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RBBGCMuso/inst/examples/hhs/c3grass_muso6.epc Normal file
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ECOPHYS FILE - C3 grass muso6
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FLAGS
0 (flag) biome type flag (1 = WOODY 0 = NON-WOODY)
0 (flag) woody type flag (1 = EVERGREEN 0 = DECIDUOUS)
1 (flag) photosyn. type flag (1 = C3 PSN 0 = C4 PSN)
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PLANT FUNCTIONING PARAMETERS
0 (yday) yearday to start new growth (when phenology flag = 0)
364 (yday) yearday to end litterfall (when phenology flag = 0)
1.0 (prop.) transfer growth period as fraction of growing season (when transferGDD_flag = 0)
1.0 (prop.) litterfall as fraction of growing season (when transferGDD_flag = 0)
0 (Celsius) base temperature
-9999 (Celsius) minimum temperature for growth displayed on current day (-9999: no T-dependence)
-9999 (Celsius) optimal1 temperature for growth displayed on current day (-9999: no T-dependence)
-9999 (Celsius) optimal2 temperature for growth displayed on current day (-9999: no T-dependence)
-9999 (Celsius) maxmimum temperature for growth displayed on current day (-9999: no T-dependence)
-9999 (Celsius) minimum temperature for carbon assimilation on current day (-9999: no T-dependence)
-9999 (Celsius) optimal1 temperature for carbon assimilation on current day (-9999: no T-dependence)
-9999 (Celsius) optimal2 temperature for carbon assimilation on current day (-9999: no T-dependence)
-9999 (Celsius) maxmimum temperature for carbon assimilation on current day (-9999: no T-dependence)
1.0 (1/yr) annual leaf and fine root turnover fraction
0.00 (1/yr) annual live wood turnover fraction
0.0 (1/yr) annual fire mortality fraction
0.01 (1/vegper) whole-plant mortality fraction in vegetation period
36.6 (kgC/kgN) C:N of leaves
45.0 (kgC/kgN) C:N of leaf litter, after retranslocation
50.0 (kgC/kgN) C:N of fine roots
36.6 *(kgC/kgN) C:N of fruit
36.6 (kgC/kgN) C:N of soft stem
0.0 *(kgC/kgN) C:N of live wood
0.0 *(kgC/kgN) C:N of dead wood
0.4 (kgC/kgDM) dry matter carbon content of leaves
0.4 (kgC/kgDM) dry matter carbon content of leaf litter
0.4 (kgC/kgDM) dry matter carbon content of fine roots
0.4 *(kgC/kgDM) dry matter carbon content of fruit
0.4 (kgC/kgDM) dry matter carbon content of soft stem
0.4 *(kgC/kgDM) dry matter carbon content of live wood
0.4 *(kgC/kgDM) dry matter carbon content of dead wood
0.68 (DIM) leaf litter labile proportion
0.23 (DIM) leaf litter cellulose proportion
0.34 (DIM) fine root labile proportion
0.44 (DIM) fine root cellulose proportion
0.68 *(DIM) fruit litter labile proportion
0.23 *(DIM) fruit litter cellulose proportion
0.68 (DIM) soft stem litter labile proportion
0.23 (DIM) soft stem litter cellulose proportion
0.00 *(DIM) dead wood cellulose proportion
0.01 (1/LAI/d) canopy water interception coefficient
0.7 (DIM) canopy light extinction coefficient
0.6 (g/MJ) potential radiation use efficiency
0.781 (DIM) radiation parameter1 (Jiang et al.2015)
-13.596 (DIM) radiation parameter2 (Jiang et al.2015)
2.0 (DIM) all-sided to projected leaf area ratio
2.0 (DIM) ratio of shaded SLA:sunlit SLA
0.3 (DIM) fraction of leaf N in Rubisco
0.03 (DIM) fraction of leaf N in PEP Carboxylase
0.002 (m/s) maximum stomatal conductance (projected area basis)
0.00006 (m/s) cuticular conductance (projected area basis)
0.039 (m/s) boundary layer conductance (projected area basis)
1.0 (m) maximum height of plant
0.8 (kgC) stem weight corresponding to maximum height
0.5 (dimless) plant height function shape parameter (slope)
1.0 (m) maximum depth of rooting zone
2.67 (DIM) root distribution parameter
0.4 (kgC) root weight corresponding to max root depth
0.5 (dimless) root depth function shape parameter (slope)
1000 (m/kg) root weight to rooth length conversion factor
0.3 (prop.) growth resp per unit of C grown
0.195 (kgC/kgN/d) maintenance respiration in kgC/day per kg of tissue N
0.1 (DIM) theoretical maximum prop. of non-structural and structural carbohydrates
0.24 (DIM) prop. of non-structural carbohydrates available for maintanance respiration
0.0048 (kgN/m2/yr) symbiotic+asymbiotic fixation of N
0 (day) time delay for temperature in photosynthesis acclimation
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CROP SPECIFIC PARAMETERS
0 (DIM) number of phenophase of germination (from 1 to 7; 0: NO specific)
0 (DIM) number of phenophase of emergence (from 1 to 7; 0: NO specific)
0.5 (prop.) critical VWCratio (prop. to FC-WP) in germination
0 (DIM) number of phenophase of photoperiodic slowing effect (from 1 to 7; 0: NO effect)
20 (hour) critical photoslow daylength
0.005 (DIM) slope of relative photoslow development rate
0 (DIM) number of phenophase of vernalization (from 1 to 7; 0: NO effect)
0 (Celsius) critical vernalization temperature 1
5 (Celsius) critical vernalization temperature 2
8 (Celsius) critical vernalization temperature 3
15 (Celsius) critical vernalization temperature 4
0.04 (DIM) slope of relative vernalization development rate
50 (n) required vernalization days (in vernalization development rate)
0 (DIM) number of flowering phenophase (from 1 to 7;0: NO effect)
35 (Celsius) critical flowering heat stress temperature 1
40 (Celsius) critical flowering heat stress temperature 2
0.2 (prop.) theoretical maximum of flowering thermal stress mortality parameter
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STRESS AND SENESCENCE PARAMETERS
1.0 (prop) VWC ratio to calc. soil moisture limit 1 (prop. to FC-WP)
0.95 (prop) VWC ratio to calc. soil moisture limit 2 (prop. to SAT-FC)
0.4 (prop) minimum of soil moisture limit2 multiplicator (full anoxic stress value)
1000 (Pa) vapor pressure deficit: start of conductance reduction
2800 (Pa) vapor pressure deficit: complete conductance reduction
0.03 (prop.) maximum senescence mortality coefficient of aboveground plant material
0.02 (prop.) maximum senescence mortality coefficient of belowground plant material
0.01 (prop.) maximum senescence mortality coefficient of non-structured plant material
35 (Celsius) lower limit extreme high temperature effect on senescence mortality
40 (Celsius) upper limit extreme high temperature effect on senescence mortality
0.01 (prop.) turnover rate of wilted standing biomass to litter
0.047 (prop.) turnover rate of non-woody cut-down biomass to litter
0.01 (prop.) turnover rate of woody cut-down biomass to litter
30 (nday) drought tolerance parameter (critical value of DSWS)
0.2 (dimless) effect of soilstress factor on photosynthesis (1: full effect, 0: no effect)
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GROWING SEASON PARAMETERS
5 (kg/m2) crit. amount of snow limiting photosyn.
20 (Celsius) limit1 (under:full constrained) of HEATSUM index
60 (Celsius) limit2 (above:unconstrained) of HEATSUM index
0 (Celsius) limit1 (under:full constrained) of TMIN index
5 (Celsius) limit2 (above:unconstrained) of TMIN index
4000 (Pa) limit1 (above:full constrained) of VPD index
1000 (Pa) limit2 (under:unconstrained) of VPD index
0 (s) limit1 (under:full constrained) of DAYLENGTH index
0 (s) limit2 (above:unconstrained) of DAYLENGTH index
10 (day) moving average (to avoid the effects of extreme events)
0.10 (dimless) GSI limit1 (greater that limit -> start of vegper)
0.01 (dimless) GSI limit2 (less that limit -> end of vegper)
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PHENOLOGICAL (ALLOCATION) PARAMETERS (7 phenological phases)
phase1 phase2 phase3 phase4 phase5 phase6 phase7 (text) name of the phenophase
10000 200 500 200 400 200 100 (Celsius) length of phenophase (GDD)
0.3 0.3 0.3 0.3 0.3 0.3 0.3 (ratio) leaf ALLOCATION
0.5 0.5 0.5 0.5 0.5 0.5 0.5 (ratio) fine root ALLOCATION
0.0 0.0 0.0 0.0 0.0 0.0 0.0 (ratio) fruit ALLOCATION
0.2 0.2 0.2 0.2 0.2 0.2 0.2 (ratio) soft stem ALLOCATION
0 0 0 0 0 0 0 (ratio) live woody stem ALLOCATION
0 0 0 0 0 0 0 (ratio) dead woody stem ALLOCATION
0 0 0 0 0 0 0 (ratio) live coarse root ALLOCATION
0 0 0 0 0 0 0 (ratio) dead coarse root ALLOCATION
49 49 49 49 49 49 49 (m2/kgC) canopy average specific leaf area (projected area basis)
0.37 0.37 0.37 0.37 0.37 0.37 0.37 (prop.) current growth proportion
10000 10000 10000 10000 10000 10000 10000 (Celsius) maximal lifetime of plant tissue

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SOILPROP FILE - hhs muso6
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NITROGEN AND DECOMPOSITION PARAMETERS
0.1 (prop.) denitrification rate per g of CO2 respiration of SOM
0.2 (prop.) nitrification coefficient 1
0.07 (prop.) nitrification coefficient 2
0.02 (prop.) coefficient of N2O emission of nitrification
0.1 (prop.) NH4 mobilen proportion
1.0 (prop.) NO3 mobilen proportion
10 (m) e-folding depth of decomposition rate's depth scalar
0.002 (prop.) fraction of dissolved part of SOIL1 organic matter
0.002 (prop.) fraction of dissolved part of SOIL2 organic matter
0.002 (prop.) fraction of dissolved part of SOIL3 organic matter
0.002 (prop.) fraction of dissolved part of SOIL4 organic matter
0.1 (prop.) minimum WFPS for scalar of nitrification calculation
0.45 (prop.) lower optimum WFPS for scalar of nitrification calculation
0.55 (prop.) higher optimum WFPS for scalar of nitrification calculation
0.2 (prop.) minimum value for saturated WFPS scalar of nitrification calculation
10 (ppm) critical value of dissolved N and C in bottom (inactive layer)
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RATE SCALARS
0.35 (prop) respiration fractions for fluxes between compartments (l1s1)
0.50 (prop) respiration fractions for fluxes between compartments (l2s2)
0.26 (prop) respiration fractions for fluxes between compartments (l4s3)
0.25 (prop) respiration fractions for fluxes between compartments (s1s2)
0.41 (prop) respiration fractions for fluxes between compartments (s2s3)
0.50 (prop) respiration fractions for fluxes between compartments (s3s4)
0.7 (1/day) rate constant scalar of labile litter pool
0.07 (1/day) rate constant scalar of cellulose litter pool
0.014 (1/day) rate constant scalar of lignin litter pool
0.07 (1/day) rate constant scalar of fast microbial recycling pool
0.014 (1/day) rate constant scalar of medium microbial recycling pool
0.0014 (1/day) rate constant scalar of slow microbial recycling pool
0.0001 (1/day) rate constant scalar of recalcitrant SOM (humus) pool
0.001 (1/day) rate constant scalar of physical fragmentation of coarse woody debris
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CH4 PARAMETERS
212.5 (DIM) soil CH4 emission bulk density dependence parameter1
1.81 (DIM) soil CH4 emission bulk density dependence parameter2
-1.353 (DIM) soil CH4 emission soil water content dependence parameter1
0.2 (DIM) soil CH4 emission soil water content dependence parameter2
1.781 (DIM) soil CH4 emission soil water content dependence parameter3
6.786 (DIM) soil CH4 emission soil water content dependence parameter4
0.010 (DIM) soil CH4 emission soil temperature dependence parameter1
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SOIL PARAMETERS
2 (m) depth of soil
6 (mm) limit of first stage evaporation
20.00 (mm) maximum height of pond water
1 (dimless) curvature of soil stress function
-9999 (dimless) measured runoff curve number (-9999: no measured data, model estimation)
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SOIL COMPOSITION AND CHARACTERISTIC VALUES (-9999: no measured data)
30.0 30.0 30.0 30.0 30.0 30.0 30.0 30.0 30.0 30.0 (%) sand percentage by volume in rock-free soil
50.0 50.0 50.0 50.0 50.0 50.0 50.0 50.0 50.0 50.0 (%) silt percentage by volume in rock-free soil
7.0 7.0 7.0 7.0 7.0 7.0 7.0 7.0 7.0 7.0 (dimless) soil pH (dimless) measured runoff curve number
-9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 (g/cm3) bulk density
-9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 (m3/m3) SWC at saturation
-9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 (m3/m3) SWC at field capacity
-9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 (m3/m3) SWC at wilting point
-9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 (m3/m3) SWC at hygroscopic water content
-9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 (dimless) drainage coefficient
-9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 -9999 (cm/day) hydraulic condictivity at saturation

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ABREVIATION,INDEX,min,max MuSo6
TRANSFERGROWTHP,11,0.1,1
T_BASE,13,0,8
WPM,25,0,0.1
CN_leaf,26,14.3,58.8
CWIC,49,0.01,0.07
CLEC,50,0.3,0.8
FLNR,56,0.1,0.2
MSTOMACOND,58,0.001,0.007
ROOTDEPTH,64,0.5,3
ROOTDISTRIB,65,0.2,5
RELSWCCRIT1,96,0.97,1
RELSWCCRIT2,97,0.4,1
SENESCENCABG,101,0,0.1
SLA,137.60,10,60
1 ABREVIATION INDEX min max MuSo6
2 TRANSFERGROWTHP 11 0.1 1
3 T_BASE 13 0 8
4 WPM 25 0 0.1
5 CN_leaf 26 14.3 58.8
6 CWIC 49 0.01 0.07
7 CLEC 50 0.3 0.8
8 FLNR 56 0.1 0.2
9 MSTOMACOND 58 0.001 0.007
10 ROOTDEPTH 64 0.5 3
11 ROOTDISTRIB 65 0.2 5
12 RELSWCCRIT1 96 0.97 1
13 RELSWCCRIT2 97 0.4 1
14 SENESCENCABG 101 0 0.1
15 SLA 137.60 10 60