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! Emacs: -*- mode: f90 -*-
!1)  First give the timestep for writing gridded model outputs
!    It should be integer and has to be perfectly divisible 
!    by the number of total modeling time steps
!2) Define main outputs of the model as namelist
!   the particular output flag is specified as .TRUE. / .FALSE
!   for writing /not writing the output to a file
! SYNTAX = ".TURE." or ".FALSE."
&NLoutputResults
!
! switch to control write out frequency of the gridded model outputs below
! >0: after each <timeStep_model_outputs> time steps
!  0: only at end of run
! -1: daily
! -2: monthly
! -3: yearly
timeStep_model_outputs = 0
!
!----------------
! 1. states
!----------------
!
! interceptional storage (L1_inter) [mm]                              -- case  1
outputFlxState(1)=.FALSE.
!
! height of snowpack (L1_snowpack) [mm]                               -- case  2
outputFlxState(2)=.FALSE.
!
! soil water content in the single layers (L1_soilMoist) [mm]         -- case  3
outputFlxState(3)=.TRUE.
!
! volumetric soil moisture in the single layers [mm/mm]               -- case  4
! ( = L1_soilMoist / L1_soilMoistSat )
outputFlxState(4)=.FALSE.
!
! mean volumetric soil moisture averaged over all soil layers [mm/mm] -- case  5
! ( = L1_soilMoist / L1_soilMoistSat )
outputFlxState(5)=.FALSE.
!
! waterdepth in reservoir of sealed areas (L1_sealSTW) [mm]           -- case  6
outputFlxState(6)=.FALSE.
!
! waterdepth in reservoir of unsat. soil zone (L1_unsatSTW) [mm]      -- case  7
outputFlxState(7)=.FALSE.
!
! waterdepth in reservoir of sat. soil zone (L1_satSTW) [mm]          -- case  8
! --> level of GW reservoir
outputFlxState(8)=.FALSE.
!
!----------------
! 2. fluxes
!----------------
!
! actual evapotranspiration aET [mm/T]                                -- case  9
outputFlxState(9)=.FALSE. 
!
! total discharge generated per cell (L1_total_runoff) [mm/T]         -- case 10
outputFlxState(10)=.TRUE.
!
! direct runoff generated per cell   (L1_runoffSeal) [mm/T]           -- case 11
outputFlxState(11)=.FALSE.
!
! fast interflow generated per cell  (L1_fastRunoff) [mm/T]           -- case 12
outputFlxState(12)=.FALSE.
!
! slow interflow generated per cell  (L1_slowRunoff) [mm/T]           -- case 13
outputFlxState(13)=.FALSE.
!
! baseflow generated per cell        (L1_baseflow) [mm/T]             -- case 14
outputFlxState(14)=.FALSE.
!
! groundwater recharge (L1_percol) [mm/T]                             -- case 15
outputFlxState(15)=.FALSE.
/