SWITCH PARAMETERS
{isc:d}         isc            =0/1 SC: read/calc
{icn:d}         icn            =0/1 CN: dif for soils/cnum1,cnum3 for all
{idlef:d}         idlef          =0/1 day length effect in crop: without/with
{intercep:d}         intercep       =0/1 INTERCEPTION: WITHOUT/WITH
{iemeth:d}         iemeth         =0/1,2 EVAPORATION: Priestley-Taylor/Turc-Ivanov / Turc-Ivanov no monthly correction
{idvwk:d}         idvwk          =0/1 EVAPORATION CALCULUS: DVWK-Merkblatt 238
{subcatch:d}         subcatch       =0/1, all subs same parameters/individual parameterization (requires input files subcatch.def and subcatch.bsn)
{bResModule:d}         bResModule     =0/1, reservoir module off / reservoir module on
{bWAM_Module:d}         bWAM_Module    =0/1, water management module off / on
{bSnowModule:d}         bSnowModule    =0/1, snow module off / snow module on ! NOTE: This module is also extremely useful for mountainous catchments not affected by snow. Preciptiation and temperature is corrected by HRU elevation.
{radiation:d}         radiation      =0/1, 0 = read radiation data from clim1; 1 = calculate radiation after Hargreaves (latitude in degrees in file stat-outdat.csv) required!
{bDormancy:d}         bDormancy      =0/1, day length threshold for dormancy of natural vegetation: 0 = do not limit or extent; 1 = calculate from subbasin latitude
{bRunoffDat:d}         bRunoffDat     =0/1, 0 = do not read runoff.dat; 1 = read runoff.dat (required only to calculate performance criteria during runtime)
{b3SubFiles:d}         b3SubFiles     =0/1, 0 = read single .sub, .rte, .gw files from 'Sub' directory; 1 = read only three files from directory 'Sub3'
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BASIN, INITIALIZATION & CALIBRATION PARAMETERS
da                                            BASIN PARAMETERS
{da:f}
cnum1     cnum2     cnum3                     Curve number, if icn=1
{cnum1:g}   	  {cnum2:g}         {cnum3:g}
ecal      thc       epco      ec1             EVAPORATION PARAMETERS
{ecal:f}       {thc:f}       {epco:f}       {ec1:f}
gwq0      abf0      bff                       Groundwater parameters
{gwq0:f}     {abf0:f}     {bff:f}
ekc0      prf       spcon     spexp           Erosion parameters
{ekc0:f}     {prf:f}     {spcon:f}    {spexp:f}
snow1     storc1    stinco                    Initial water storage
{snow1:f}     {storc1:f}    {stinco:f}
chwc0     chxkc0    chcc0     chnnc0          Channel parameters
{chwc0:f}       {chxkc0:f}      {chcc0:f}     {chnnc0:f}
roc1      roc2      roc3      roc4            Routing coefficients
{roc1:f}     {roc2:f}     {roc3:f}     {roc4:f}
sccor     prcor     rdcor                     Correction factors
{sccor:f}     {prcor:f}     {rdcor:f}
retNsur   retNsub   retNgrw   retPsur         N & P RETENTION TIME
{retNsur:f}     {retNsub:f}   {retNgrw:f} {retPsur:f}
degNsur   degNsub   degNgrw   degPsur         N & P DECOMPOSITION RATE
{degNsur:f}     {degNsub:f}     {degNgrw:f}     {degPsur:f}
tsnfall   tmelt     smrate   gmrate           SNOW FALL&MELT PARAMETERS
{tsnfall:f}     {tmelt:f}     {smrate:f}    {gmrate:f}
xgrad1    tgrad1    ulmax0    rnew            ELEVATION-BASED CORRECTION FOR PRECIP AND TEMPERATURE
{xgrad1:f}   {tgrad1:f}      {ulmax0:f}      {rnew:f}
tlrch     evrch     tlgw                      TRANSMISSION LOSSES (TL) OF CHANNELS
{tlrch:f}       {evrch:f}       {tlgw:d}                        # tlgw: 0 = TL to shallow aquifer, 1 = TL to deep gw, 2 = to both in equal terms
maxup                                         Riparian zone parameters
{maxup:f}
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CO2 EFFECT ON NET PHOTOSYNTHESIS (alpha) & TRANSPIRATION (beta)
(ialpha,ibeta) = (1,0) OR (1,1) ONLY FOR SCENARIO PERIODS!
ialpha    ibeta     C3C4crop  CO2-ref   CO2-scen
0/1       0/1       3/4       346       406-436   OPTIONS & RANGES
{ialpha:d}        {ibeta:d}          {C3C4crop:d}         {CO2ref:d}         {CO2scen:d}
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