 with value: 0.120000E-02 [kT_dec ] temperature coefficient for decomposition Using constant nr329 with value: 1.04700 [Temp ] ambient water temperature Using function nr 11 [a_dNpr ] target N:C ratio in refractory detritus Using constant nr355 with value: 0.700000E-01 [a_dPpr ] target P:C ratio in refractory detritus Using constant nr356 with value: 0.700000E-02 [a_dSpr ] target S:C ratio in refractory detritus Using constant nr357 with value: 0.500000E-02 [al_dNs ] lower limit N:C ratio in slow decomp. detr Using constant nr348 with value: 0.600000E-01 [al_dPs ] lower limit P:C ratio in slow decomp. detr Using constant nr350 with value: 0.600000E-02 [au_dNs ] upper limit N:C ratio in slow decomp. detr Using constant nr347 with value: 0.120000 [au_dPs ] upper limit P:C ratio in slow decomp. detr Using constant nr349 with value: 0.120000E-01 [OXY ] Dissolved Oxygen Using substance nr 7 [NO3 ] Nitrate (NO3) Using substance nr 9 [b_ni ] attenuation factor decomp. in denitrifying zone Using constant nr358 with value: 1.000000 [b_su ] attenuation factor decomp. in sulphate red.zone Using constant nr359 with value: 1.000000 [b_poc3poc4 ] fraction POC3 converted to POC4 Using constant nr351 with value: 0.200000 [b_poc3doc ] fraction POC3 converted to DOC Using constant nr352 with value: 0.170000 [SWOMDec ] option: 0.0 for stripping, 1.0 for different rates using default value: 0.00000 Input for [DecMedium ] Mineralization medium decomp. detritus POC2 [POC2 ] POC2 (medium decomposing fraction) Using substance nr 21 [PON2 ] PON2 (medium decomposing fraction) Using substance nr 26 [POP2 ] POP2 (medium decomposing fraction) Using substance nr 31 [POS2 ] POS2 (medium decomposing fraction) Using substance nr 36 [IdDet1 ] identifier for detritus group POC1, POC2, POC3 using default value: 1.000000 [ku_dMdec20 ] upper limit mineralization rate medium detr-C Using constant nr337 with value: 0.250000E-01 [kl_dMdec20 ] lower limit mineralization rate medium detr-C Using constant nr338 with value: 0.250000E-01 [ku_dMdec20 ] upper limit mineralization rate medium detr-C Using constant nr337 with value: 0.250000E-01 [kl_dMdec20 ] lower limit mineralization rate medium detr-C Using constant nr338 with value: 0.250000E-01 [ku_dMdec20 ] upper limit mineralization rate medium detr-C Using constant nr337 with value: 0.250000E-01 [kl_dMdec20 ] lower limit mineralization rate medium detr-C Using constant nr338 with value: 0.250000E-01 [kT_dec ] temperature coefficient for decomposition Using constant nr329 with value: 1.04700 [Temp ] ambient water temperature Using function nr 11 [a_dNpr ] target N:C ratio in refractory detritus Using constant nr355 with value: 0.700000E-01 [a_dPpr ] target P:C ratio in refractory detritus Using constant nr356 with value: 0.700000E-02 [a_dSpr ] target S:C ratio in refractory detritus Using constant nr357 with value: 0.500000E-02 [al_dNm ] lower limit N:C ratio in med. decomp. detr Using constant nr340 with value: 0.600000E-01 [al_dPm ] lower limit P:C ratio in med. decomp. detr Using constant nr342 with value: 0.600000E-02 [au_dNm ] upper limit N:C ratio in med. decomp. detr Using constant nr339 with value: 0.120000 [au_dPm ] upper limit P:C ratio in med. decomp. detr Using constant nr341 with value: 0.120000E-01 [OXY ] Dissolved Oxygen Using substance nr 7 [NO3 ] Nitrate (NO3) Using substance nr 9 [b_ni ] attenuation factor decomp. in denitrifying zone Using constant nr358 with value: 1.000000 [b_su ] attenuation factor decomp. in sulphate red.zone Using constant nr359 with value: 1.000000 [b_poc2poc3 ] fraction POC2 converted to POC3 Using constant nr343 with value: 0.200000 [b_poc2doc ] fraction POC2 converted to DOC Using constant nr344 with value: 0.170000 [SWOMDec ] option: 0.0 for stripping, 1.0 for different rates using default value: 0.00000 Input for [DecFast ] Mineralization fast decomp. detritus POC1 [POC1 ] POC1 (fast decomposing fraction) Using substance nr 20 [PON1 ] PON1 (fast decomposing fraction) Using substance nr 25 [POP1 ] POP1 (fast decomposing fraction) Using substance nr 30 [POS1 ] POS1 (fast decomposing fraction) Using substance nr 35 [IdDet1 ] identifier for detritus group POC1, POC2, POC3 using default value: 1.000000 [ku_dFdec20 ] upper limit mineralization rate fast detr-C Using constant nr330 with value: 0.200000 [kl_dFdec20 ] lower limit mineralization rate fast detr-C Using constant nr331 with value: 0.150000 [ku_dFdec20 ] upper limit mineralization rate fast detr-C Using constant nr330 with value: 0.200000 [kl_dFdec20 ] lower limit mineralization rate fast detr-C Using constant nr331 with value: 0.150000 [ku_dFdec20 ] upper limit mineralization rate fast detr-C Using constant nr330 with value: 0.200000 [kl_dFdec20 ] lower limit mineralization rate fast detr-C Using constant nr331 with value: 0.150000 [kT_dec ] temperature coefficient for decomposition Using constant nr329 with value: 1.04700 [Temp ] ambient water temperature Using function nr 11 [a_dNpr ] target N:C ratio in refractory detritus Using constant nr355 with value: 0.700000E-01 [a_dPpr ] target P:C ratio in refractory detritus Using constant nr356 with value: 0.700000E-02 [a_dSpr ] target S:C ratio in refractory detritus Using constant nr357 with value: 0.500000E-02 [al_dNf ] lower limit N:C ratio in fast decomp. detr Using constant nr333 with value: 0.750000E-01 [al_dPf ] lower limit P:C ratio in fast decomp. detr Using constant nr335 with value: 0.750000E-02 [au_dNf ] upper limit N:C ratio in fast decomp. detr Using constant nr332 with value: 0.150000 [au_dPf ] upper limit P:C ratio in fast decomp. detr Using constant nr334 with value: 0.150000E-01 [OXY ] Dissolved Oxygen Using substance nr 7 [NO3 ] Nitrate (NO3) Using substance nr 9 [b_ni ] attenuation factor decomp. in denitrifying zone Using constant nr358 with value: 1.000000 [b_su ] attenuation factor decomp. in sulphate red.zone Using constant nr359 with value: 1.000000 [b_poc1poc2 ] fraction POC1 converted to POC2 Using constant nr336 with value: 0.300000 [b_poc1doc ] fraction POC1 converted to DOC using default value: 0.00000 [SWOMDec ] option: 0.0 for stripping, 1.0 for different rates using default value: 0.00000 Input for [RearOXY ] Reaeration of oxygen [OXY ] Dissolved Oxygen Using substance nr 7 [Depth ] depth of segment Using output from proces [DynDepth ] [Temp ] ambient water temperature Using function nr 11 [Velocity ] horizontal flow velocity Using output from proces [Veloc ] [VWind ] wind speed Using function nr 12 [SWRear ] switch for oxygen reaeration formulation (1-13) Using constant nr423 with value: 9.00000 [KLRear ] reaeration transfer coefficient Using constant nr424 with value: 1.000000 [TCRear ] temperature coefficient for rearation Using constant nr425 with value: 1.01600 [DELT ] timestep for processes Using DELWAQ timestep in days [SaturOXY ] saturation concentration Using output from proces [SaturOXY ] [Salinity ] Salinity Using output from proces [Salinchlor ] [TotalDepth ] total depth water column Using output from proces [TotDepth ] [fcover ] fraction of water surface covered <0-1> using default value: 0.00000 [KLRearMax ] maximum KLREAR oxygen for temp. correction using default value: 1000.000 [KLRearMin ] minimum rearation transfer coefficient oxygen using default value: 0.200000 [Rain ] rainfall rate using default value: 0.00000 [coefAOxy ] gas transfer Oxy coefficient transmission using default value: 1.66000 [coefB1Oxy ] gas transfer O2 coefficient wind scale 1 using default value: 0.260000 [coefB2Oxy ] gas transfer O2 coefficient wind scale 2 using default value: 1.000000 [coefC1Oxy ] gas transfer O2 coefficient rain scale 1 using default value: 0.660000 [coefC2Oxy ] gas transfer O2 coefficient rain scale 2 using default value: 1.000000 [coefD1Oxy ] fresh water coefficient1 for Schmidt nr Oxy using default value: 1800.06 [coefD2Oxy ] fresh water coefficient2 for Schmidt nr Oxy using default value: 120.100 [coefD3Oxy ] fresh water coefficient3 for Schmidt nr Oxy using default value: 3.78180 [coefD4Oxy ] fresh water coefficient4 for Schmidt nr Oxy using default value: 0.476080E-01 Input for [SaturOXY ] Saturation concentration oxygen [Cl ] Chloride Using substance nr 4 [Temp ] ambient water temperature Using function nr 11 [SWSatOXY ] switch for oxygen saturation formulation (1, 2) Using constant nr426 with value: 1.000000 [Salinity ] Salinity Using output from proces [Salinchlor ] Input for [Nitrif_NH4 ] Nitrification of ammonium [ZNit ] zeroth-order nitrification flux using default value: 0.00000 [NH4 ] Ammonium (NH4) Using substance nr 8 [RcNit20 ] MM- nitrification rate at 20 oC Using parameter nr 14 [TcNit ] temperature coefficient for nitrification Using constant nr382 with value: 1.07000 [OXY ] Dissolved Oxygen Using substance nr 7 [KsAmNit ] half saturation constant for ammonium cons. Using constant nr378 with value: 0.400000 [KsOxNit ] half saturation constant for DO cons. Using constant nr379 with value: 1.000000 [Temp ] ambient water temperature Using function nr 11 [CTNit ] critical temperature for nitrification Using constant nr381 with value: 0.00000 [Rc0NitOx ] zero-order nitrification rate at neg. DO using default value: 0.00000 [COXNIT ] critical oxygen concentration for nitrification Using constant nr380 with value: 0.00000 [Poros ] volumetric porosity Using output from proces [DMVolume ] [SWVnNit ] switch for old (0), new (1), TEWOR (2) version Using constant nr377 with value: 1.000000 [RcNit ] first-order nitrification rate using default value: 0.100000E+00 [OOXNIT ] optimum oxygen concentration for nitrification using default value: 5.00000 [CFLNIT ] oxygen function level for oxygen below COXNIT using default value: 0.00000 [CurvNit ] curvature of DO function for nitrification using default value: 0.00000 [DELT ] timestep for processes Using DELWAQ timestep in days Input for [AdsPO4AAP ] Ad(De)Sorption ortho phosphorus to inorg. matter [SWAdsP ] switch PO4 adsorption <0=Kd|1=Langmuir|2=pHdep> Using constant nr383 with value: 2.00000 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [AAP ] adsorbed ortho phosphate Using substance nr 11 [IM1 ] inorganic matter (IM1) Using substance nr 5 [IM2 ] inorganic matter (IM2) Using substance nr 6 [IM3 ] inorganic matter (IM3) Using function nr 16 [KdPO4AAP ] distrib. coeff. (-) or ads. eq. const. using default value: 0.100000E+00 [MaxPO4AAP ] adsorption capacity TIM for PO4 using default value: 0.150000 [DELT ] timestep for processes Using DELWAQ timestep in days [KadsP_20 ] Adsorption equilibrium constant at 20 oC Using parameter nr 11 [TCKadsP ] temperature dependency constant Kads using default value: 1.000000 [RcAdPO4AAP ] adsorption rate PO4 --> AAP Using constant nr386 with value: 10.00000 [a_OH-PO4 ] OH-:PO4 ratio in sorption reaction Using constant nr385 with value: 0.200000 [fr_FeIM1 ] fraction Fe in inorg. matter IM1 Using parameter nr 4 [fr_FeIM2 ] fraction Fe in inorg. matter IM2 Using parameter nr 5 [fr_FeIM3 ] fraction Fe in inorg. matter IM3 Using parameter nr 6 [fr_Feox ] fraction reactive Fe of total Fe Using parameter nr 7 [OXY ] Dissolved Oxygen Using substance nr 7 [Cc_oxPsor ] critical oxygen conc for P sorption Using constant nr390 with value: 1.000000 [pH ] pH Using segment function nr 3 [Temp ] ambient water temperature Using function nr 11 [Poros ] volumetric porosity Using output from proces [DMVolume ] [SWVnAdsP ] switch to select old(0) or new(1) version Using constant nr384 with value: 1.000000 [fr_Fe ] fraction Fe in solid matter using default value: 0.200000E-01 [RCadsPgem ] pseudo first-order rate PO4 sorption using default value: 1.000000 Input for [DMVolume ] Volume of dry matter in a segment [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [Volume ] volume of computational cell Using DELWAQ volume [TIM ] total inorganic matter Using output from proces [Compos ] [POM ] particulate org. matter (incl algae) Using output from proces [Compos ] [RhoIM ] dry bulk density inorganic matter using default value: 0.260000E+07 [RhoOM ] dry bulk density organic matter using default value: 0.130000E+07 Input for [Compos ] Composition [NO3 ] Nitrate (NO3) Using substance nr 9 [NH4 ] Ammonium (NH4) Using substance nr 8 [PO4 ] Ortho-Phosphate (PO4) Using substance nr 10 [Si ] dissolved Silica (Si) Using substance nr 14 [IM1 ] inorganic matter (IM1) Using substance nr 5 [IM2 ] inorganic matter (IM2) Using substance nr 6 [IM3 ] inorganic matter (IM3) Using function nr 16 [Phyt ] total carbon in phytoplankton using default value: 0.00000 [AlgN ] total nitrogen in algae using default value: 0.00000 [AlgP ] total phosphorus in algae using default value: 0.00000 [AlgSi ] total silica in algae using default value: 0.00000 [AlgDM ] total DM in algae using default value: 0.00000 [POC1 ] POC1 (fast decomposing fraction) Using substance nr 20 [POC2 ] POC2 (medium decomposing fraction) Using substance nr 21 [POC3 ] POC3 (slow decomposing fraction) Using substance nr 22 [POC4 ] POC4 (particulate refractory fraction) Using substance nr 23 [PON1 ] PON1 (fast decomposing fraction) Using substance nr 25 [DOC ] Dissolved Organic Carbon (DOC) Using substance nr 24 [DON ] Dissolved Organic Nitrogen (DON) Using substance nr 29 [DOP ] Dissolved Organic Phosphorus (DOP) Using substance nr 34 [DOS ] Dissolved Organic Sulphur (DOS) Using substance nr 39 [AAP ] adsorbed ortho phosphate Using substance nr 11 [VIVP ] Vivianite-P Using substance nr 12 [APATP ] Apatite-P Using substance nr 13 [DMCFIM1 ] DM:C ratio IM1 using default value: 1.000000 [DMCFIM2 ] DM:C ratio IM2 using default value: 1.000000 [DMCFIM3 ] DM:C ratio IM3 using default value: 1.000000 [PON2 ] PON2 (medium decomposing fraction) Using substance nr 26 [PON3 ] PON3 (slow decomposing fraction) Using substance nr 27 [PON4 ] PON4 (particulate refractory fraction) Using substance nr 28 [POP1 ] POP1 (fast decomposing fraction) Using substance nr 30 [POP2 ] POP2 (medium decomposing fraction) Using substance nr 31 [POP3 ] POP3 (slow decomposing fraction) Using substance nr 32 [POP4 ] POP4 (particulate refractory fraction) Using substance nr 33 [POS1 ] POS1 (fast decomposing fraction) Using substance nr 35 [POS2 ] POS2 (medium decomposing fraction) Using substance nr 36 [POS3 ] POS3 (slow decomposing fraction) Using substance nr 37 [POS4 ] POS4 (particulate refractory fraction) Using substance nr 38 [Opal ] Opal-Si Using substance nr 15 [DmCfPOC1 ] DM:C ratio POC1 using default value: 2.50000 [DmCfPOC2 ] DM:C ratio POC2 using default value: 2.50000 [DmCfPOC3 ] DM:C ratio POC3 using default value: 2.50000 [DmCfPOC4 ] DM:C ratio POC4 using default value: 2.50000 Input for [DepAve ] Average depth for Bloom step [SWDepAve ] switch for module DepAve (0=off, 1=on) Using constant nr448 with value: 0.00000 [TimMultBl ] ratio bloom/delwaq time step Using constant nr 1 with value: 288.000 [Depth ] depth of segment Using output from proces [DynDepth ] [BloomDepth ] average depth over Bloom time step Using output from proces [DepAve ] Input for [CalcRadDay ] Actual radiation at segment boundaries [ExtVl ] total extinction coefficient visible light Using output from proces [Extinc_VLG ] [Depth ] depth of segment Using output from proces [DynDepth ] [DayRadSurf ] actual irradiance over the day Using output from proces [DAYRAD ] [a_enh ] enhancement factor in radiation calculation Using constant nr438 with value: 1.50000 [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [RadBotDay ] actual irradiation at the lower-boundary Using output from proces [CalcRadDay ] Input for [CalcRad ] Radiation at segment upper and lower boundaries [ExtVl ] total extinction coefficient visible light Using output from proces [Extinc_VLG ] [Depth ] depth of segment Using output from proces [DynDepth ] [RadSurf ] irradiation at the water surface Using function nr 13 [a_enh ] enhancement factor in radiation calculation Using constant nr438 with value: 1.50000 [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 [SwEmersion ] switch indicating submersion(0) or emersion(1) Using function nr 14 [RadBot ] irradiation at the segment lower-boundary Using output from proces [CalcRad ] Input for [Extinc_VLG ] Extinction of visible-light (370-680nm) DLWQ-G [ExtVlIM1 ] VL specific extinction coefficient IM1 Using parameter nr 8 [ExtVlIM2 ] VL specific extinction coefficient IM2 Using parameter nr 9 [ExtVlIM3 ] VL specific extinction coefficient IM3 Using parameter nr 10 [ExtVlPOC1 ] VL specific extinction coefficient POC1 Using constant nr443 with value: 0.100000E+00 [ExtVlBak ] background extinction visible light Using constant nr441 with value: 0.800000E-01 [ExtVlPhyt ] VL extinction by phytoplankton using default value: 0.00000 [ExtVlMacro ] VL extinction by macrophytes using default value: 0.00000 [IM1 ] inorganic matter (IM1) Using substance nr 5 [IM2 ] inorganic matter (IM2) Using substance nr 6 [IM3 ] inorganic matter (IM3) Using function nr 16 [POC1 ] POC1 (fast decomposing fraction) Using substance nr 20 [POC2 ] POC2 (medium decomposing fraction) Using substance nr 21 [SW_Uitz ] Extinction by Uitzicht On (1) or Off (0) using default value: 0.00000 [DOC ] Dissolved Organic Carbon (DOC) Using substance nr 24 [ExtVlDOC ] VL specific extinction coefficient DOC Using constant nr442 with value: 0.300000 [UitZDEPT1 ] Z1 (depth) using default value: 1.20000 [UitZDEPT2 ] Z2 (depth) using default value: 1.000000 [UitZCORCH ] CORa correction factor using default value: 2.50000 [UitZC_DET ] C3 coeff. absorption ash weight & detritus using default value: 0.260000E-01 [UitZC_GL1 ] C1 coeff. absorption ash weight & detritus using default value: 0.730000 [UitZC_GL2 ] C2 coeff. absorption ash weight & detritus using default value: 1.000000 [UitZHELHM ] Hel_h constant using default value: 0.140000E-01 [UitZTAU ] Tau constant calculation transparency using default value: 7.80000 [UitZangle ] Angle of incidence solar radiation using default value: 30.0000 [DMCFDetC ] DM:C ratio DetC using default value: 2.50000 [ExtVLSal0 ] extra VL extinction at Salinity = 0 using default value: 0.00000 [Salinity ] Salinity Using output from proces [Salinchlor ] [SalExt0 ] salinity value for extra extinction = 0 using default value: 34.9200 [ExtVlPOC2 ] VL specific extinction coefficient POC2 Using constant nr444 with value: 0.100000E+00 [ExtVlPOC3 ] VL specific extinction coefficient POC3 Using constant nr445 with value: 0.100000E+00 [ExtVlPOC4 ] VL specific extinction coefficient POC4 Using constant nr446 with value: 0.100000E+00 [POC3 ] POC3 (slow decomposing fraction) Using substance nr 22 [POC4 ] POC4 (particulate refractory fraction) Using substance nr 23 Input for [Veloc ] Horizontal flow velocity [WSNoseg1 ] workspace array no. 1 Using output from proces [Veloc ] [WSNoseg2 ] workspace array no. 2 Using output from proces [Veloc ] [WSNoseg3 ] workspace array no. 3 Using output from proces [Veloc ] [WSNoseg4 ] workspace array no. 4 Using output from proces [Veloc ] [MaxVeloc ] maximum horizontal flow velocity using default value: 0.00000 [Orient_1 ] orientation of main positive flow direction using default value:-1.000000 [Orient_2 ] orientation of secondary positive flow direct using default value:-1.000000 [SWCalcVelo ] switch (1=lin avg, 2=Flow avg, 3=Area avg) using default value: 1.000000 [SWAvgVelo ] switch (1=Pythagoras, 2=Min, 3=Max) using default value: 1.000000 [XArea ] exchange area Using DELWAQ exchange area [Flow ] flow rate Using DELWAQ flow Input for [Salinchlor ] Conversion of salinity into chloride or vv [Salinity ] Salinity Using output from proces [Salinchlor ] [Cl ] Chloride Using substance nr 4 [GtCl ] Salinity:Chloride ratio in sea water using default value: 1.80500 [Temp ] ambient water temperature Using function nr 11 [Sal0 ] salinity at zero chloride concentration using default value: 0.300000E-01 [SWSalCl ] option: 0.0 salinity simulated, 1.0 Cl simultated using default value: 1.000000 Input for [DAYRAD ] Irradiance over the day [RadSurf ] irradiation at the water surface Using function nr 13 [ITIME ] DELWAQ time Using DELWAQ time [Latitude ] latitude of study area Using constant nr439 with value: 53.0000 [RefDay ] daynumber of reference day simulation Using constant nr440 with value: 0.00000 [AuxSys ] ratio between days and system clock using default value: 86400.0 Input for [TotDepth ] depth water column [Depth ] depth of segment Using output from proces [DynDepth ] [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 Input for [DynDepth ] dynamic calculation of the depth [Volume ] volume of computational cell Using DELWAQ volume [Surf ] horizontal surface area of a DELWAQ segment Using parameter nr 1 # determining the use of the delwaq input info: constant [ThrAlgNH4 ] is not used by the proces system info: constant [ThrAlgNO3 ] is not used by the proces system info: constant [ThrAlgPO4 ] is not used by the proces system info: constant [ThrAlgSi ] is not used by the proces system info: constant [FrAutFDI_E] is not used by the proces system info: constant [FrAutFDI_P] is not used by the proces system info: constant [FrAutGRE_E] is not used by the proces system info: constant [FrAutGRE_N] is not used by the proces system info: constant [FrAutGRE_P] is not used by the proces system info: constant [FrAutAPH_E] is not used by the proces system info: constant [FrAutAPH_N] is not used by the proces system info: constant [FrAutAPH_P] is not used by the proces system info: constant [FrAutMIC_E] is not used by the proces system info: constant [FrAutMIC_N] is not used by the proces system info: constant [FrAutMIC_P] is not used by the proces system info: constant [FrAutOSC_E] is not used by the proces system info: constant [FrAutOSC_N] is not used by the proces system info: constant [FrAutOSC_P] is not used by the proces system info: constant [FrDetFDI_E] is not used by the proces system info: constant [FrDetFDI_P] is not used by the proces system info: constant [FrDetGRE_E] is not used by the proces system info: constant [FrDetGRE_N] is not used by the proces system info: constant [FrDetGRE_P] is not used by the proces system info: constant [FrDetAPH_E] is not used by the proces system info: constant [FrDetAPH_N] is not used by the proces system info: constant [FrDetAPH_P] is not used by the proces system info: constant [FrDetMIC_E] is not used by the proces system info: constant [FrDetMIC_N] is not used by the proces system info: constant [FrDetMIC_P] is not used by the proces system info: constant [FrDetOSC_E] is not used by the proces system info: constant [FrDetOSC_N] is not used by the proces system info: constant [FrDetOSC_P] is not used by the proces system info: constant [ExtVlFDI_E] is not used by the proces system info: constant [ExtVlFDI_P] is not used by the proces system info: constant [ExtVlGRE_E] is not used by the proces system info: constant [ExtVlGRE_N] is not used by the proces system info: constant [ExtVlGRE_P] is not used by the proces system info: constant [ExtVlAPH_E] is not used by the proces system info: constant [ExtVlAPH_N] is not used by the proces system info: constant [ExtVlAPH_P] is not used by the proces system info: constant [ExtVlMIC_E] is not used by the proces system info: constant [ExtVlMIC_N] is not used by the proces system info: constant [ExtVlMIC_P] is not used by the proces system info: constant [ExtVlOSC_E] is not used by the proces system info: constant [ExtVlOSC_N] is not used by the proces system info: constant [ExtVlOSC_P] is not used by the proces system info: constant [DMCFFDI_E ] is not used by the proces system info: constant [DMCFFDI_P ] is not used by the proces system info: constant [DMCFGRE_E ] is not used by the proces system info: constant [DMCFGRE_N ] is not used by the proces system info: constant [DMCFGRE_P ] is not used by the proces system info: constant [DMCFAPH_E ] is not used by the proces system info: constant [DMCFAPH_N ] is not used by the proces system info: constant [DMCFAPH_P ] is not used by the proces system info: constant [DMCFMIC_E ] is not used by the proces system info: constant [DMCFMIC_N ] is not used by the proces system info: constant [DMCFMIC_P ] is not used by the proces system info: constant [DMCFOSC_E ] is not used by the proces system info: constant [DMCFOSC_N ] is not used by the proces system info: constant [DMCFOSC_P ] is not used by the proces system info: constant [NCRFDI_E ] is not used by the proces system info: constant [NCRFDI_P ] is not used by the proces system info: constant [NCRGRE_E ] is not used by the proces system info: constant [NCRGRE_N ] is not used by the proces system info: constant [NCRGRE_P ] is not used by the proces system info: constant [NCRAPH_E ] is not used by the proces system info: constant [NCRAPH_N ] is not used by the proces system info: constant [NCRAPH_P ] is not used by the proces system info: constant [NCRMIC_E ] is not used by the proces system info: constant [NCRMIC_N ] is not used by the proces system info: constant [NCRMIC_P ] is not used by the proces system info: constant [NCROSC_E ] is not used by the proces system info: constant [NCROSC_N ] is not used by the proces system info: constant [NCROSC_P ] is not used by the proces system info: constant [PCRFDI_E ] is not used by the proces system info: constant [PCRFDI_P ] is not used by the proces system info: constant [PCRGRE_E ] is not used by the proces system info: constant [PCRGRE_N ] is not used by the proces system info: constant [PCRGRE_P ] is not used by the proces system info: constant [PCRAPH_E ] is not used by the proces system info: constant [PCRAPH_N ] is not used by the proces system info: constant [PCRAPH_P ] is not used by the proces system info: constant [PCRMIC_E ] is not used by the proces system info: constant [PCRMIC_N ] is not used by the proces system info: constant [PCRMIC_P ] is not used by the proces system info: constant [PCROSC_E ] is not used by the proces system info: constant [PCROSC_N ] is not used by the proces system info: constant [PCROSC_P ] is not used by the proces system info: constant [SCRFDI_E ] is not used by the proces system info: constant [SCRFDI_P ] is not used by the proces system info: constant [SCRGRE_E ] is not used by the proces system info: constant [SCRGRE_N ] is not used by the proces system info: constant [SCRGRE_P ] is not used by the proces system info: constant [SCRAPH_E ] is not used by the proces system info: constant [SCRAPH_N ] is not used by the proces system info: constant [SCRAPH_P ] is not used by the proces system info: constant [SCRMIC_E ] is not used by the proces system info: constant [SCRMIC_N ] is not used by the proces system info: constant [SCRMIC_P ] is not used by the proces system info: constant [SCROSC_E ] is not used by the proces system info: constant [SCROSC_N ] is not used by the proces system info: constant [SCROSC_P ] is not used by the proces system info: constant [ChlaCFDI_E] is not used by the proces system info: constant [ChlaCFDI_P] is not used by the proces system info: constant [ChlaCGRE_E] is not used by the proces system info: constant [ChlaCGRE_N] is not used by the proces system info: constant [ChlaCGRE_P] is not used by the proces system info: constant [ChlaCAPH_E] is not used by the proces system info: constant [ChlaCAPH_N] is not used by the proces system info: constant [ChlaCAPH_P] is not used by the proces system info: constant [ChlaCMIC_E] is not used by the proces system info: constant [ChlaCMIC_N] is not used by the proces system info: constant [ChlaCMIC_P] is not used by the proces system info: constant [ChlaCOSC_E] is not used by the proces system info: constant [ChlaCOSC_N] is not used by the proces system info: constant [ChlaCOSC_P] is not used by the proces system info: constant [PPMaxFDI_E] is not used by the proces system info: constant [PPMaxFDI_P] is not used by the proces system info: constant [PPMaxGRE_E] is not used by the proces system info: constant [PPMaxGRE_N] is not used by the proces system info: constant [PPMaxGRE_P] is not used by the proces system info: constant [PPMaxAPH_E] is not used by the proces system info: constant [PPMaxAPH_N] is not used by the proces system info: constant [PPMaxAPH_P] is not used by the proces system info: constant [PPMaxMIC_E] is not used by the proces system info: constant [PPMaxMIC_N] is not used by the proces system info: constant [PPMaxMIC_P] is not used by the proces system info: constant [PPMaxOSC_E] is not used by the proces system info: constant [PPMaxOSC_N] is not used by the proces system info: constant [PPMaxOSC_P] is not used by the proces system info: constant [TcPMxFDI_E] is not used by the proces system info: constant [TcPMxFDI_P] is not used by the proces system info: constant [TcPMxGRE_E] is not used by the proces system info: constant [TcPMxGRE_N] is not used by the proces system info: constant [TcPMxGRE_P] is not used by the proces system info: constant [TcPMxAPH_E] is not used by the proces system info: constant [TcPMxAPH_N] is not used by the proces system info: constant [TcPMxAPH_P] is not used by the proces system info: constant [TcPMxMIC_E] is not used by the proces system info: constant [TcPMxMIC_N] is not used by the proces system info: constant [TcPMxMIC_P] is not used by the proces system info: constant [TcPMxOSC_E] is not used by the proces system info: constant [TcPMxOSC_N] is not used by the proces system info: constant [TcPMxOSC_P] is not used by the proces system info: constant [TFPMxFDI_E] is not used by the proces system info: constant [TFPMxFDI_P] is not used by the proces system info: constant [TFPMxGRE_E] is not used by the proces system info: constant [TFPMxGRE_N] is not used by the proces system info: constant [TFPMxGRE_P] is not used by the proces system info: constant [TFPMxAPH_E] is not used by the proces system info: constant [TFPMxAPH_N] is not used by the proces system info: constant [TFPMxAPH_P] is not used by the proces system info: constant [TFPMxMIC_E] is not used by the proces system info: constant [TFPMxMIC_N] is not used by the proces system info: constant [TFPMxMIC_P] is not used by the proces system info: constant [TFPMxOSC_E] is not used by the proces system info: constant [TFPMxOSC_N] is not used by the proces system info: constant [TFPMxOSC_P] is not used by the proces system info: constant [Mort0FDI_E] is not used by the proces system info: constant [Mort0FDI_P] is not used by the proces system info: constant [Mort0GRE_E] is not used by the proces system info: constant [Mort0GRE_N] is not used by the proces system info: constant [Mort0GRE_P] is not used by the proces system info: constant [Mort0APH_E] is not used by the proces system info: constant [Mort0APH_N] is not used by the proces system info: constant [Mort0APH_P] is not used by the proces system info: constant [Mort0MIC_E] is not used by the proces system info: constant [Mort0MIC_N] is not used by the proces system info: constant [Mort0MIC_P] is not used by the proces system info: constant [Mort0OSC_E] is not used by the proces system info: constant [Mort0OSC_N] is not used by the proces system info: constant [Mort0OSC_P] is not used by the proces system info: constant [TcMrtFDI_E] is not used by the proces system info: constant [TcMrtFDI_P] is not used by the proces system info: constant [TcMrtGRE_E] is not used by the proces system info: constant [TcMrtGRE_N] is not used by the proces system info: constant [TcMrtGRE_P] is not used by the proces system info: constant [TcMrtAPH_E] is not used by the proces system info: constant [TcMrtAPH_N] is not used by the proces system info: constant [TcMrtAPH_P] is not used by the proces system info: constant [TcMrtMIC_E] is not used by the proces system info: constant [TcMrtMIC_N] is not used by the proces system info: constant [TcMrtMIC_P] is not used by the proces system info: constant [TcMrtOSC_E] is not used by the proces system info: constant [TcMrtOSC_N] is not used by the proces system info: constant [TcMrtOSC_P] is not used by the proces system info: constant [MRespFDI_E] is not used by the proces system info: constant [MRespFDI_P] is not used by the proces system info: constant [MRespGRE_E] is not used by the proces system info: constant [MRespGRE_N] is not used by the proces system info: constant [MRespGRE_P] is not used by the proces system info: constant [MRespAPH_E] is not used by the proces system info: constant [MRespAPH_N] is not used by the proces system info: constant [MRespAPH_P] is not used by the proces system info: constant [MRespMIC_E] is not used by the proces system info: constant [MRespMIC_N] is not used by the proces system info: constant [MRespMIC_P] is not used by the proces system info: constant [MRespOSC_E] is not used by the proces system info: constant [MRespOSC_N] is not used by the proces system info: constant [MRespOSC_P] is not used by the proces system info: constant [TcRspFDI_E] is not used by the proces system info: constant [TcRspFDI_P] is not used by the proces system info: constant [TcRspGRE_E] is not used by the proces system info: constant [TcRspGRE_N] is not used by the proces system info: constant [TcRspGRE_P] is not used by the proces system info: constant [TcRspAPH_E] is not used by the proces system info: constant [TcRspAPH_N] is not used by the proces system info: constant [TcRspAPH_P] is not used by the proces system info: constant [TcRspMIC_E] is not used by the proces system info: constant [TcRspMIC_N] is not used by the proces system info: constant [TcRspMIC_P] is not used by the proces system info: constant [TcRspOSC_E] is not used by the proces system info: constant [TcRspOSC_N] is not used by the proces system info: constant [TcRspOSC_P] is not used by the proces system info: constant [VsedFDI_E ] is not used by the proces system info: constant [VsedFDI_P ] is not used by the proces system info: constant [VsedGRE_E ] is not used by the proces system info: constant [VsedGRE_N ] is not used by the proces system info: constant [VsedGRE_P ] is not used by the proces system info: constant [VsedAPH_E ] is not used by the proces system info: constant [VsedAPH_N ] is not used by the proces system info: constant [VsedAPH_P ] is not used by the proces system info: constant [VsedMIC_E ] is not used by the proces system info: constant [VsedMIC_N ] is not used by the proces system info: constant [VsedMIC_P ] is not used by the proces system info: constant [VsedOSC_E ] is not used by the proces system info: constant [VsedOSC_N ] is not used by the proces system info: constant [VsedOSC_P ] is not used by the proces system info: constant [SWOxyProd ] is not used by the proces system info: constant [T1MXPP ] is not used by the proces system info: constant [T2MXPP ] is not used by the proces system info: constant [ZThreshold] is not used by the proces system info: constant [CLOSE_ERR ] is not used by the proces system info: constant [MaxIter ] is not used by the proces system info: constant [Tolerance ] is not used by the proces system info: constant [Iteration ] is not used by the proces system info: constant [RcMGRWV03 ] is not used by the proces system info: parameter [fixth ] is not used by the proces system info: parameter [TaucS ] is not used by the proces system info: function [DayL ] is not used by the proces system # locating requested output from active processes warning: output [X_VB01availN ] not located output [Depth ] from proces [DynDepth ] output [TotalDepth ] from proces [TotDepth ] output [LocSedDept ] from proces [TotDepth ] output [VB01Navail ] from proces [VB01availN] output [VB01Pavail ] from proces [VB01availN] output [VB01Savail ] from proces [VB01availN] output [VB02Navail ] from proces [VB02availN] output [VB02Pavail ] from proces [VB02availN] output [VB02Savail ] from proces [VB02availN] output [VB03Navail ] from proces [VB03availN] output [VB03Pavail ] from proces [VB03availN] output [VB03Savail ] from proces [VB03availN] output [VB04Navail ] from proces [VB04availN] output [VB04Pavail ] from proces [VB04availN] output [VB04Savail ] from proces [VB04availN] output [VB05Navail ] from proces [VB05availN] output [VB05Pavail ] from proces [VB05availN] output [VB05Savail ] from proces [VB05availN] output [VB06Navail ] from proces [VB06availN] output [VB06Pavail ] from proces [VB06availN] output [VB06Savail ] from proces [VB06availN] output [VB07Navail ] from proces [VB07availN] output [VB07Pavail ] from proces [VB07availN] output [VB07Savail ] from proces [VB07availN] output [F2VB01 ] from proces [VB01availN] output [F5VB01 ] from proces [VB01availN] output [F2VB02 ] from proces [VB02availN] output [F5VB02 ] from proces [VB02availN] output [F2VB03 ] from proces [VB03availN] output [F5VB03 ] from proces [VB03availN] output [F2VB04 ] from proces [VB04availN] output [F5VB04 ] from proces [VB04availN] output [F2VB05 ] from proces [VB05availN] output [F5VB05 ] from proces [VB05availN] output [F2VB06 ] from proces [VB06availN] output [F5VB06 ] from proces [VB06availN] output [F2VB07 ] from proces [VB07availN] output [F5VB07 ] from proces [VB07availN] warning: output [X_VBStatus01 ] not located warning: output [DELT ] not located output [SwVB01Gro ] from proces [VBStatus01] output [SwVB01Mrt ] from proces [VBStatus01] output [SwVB02Gro ] from proces [VBStatus02] output [SwVB02Mrt ] from proces [VBStatus02] output [SwVB03Gro ] from proces [VBStatus03] output [SwVB03Mrt ] from proces [VBStatus03] output [SwVB04Gro ] from proces [VBStatus04] output [SwVB04Mrt ] from proces [VBStatus04] output [SwVB05Gro ] from proces [VBStatus05] output [SwVB05Mrt ] from proces [VBStatus05] output [SwVB06Gro ] from proces [VBStatus06] output [SwVB06Mrt ] from proces [VBStatus06] output [SwVB07Gro ] from proces [VBStatus07] output [SwVB07Mrt ] from proces [VBStatus07] output [nscdVB01 ] from proces [VBStatus01] output [nscdVB02 ] from proces [VBStatus02] output [nscdVB03 ] from proces [VBStatus03] output [nscdVB04 ] from proces [VBStatus04] output [nscdVB05 ] from proces [VBStatus05] output [nscdVB06 ] from proces [VBStatus06] output [nscdVB07 ] from proces [VBStatus07] warning: output [X_VBGrowth01 ] not located output [iniVB01 ] default from [VBGrowth01 ] output [VB01ha ] from proces [VBGrowth01] output [VB01Aha ] from proces [VBGrowth01] output [fVB01 ] from proces [VBGrowth01] output [NutLimVB01 ] from proces [VBGrowth01] output [iniVB02 ] default from [VBGrowth02 ] output [VB02ha ] from proces [VBGrowth02] output [VB02Aha ] from proces [VBGrowth02] output [fVB02 ] from proces [VBGrowth02] output [NutLimVB02 ] from proces [VBGrowth02] output [iniVB03 ] default from [VBGrowth03 ] output [VB03ha ] from proces [VBGrowth03] output [VB03Aha ] from proces [VBGrowth03] output [fVB03 ] from proces [VBGrowth03] output [NutLimVB03 ] from proces [VBGrowth03] output [iniVB04 ] default from [VBGrowth04 ] output [VB04ha ] from proces [VBGrowth04] output [VB04Aha ] from proces [VBGrowth04] output [fVB04 ] from proces [VBGrowth04] output [NutLimVB04 ] from proces [VBGrowth04] output [iniVB05 ] default from [VBGrowth05 ] output [VB05ha ] from proces [VBGrowth05] output [VB05Aha ] from proces [VBGrowth05] output [fVB05 ] from proces [VBGrowth05] output [NutLimVB05 ] from proces [VBGrowth05] output [iniVB06 ] default from [VBGrowth06 ] output [VB06ha ] from proces [VBGrowth06] output [VB06Aha ] from proces [VBGrowth06] output [fVB06 ] from proces [VBGrowth06] output [NutLimVB06 ] from proces [VBGrowth06] output [iniVB07 ] default from [VBGrowth07 ] output [VB07ha ] from proces [VBGrowth07] output [VB07Aha ] from proces [VBGrowth07] output [fVB07 ] from proces [VBGrowth07] output [NutLimVB07 ] from proces [VBGrowth07] warning: output [X_VBMort01 ] not located output [rMrtVB01 ] from proces [VBMort01 ] output [fMrtVB01 ] from proces [VBMort01 ] output [rMrtVB02 ] from proces [VBMort02 ] output [fMrtVB02 ] from proces [VBMort02 ] output [rMrtVB03 ] from proces [VBMort03 ] output [fMrtVB03 ] from proces [VBMort03 ] output [rMrtVB04 ] from proces [VBMort04 ] output [fMrtVB04 ] from proces [VBMort04 ] output [rMrtVB05 ] from proces [VBMort05 ] output [fMrtVB05 ] from proces [VBMort05 ] output [rMrtVB06 ] from proces [VBMort06 ] output [fMrtVB06 ] from proces [VBMort06 ] output [rMrtVB07 ] from proces [VBMort07 ] output [fMrtVB07 ] from proces [VBMort07 ] output [fC2VB01P1 ] from proces [VBMort01 ] output [fC2VB01P2 ] from proces [VBMort01 ] output [fC2VB01P3 ] from proces [VBMort01 ] output [fN2VB01P1 ] from proces [VBMort01 ] output [fN2VB01P2 ] from proces [VBMort01 ] output [fN2VB01P3 ] from proces [VBMort01 ] output [fP2VB01P1 ] from proces [VBMort01 ] output [fP2VB01P2 ] from proces [VBMort01 ] output [fP2VB01P3 ] from proces [VBMort01 ] output [fS2VB01P1 ] from proces [VBMort01 ] output [fS2VB01P2 ] from proces [VBMort01 ] output [fS2VB01P3 ] from proces [VBMort01 ] output [fC5VB01P1 ] from proces [VBMort01 ] output [fC5VB01P2 ] from proces [VBMort01 ] output [fC5VB01P3 ] from proces [VBMort01 ] output [fN5VB01P1 ] from proces [VBMort01 ] output [fN5VB01P2 ] from proces [VBMort01 ] output [fN5VB01P3 ] from proces [VBMort01 ] output [fP5VB01P1 ] from proces [VBMort01 ] output [fP5VB01P2 ] from proces [VBMort01 ] output [fP5VB01P3 ] from proces [VBMort01 ] output [fS5VB01P1 ] from proces [VBMort01 ] output [fS5VB01P2 ] from proces [VBMort01 ] output [fS5VB01P3 ] from proces [VBMort01 ] output [fC1VB01P5 ] from proces [VBMort01 ] output [fC3VB01P5 ] from proces [VBMort01 ] output [fC4VB01P5 ] from proces [VBMort01 ] output [fN1VB01P5 ] from proces [VBMort01 ] output [fN3VB01P5 ] from proces [VBMort01 ] output [fN4VB01P5 ] from proces [VBMort01 ] output [fP1VB01P5 ] from proces [VBMort01 ] output [fP3VB01P5 ] from proces [VBMort01 ] output [fP4VB01P5 ] from proces [VBMort01 ] output [fS1VB01P5 ] from proces [VBMort01 ] output [fS3VB01P5 ] from proces [VBMort01 ] output [fS4VB01P5 ] from proces [VBMort01 ] warning: output [X_VB01_Mrt3W ] not located output [ffVB01MrtW ] from proces [VB01_Mrt3W] output [fC2VB01P1y ] from proces [VB01_Mrt3W] output [fC2VB01P2y ] from proces [VB01_Mrt3W] output [fC2VB01P3y ] from proces [VB01_Mrt3W] output [fN2VB01P1y ] from proces [VB01_Mrt3W] output [fN2VB01P2y ] from proces [VB01_Mrt3W] output [fN2VB01P3y ] from proces [VB01_Mrt3W] output [fP2VB01P1y ] from proces [VB01_Mrt3W] output [fP2VB01P2y ] from proces [VB01_Mrt3W] output [fP2VB01P3y ] from proces [VB01_Mrt3W] output [fS2VB01P1y ] from proces [VB01_Mrt3W] output [fS2VB01P2y ] from proces [VB01_Mrt3W] output [fS2VB01P3y ] from proces [VB01_Mrt3W] output [fC1VB01P5y ] from proces [VB01_Mrt3W] output [fC3VB01P5y ] from proces [VB01_Mrt3W] output [fN1VB01P5y ] from proces [VB01_Mrt3W] output [fN3VB01P5y ] from proces [VB01_Mrt3W] output [fP1VB01P5y ] from proces [VB01_Mrt3W] output [fP3VB01P5y ] from proces [VB01_Mrt3W] output [fS1VB01P5y ] from proces [VB01_Mrt3W] output [fS3VB01P5y ] from proces [VB01_Mrt3W] output [ffVB01MrtS ] from proces [VB01_Mrt3S] output [fC5VB01P1y ] from proces [VB01_Mrt3S] output [fC5VB01P2y ] from proces [VB01_Mrt3S] output [fC5VB01P3y ] from proces [VB01_Mrt3S] output [fN5VB01P1y ] from proces [VB01_Mrt3S] output [fN5VB01P2y ] from proces [VB01_Mrt3S] output [fN5VB01P3y ] from proces [VB01_Mrt3S] output [fP5VB01P1y ] from proces [VB01_Mrt3S] output [fP5VB01P2y ] from proces [VB01_Mrt3S] output [fP5VB01P3y ] from proces [VB01_Mrt3S] output [fS5VB01P1y ] from proces [VB01_Mrt3S] output [fS5VB01P2y ] from proces [VB01_Mrt3S] output [fS5VB01P3y ] from proces [VB01_Mrt3S] output [fC4VB01P5y ] from proces [VB01_Mrt3S] output [fN4VB01P5y ] from proces [VB01_Mrt3S] output [fP4VB01P5y ] from proces [VB01_Mrt3S] output [fS4VB01P5y ] from proces [VB01_Mrt3S] warning: output [X_VB01Upt ] not located warning: output [SwVB01WV ] not located output [fNVB01up ] from proces [VB01Upt ] output [fPVB01up ] from proces [VB01Upt ] output [fSVB01up ] from proces [VB01Upt ] output [fNVB02up ] from proces [VB02Upt ] output [fPVB02up ] from proces [VB02Upt ] output [fSVB02up ] from proces [VB02Upt ] output [fNVB03up ] from proces [VB03Upt ] output [fPVB03up ] from proces [VB03Upt ] output [fSVB03up ] from proces [VB03Upt ] output [fNVB04up ] from proces [VB04Upt ] output [fPVB04up ] from proces [VB04Upt ] output [fSVB04up ] from proces [VB04Upt ] output [fNVB05up ] from proces [VB05Upt ] output [fPVB05up ] from proces [VB05Upt ] output [fSVB05up ] from proces [VB05Upt ] output [fNVB06up ] from proces [VB06Upt ] output [fPVB06up ] from proces [VB06Upt ] output [fSVB06up ] from proces [VB06Upt ] output [fNVB07up ] from proces [VB07Upt ] output [fPVB07up ] from proces [VB07Upt ] output [fSVB07up ] from proces [VB07Upt ] warning: output [X_VB01_Upt3D ] not located output [fN1VB01upy ] from proces [VB01_Upt3D] output [fN2VB01upy ] from proces [VB01_Upt3D] output [fP1VB01upy ] from proces [VB01_Upt3D] output [fP2VB01upy ] from proces [VB01_Upt3D] output [fS1VB01upy ] from proces [VB01_Upt3D] output [fS2VB01upy ] from proces [VB01_Upt3D] output [LocalDepth ] from proces [TotDepth ] output [Poros ] from proces [DMVolume ] output [ActTh ] from proces [DMVolume ] output [Rad ] from proces [CalcRad ] output [DayRadSurf ] from proces [DAYRAD ] output [RadDay ] from proces [CalcRadDay] output [ExtVl ] from proces [Extinc_VLG] output [ExtVlPhyt ] default from [Extinc_VLG ] output [ExtVlOSS ] from proces [Extinc_VLG] output [ExtVlISS ] from proces [Extinc_VLG] output [SecchiDept ] from proces [Secchi ] warning: output [APHANIZO ] not located warning: output [FDIATOMS ] not located warning: output [GREENS ] not located warning: output [MICROCYS ] not located warning: output [OSCILAT ] not located output [Phyt ] default from [Compos ] output [AlgP ] default from [Compos ] output [Chlfa ] default from [Secchi ] warning: output [Limit Chlo ] not located warning: output [Limit nit ] not located warning: output [Limit pho ] not located warning: output [Limit sil ] not located warning: output [Limit e ] not located warning: output [Limit gro ] not located warning: output [Limit mor ] not located warning: output [fPPtot ] not located output [CZooplank ] from proces [CONSBL ] output [CMussel ] from proces [CONSBL ] output [SS ] from proces [Compos ] output [TOC ] from proces [Compos ] output [POC ] from proces [Compos ] output [TotN ] from proces [Compos ] output [TotP ] from proces [Compos ] output [TOP ] from proces [Compos ] output [TON ] from proces [Compos ] output [FrOxCon ] from proces [CONSELAC ] output [FrNiDen ] from proces [CONSELAC ] output [FrSuRed ] from proces [CONSELAC ] output [FrMetGen ] from proces [CONSELAC ] output [DisSWK ] from proces [SPECSUD ] output [SaturOXY ] from proces [SaturOXY ] output [botsegVB01 ] from proces [VBStatus01] output [botsegVB02 ] from proces [VBStatus02] output [botsegVB03 ] from proces [VBStatus03] output [botsegVB04 ] from proces [VBStatus04] output [botsegVB05 ] from proces [VBStatus05] output [botsegVB06 ] from proces [VBStatus06] output [botsegVB07 ] from proces [VBStatus07] output [rGWV01 ] from proces [VBGrowth01] output [rGWV02 ] from proces [VBGrowth02] output [rGWV03 ] from proces [VBGrowth03] output [rGWV04 ] from proces [VBGrowth04] output [rGWV05 ] from proces [VBGrowth05] output [rGWV06 ] from proces [VBGrowth06] output [rGWV07 ] from proces [VBGrowth07] warning: output [rGWV08 ] not located warning: output [rGWV09 ] not located output [nsfVB ] default from [VBStatus01 ] output [ageVB01 ] from proces [VBGrowth01] output [ageVB02 ] from proces [VBGrowth02] output [ageVB03 ] from proces [VBGrowth03] output [ageVB04 ] from proces [VBGrowth04] output [ageVB05 ] from proces [VBGrowth05] output [ageVB06 ] from proces [VBGrowth06] output [ageVB07 ] from proces [VBGrowth07] warning: output [ageVB08 ] not located warning: output [ageVB09 ] not located output [SwVB01Dec ] from proces [VBGrowth01] output [SwVB02Dec ] from proces [VBGrowth02] output [SwVB03Dec ] from proces [VBGrowth03] output [SwVB04Dec ] from proces [VBGrowth04] output [SwVB05Dec ] from proces [VBGrowth05] output [SwVB06Dec ] from proces [VBGrowth06] output [SwVB07Dec ] from proces [VBGrowth07] warning: output [SwVB08Dec ] not located warning: output [SwVB09Dec ] not located warning: output [NutLimVB08 ] not located warning: output [NutLimVB09 ] not located