The Tables below presents a comprehensive list of setting options, inputs, and outputs.

Table: LISFLOOD Settings.

section (XML)	group (XML)	module	eqz	KEY	cold	warm	Type	I/O	Description
lfoptions		SETTINGS		TemperatureInKelvin			switch	input	Use temperature data in C (=0) or in K (=1)
lfoptions		SETTINGS		gridSizeUserDefined			switch	input	Get grid size attributes (length, area) from user-defined maps (instead of using map location attributes directly)
lfoptions		DYNAMIC WAVE		dynamicWave			switch	input	Activate dynamic wave routing
lfoptions		INFLOW		inflow			switch	input	Use inflow hydrographs
lfoptions		SOIL		simulatePF			switch	input	Calculate pF values from soil moisture
lfoptions		LAKES		simulateLakes			switch	input	Simulate unregulated lakes (kin. wave only)
lfoptions		POLDERS		simulatePolders			switch	input	Simulate polders (dyn. wave only)
lfoptions		RESERVOIRS		simulateReservoirs			switch	input	Simulate retention and hydropower reservoirs (kin. wave only)
lfoptions		WATER LEVELS		simulateWaterLevels			switch	input	Activate computation of water level maps / time series (does not affect routing)
lfoptions		LANDUSE CHANGE		TransientLandUseChange			switch	input	Activate reading of time changing land use description
lfoptions		WATER ABSTRACTION		TransientWaterDemandChange			switch	input	Activate reading of time changing water demand
lfoptions		WATER ABSTRACTION		useWaterDemandAveYear			switch	input	Use “average” year for water demand and loop it over years
lfoptions		TRANSMISSION LOSS		TransLoss			switch	input	Activate transmission loss
lfoptions		DOUBLE KINEMATIC WAVE		SplitRouting			switch	input	Activate double kinematic wave routing
lfoptions		WATER ABSTRACTION		wateruse			switch	input	Activate water use computation
lfoptions		GROUNDWATER		groundwaterSmooth			switch	input	Activate smoothing for groundwater to correct error by using windowtotal, based on groundwater bodies and catchments
lfoptions		WATER ABSTRACTION		wateruseRegion			switch	input	Use water regions in water use module
lfoptions		IRRIGATION		drainedIrrigation			switch	input	Use map of drainage systems to determine return flow (if drained, all percolation to channel within day; if not, all normal soil processes)
lfoptions		IRRIGATION		riceIrrigation			switch	input	Activate computation for paddy rice irrigation and abstraction
lfoptions		EVAPO		openwaterevapo			switch	input	Compute evaporation from open water
lfoptions		EVAPO		varfractionwater			switch	input	Compute the fraction of pixel that is open water
lfoptions		INDICATOR		indicator			switch	input	Activate computation of indicators (such as WEI, e-flow, etc)
lfoptions		SETTINGS		MonteCarlo			switch	input	Activate MonteCarlo simulation
lfoptions		SETTINGS		EnKF			switch	input	Activate EnKF simulation
lfoptions		SETTINGS		InitLisflood			switch	input	Run LISFLOOD initialization run
lfoptions		SETTINGS		InitLisfloodwithoutSplit			switch	input	Run LISFLOOD initialization run to compute Lzavin.map and skip completely the routing component
lfoptions		IO		readNetcdfStack			switch	input	Read meteorological data in NetCDF format (Precip, Tavg, ET0, E0,ES0)
lfoptions		IO		writeNetcdfStack			switch	input	Write NetCDF stacks for output files (the pr.nc is read to get the metadata like projection)
lfoptions		IO		writeNetcdf			switch	input	Write NetCDF files for END files (single netcdf)
lfoptions		DISCHARGE		repDischargeTs			switch rep tss	input	Report discharge time series at gauges
lfoptions		LOG		repInternalCom			switch rep tss	input	Report internal number of sub step for soil, channel routing, water use
lfoptions		LOG		repMBTs			switch rep tss	input	Report timeseries of absolute cumulative mass balance error
lfoptions		STATE		repStateSites			switch rep tss	input	Report state variables at sites
lfoptions		STATE		repRateSites			switch rep tss	input	Report state variables rates at sites
lfoptions		STATE		repStateUpsGauges			switch rep tss	input	Report timeseries of model variables, averaged over contributing area of each gauging station
lfoptions		STATE		repRateUpsGauges			switch rep tss	input	Report timeseries of model rate variables, averaged over contributing area of each gauging station
lfoptions		METEO		repMeteoUpsGauges			switch rep tss	input	Report timeseries of meteo input data
lfoptions		INFLOW		repLZAvInflowSites			switch rep tss	input	Report time serie of average percolation rate from upper to lower groundwater zone at sites
lfoptions		INFLOW		repLZAvInflowUpsGauges			switch rep tss	input	Report time serie of average percolation rate from upper to lower groundwater zone at gauges
lfoptions		WATER ABSTRACTION		repwateruseGauges			switch rep tss	input	Report water use ts at gauges
lfoptions		WATER ABSTRACTION		repwateruseSites			switch rep tss	input	Report water use ts at sistes
lfoptions		WATER LEVELS		repWaterLevelTs			switch rep tss	input	Report water level ts
lfoptions		SOIL		repPFUpsGauges			switch rep tss	input	Report PF ts at gauges
lfoptions		SOIL		repPFSites			switch rep tss	input	Report PF ts at sistes
lfoptions		LAKES		repsimulateLakes			switch rep tss	input	Report time series of lakes
lfoptions		RESERVOIRS		repsimulateReservoirs			switch rep tss	input	Report time series of reservoirs
lfoptions		POLDERS		repsimulatePolders			switch rep tss	input	Report time series of polders
lfoptions		LOG		repBal1			switch rep tss	input	Report water balance TS
lfoptions		STATE		repStateMaps			switch rep maps	input	Report maps of model state variables (as defined by “ReportSteps” variable)
lfoptions		STATE		repEndMaps			switch rep maps	input	Report maps of model state variables (at last time step)
lfoptions		METEO		repPrecipitationMaps			switch rep maps	input	Report precipitation
lfoptions		METEO		repTavgMaps			switch rep maps	input	Report average temperature maps
lfoptions		EVAPO		repETRefMaps			switch rep maps	input	Report reference evapo-transpiration
lfoptions		EVAPO		repESRefMaps			switch rep maps	input	Report reference soil evaporation
lfoptions		EVAPO		repEWRefMaps			switch rep maps	input	Report reference evaporation of intercepted water
lfoptions		DISCHARGE		repAverageDis			switch rep maps	input	Report average discharge
lfoptions		ROUTING		repChanCrossSectionMaps			switch rep maps	input	Report total cross-section area for channels
lfoptions		INTERCEPTION		repCumInterCeptionMaps			switch rep maps	input	Report cumulative interception
lfoptions		DISCHARGE		repDischargeMaps			switch rep maps	input	Report maps of discharge (for each time step)
lfoptions		METEO		repDSLRMaps			switch rep maps	input	Report maps with number of days since the last rainfall event
lfoptions		EVAPO		repESActMaps			switch rep maps	input	Report actual soil evaporation
lfoptions		EVAPO		repEWIntMaps			switch rep maps	input	Report evaporation of intercepted water
lfoptions		SNOW		repFrostIndexMaps			switch rep maps	input	Report frost index maps
lfoptions		GROUNDWATER		repGwLossMaps			switch rep maps	input	Report groundwater loss maps
lfoptions		GROUNDWATER		repGwPercUZLZMaps			switch rep maps	input	Report maps of percolation from upper to lower ground water zone (for each time step)
lfoptions		INFILTRATION		repInfiltrationMaps			switch rep maps	input	Report infiltration maps
lfoptions		INTERCEPTION		repInterceptionMaps			switch rep maps	input	Report interception maps
lfoptions		LEAF		repLeafDrainageMaps			switch rep maps	input	Report leaf drainage maps
lfoptions		GROUNDWATER		repLZAvInflowMap			switch rep maps	input	Report lower groundwater zone inflow maps
lfoptions		GROUNDWATER		repLZMaps			switch rep maps	input	Report maps of lower groundwater zone storage (for each time step)
lfoptions		GROUNDWATER		repLZOutflowMaps			switch rep maps	input	Report lower groundwater zone outflow maps
lfoptions		PERCOLATION		repPercolationMaps			switch rep maps	input	Report percolation maps
lfoptions		SOIL		repPFMaps			switch rep maps	input	Report pF and vegetation stress due to low soil moisture
lfoptions		SOIL		repPFForestMaps			switch rep maps	input	Report pF and vegetation stress due to low soil moisture for forest fraction
lfoptions		SOIL		repPrefFlowMaps			switch rep maps	input	Report preferential flow (rapid bypass soil matrix)
lfoptions		METEO		repRainMaps			switch rep maps	input	Report rain excluding snow
lfoptions		GROUNDWATER		repSeepSubToGWMaps			switch rep maps	input	Report flux between sub soil and GW
lfoptions		SNOW		repSnowCoverMaps			switch rep maps	input	Report maps of snow cover (for each time step)
lfoptions		SNOW		repSnowMaps			switch rep maps	input	Report maps of snow (for each time step)
lfoptions		SNOW		repSnowMeltMaps			switch rep maps	input	Report maps of snowmelt (for each time step)
lfoptions		SURFACE		repSurfaceRunoffMaps			switch rep maps	input	Report maps of surface runoff (for each time step)
lfoptions		TRANSPIRATION		repTaMaps			switch rep maps	input	Report transpiration maps
lfoptions		SOIL		repThetaMaps			switch rep maps	input	Reporting of individual model state variables as maps THETA
lfoptions		SOIL		repThetaForestMaps			switch rep maps	input	Reporting of individual model state variables as maps THETA FOREST
lfoptions		SOIL		repThetaIrrigationMaps			switch rep maps	input	Report irrigation mapsrE
lfoptions		SOIL		repTotalRunoffMaps			switch rep maps	input	Report total runoff
lfoptions		GROUNDWATER		repUZMaps			switch rep maps	input	Report maps of upper groundwater zone storage (for each time step)
lfoptions		GROUNDWATER		repUZOutflowMaps			switch rep maps	input	Report maps for upper groundwater zone outflow
lfoptions		ROUTING		repWaterDepthMaps			switch rep maps	input	Report water depth on soil surface
lfoptions		ROUTING		repWaterLevelMaps			switch rep maps	input	Report water level in channels
lfoptions		EVAPO		ETActMaps			switch rep maps	input	Report actual evapo-transpiration
lfoptions		ROUTING		repFastRunoffMaps			switch rep maps	input	Report fast runoff = surface + UZ
lfoptions		WATER STRESS		repRWS			switch rep maps	input	Report soil transpiration reduction factor RWP
lfoptions		WATER STRESS		repStressDays			switch rep maps	input	Report soil transpiration reduction factor RWP for forest
lfoptions		SOIL		repPF1Maps			switch rep maps	input	Report PF1 maps
lfoptions		SOIL		repPF2Maps			switch rep maps	input	Report PF2 maps
lfoptions		WATER ABSTRACTION		repTotalAbs			switch rep maps	input	Report total water abstraction
lfoptions		WATER ABSTRACTION		repTotalWUse			switch rep maps	input	Report total water use
lfoptions		INDICATOR		repWIndex			switch rep maps	input	Report indexes and indicators
lfuser	AREA AND OUTLETS	SETTINGS		PathRoot	/perm/ma/ma9/xdom/data/staticData/lisflood	/perm/ma/ma9/xdom/data/staticData/lisflood	path	input	Root directory
lfuser	AREA AND OUTLETS	SETTINGS		MaskMap	/perm/ma/ma9/xdom/data/staticData/lisflood/area	/perm/ma/ma9/xdom/data/staticData/lisflood/area	map	input	Clone map used to set computation area for Lisflood model It can be 5 values separated by a blank space: col row cellsize xupleft yupleft (3600 1500 0.1 -180 90 -> World) or a map in pcraster format or netcdf If a map is used, information are read from the map.
lfuser	AREA AND OUTLETS	SETTINGS		Gauges	$(PathMaps)/outlets.map	$(PathMaps)/outlets.map	map	input	Nominal map with gauge locations (i.e cells for which simulated discharge is written to file(1,2,3 etc) lat lon (lat2 lon2 …) or pcraster maps or netcdf maps
lfuser	AREA AND OUTLETS	SETTINGS		netCDFtemplate	$(PathMaps)/elvstd.nc	$(PathMaps)/elvstd.nc	map	input	netcdf template used to copy metadata information for writing netcdf $(PathEvapo)/$(PrefixE0)
lfuser	TIMESTEP RELATED PARAMETERS	SETTINGS		CalendarDayStart	1/2/1990 6:00	1/2/2015 6:00	date	input	Reference Calendar day of the model. It is used inside LISFLOOD code as the reference date for time step id numbers. It MUST be <= first simulation start date. It MUST be a date as string, see code for list of available date formats. It can now include also HH:MM, if not specified they are set as 00:00 PCRaster: Day of the year of first map (e.g. xx000.001) even if the model start from map e.g. 500 e.g. 1st of January: 1; 1st of June 151 (or 152 in leap year) Needed to read out LAI tables correctly
lfuser	TIMESTEP RELATED PARAMETERS	SETTINGS		DtSec	86400	86400	value	input	timestep [seconds]. This is the simulation time interval (86400-day; 3600-hour)
lfuser	TIMESTEP RELATED PARAMETERS	KINEMATIC WAVE		DtSecChannel	3600	3600	value	input	Sub time step used for kinematic wave channel routing [seconds] Within the model, the smallest out of DtSecChannel and DtSec is used Using a value that is smaller than DtSec may result in a better simulation of the overal shape of the calculated hydrograph
lfuser	TIMESTEP RELATED PARAMETERS	SETTINGS		StepStart	1/2/1990 6:00	1/2/2015 6:00	value/date	input	Step id number or date of the simulation start step. See code for a list of available date formats. If number is used, it refers to "CalendarDayStart". For dates, also HH:MM can be set. If they are not set, 00:00 are automatically used. StepStart MUST be >= Calendar DayStart and <= StepEnd
lfuser	TIMESTEP RELATED PARAMETERS	SETTINGS		StepEnd	1/1/2015 6:00	1/1/2017 6:00	value/date	input	Step id number or date of end time step in simulation. If number is used, it refers to “CalendarDayStart”. For dates, also HH:MM can be set. If they are not set, 00:00 are automatically used. StepStart MUST be <= Calendar DayStart and >= StepStart
lfuser	TIMESTEP RELATED PARAMETERS	SETTINGS		ReportSteps	1..9999	1..9999	value	input	Time steps at which to write model state maps (i.e. only those maps that would be needed to define initial conditions for succeeding model run). Use: #,#,# to specify single step numbers #..# to print all state files between one step and another one “endtime” to print state files for final step (to state file in NetCDF file format stack)
lfuser	MONTE CARLO	SETTINGS		EnsMembers	2	2	value	input	Number of sample to use in MonteCarlo simulations
lfuser	MONTE CARLO	SETTINGS		nrCores	2	2	value	input	Number of cores of the computer to use in MonteCarlo simulations This only works with Linux, if set to 1 no forking will be used
lfuser	FILTER KALMAN	SETTINGS		FilterSteps	10	10	value	input	Time steps at which to write model state maps (i.e. only those maps that would be needed to define initial conditions for succeeding model run)
lfuser	GROUNDWATER RELATED PAR	GROUNDWATER	Tuz	UpperZoneTimeConstant	$(PathParams)/params_UpperZoneTimeConstant	$(PathParams)/params_UpperZoneTimeConstant	value/map	input calib par	Time constant for the upper groundwater zone [days] default: 10 $(PathParams)/params_UpperZoneTimeConstant.nc Time constant for water in upper zone [days*mm^GwAlpha] Note that units are days if GwAlpha=0 (linear reservoir]
lfuser	GROUNDWATER RELATED PAR	GROUNDWATER	Tlz	LowerZoneTimeConstant	$(PathParams)/params_LowerZoneTimeConstant	$(PathParams)/params_LowerZoneTimeConstant	value/map	input calib par	Time constant for the lower groundwater zone [days] This is the average time a water ‘particle’ remains in the reservoir if we had a stationary system (average inflow=average outflow) default: 100
lfuser	GROUNDWATER RELATED PAR	GROUNDWATER	GWperc	GwPercValue	$(PathParams)/params_GwPercValue	$(PathParams)/params_GwPercValue	value/map	input calib par	Maximum rate of percolation going from the upper to the lower groundwater zone [mm day-1] default: 0.5 $(PathParams)/params_GwPercValue.nc
lfuser	GROUNDWATER RELATED PAR	GROUNDWATER	floss	GwLoss	$(PathParams)/params_GwLoss	$(PathParams)/params_GwLoss	value/map	input calib par	Rate of percolation from the lower groundwater zone (groundwater loss) zone [mm day-1]. A value of 0 (closed lower boundary) is recommended as a starting value; default: 0.0
lfuser	INFILTRATION	INFILTRATION	b	b_Xinanjiang	$(PathParams)/params_b_Xinanjiang	$(PathParams)/params_b_Xinanjiang	value/map	input calib par	Power in Xinanjiang distribution function. [-] It is the power in the infiltration equation. Default: 0.7
lfuser	INFILTRATION	INFILTRATION	cpref	PowerPrefFlow	$(PathParams)/params_PowerPrefFlow	$(PathParams)/params_PowerPrefFlow	value/map	input calib par	Power that controls increase of proportion of preferential flow with increased soil moisture storage. It s the power in the preferential flow equation [-] default: 3.5 $(PathParams)/params_PowerPrefFlow.nc
lfuser	ROUTING	KINEMATIC WAVE	n	CalChanMan	$(PathParams)/params_CalChanMan1	$(PathParams)/params_CalChanMan1	value/map	input calib par	It is a multiplier that is applied to the Manning’s roughness map of the channel system default: 2.0 $(PathParams)/params_CalChanMan1.nc
lfuser	SNOW AND FROST	SNOW	Cm	SnowMeltCoef	$(PathParams)/params_SnowMeltCoef	$(PathParams)/params_SnowMeltCoef	value/map	input calib par	Snowmelt coefficient [mm/deg C /day]. It is the degree-day factor that controls the rate of snowmelt default: 4.0 $(PathParams)/params_SnowMeltCoef.nc SRM: 0.45 cm/C/day ( = 4.50 mm/C/day), Kwadijk: 18 mm/C/month (= 0.59 mm/C/day) See also Martinec et al., 1998.
lfuser	ROUTING	DOUBLE KINEMATIC WAVE	n?	CalChanMan2	$(PathParams)/params_CalChanMan2	$(PathParams)/params_CalChanMan2	value/map	input calib par	PBchange Multiplier applied to Channel Manning’s n for second routing line default: 3.0 $(PathParams)/params_CalChanMan2.nc
lfuser	CALIBRATION	LAKES		LakeMultiplier	$(PathParams)/params_LakeMultiplier	$(PathParams)/params_LakeMultiplier	value/map	input calib par	default: 1.0 $(PathParams)/params_LakeMultiplier.nc Multiplier applied to the lake parameter A
lfuser	CALIBRATION	RESERVOIRS		adjust_Normal_Flood	$(PathParams)/params_adjust_Normal_Flood	$(PathParams)/params_adjust_Normal_Flood	value/map	input calib par	default: 0.8 $(PathParams)/params_adjust_Normal_Flood.nc adjusting the balance between normal and flood storage big values (= closer to 1.0 = close to flood) results in keeping the outflow longer at rnormq Range 0.01 - 0.99
lfuser	CALIBRATION	RESERVOIRS		ReservoirRnormqMult	$(PathParams)/params_ReservoirRnormqMult	$(PathParams)/params_ReservoirRnormqMult	value/map	input calib par	default: 1.0 $(PathParams)/params_ReservoirRnormqMult.nc Reservoir rnormq (normal outflow) fraction of the value in table rnormq.txt range: 0.5 - 2
lfuser	EVAPO(TRANSPI)RATION AND INTERCEPTION	SETTINGS		AvWaterRateThreshold	5	5	value	input par	It defines a critical amount of water that is used as a threshold for resetting the variable Dslr. The threshold is defined as an equivalent intensity in [mm day-1] Critical amount of available water (expressed in [mm/day]!), above which ‘Days Since Last Rain’ parameter is set to 1 default: 5.0 (not included in calibration)
lfuser	FILE PATHS	SETTINGS		PathOut	outputs/ecWB/ecWB_1990-2014/	outputs/ecWB/ecWB_2015-2016/	path	input	Output path (org=$(PathRoot)/out) It is the directory where all output files are written. It must be an existing directory (if not you will get an error message – not immediately but after 256 timesteps, when the time series are written for the first time).
lfuser	FILE PATHS	SETTINGS		PathInit	initcond/ecWB/	outputs/ecWB/ecWB_1990-2014/	path	input	Path of the initial value maps e.g. lzavin.map (org=$(PathRoot)/outPo) It is the directory where the initial files are located, to initialize a “warm” start. It can be also the PathOut directory.
lfuser	FILE PATHS	SETTINGS		PathMaps	/perm/ma/ma9/xdom/data/staticData/lisflood	/perm/ma/ma9/xdom/data/staticData/lisflood	path	input	Maps path it is the directory where all input base maps are located
lfuser	FILE PATHS	INFLOW		PathInflow	$(PathRoot)/inflow	$(PathRoot)/inflow	path	input	Inflow path
lfuser	FILE PATHS	SETTINGS		PathParams	$(PathMaps)/parameters	$(PathMaps)/parameters	path	input	Calibration parameter path
lfuser	FILE PATHS	TABLE		PathTables	$(PathRoot)/tables	$(PathRoot)/tables	path	input	Tables path
lfuser	FILE PATHS	TABLES		PathMapsTables	$(PathMaps)/table2map	$(PathMaps)/table2map	path	input	Maps instead tables path
lfuser	FILE PATHS	SOIL		PathSoilHyd	$(PathMaps)/soilhyd	$(PathMaps)/soilhyd	path	input	Maps instead tables for soil hydraulics path Directory where the soil hydraulic property maps are located
lfuser	FILE PATHS	LANDUSE		PathMapsLandUseChange	$(PathMaps)/landuse_rcp85_20062125	$(PathMaps)/landuse_rcp85_20062125	path	input	Maps for transient land use changes every 5 years
lfuser	FILE PATHS	LANDUSE		PathMapsLanduse	$(PathMaps)/landuse2006	$(PathMaps)/landuse2006	path	input	Maps for land use fractions and related land use maps
lfuser	FILE PATHS	WATER USE		PathWaterUse	forcings/ecWaterDemand19902014/	$(PathMaps)/waterdemand	path	input	Water use maps path
lfuser	FILE PATHS	METEO		PathMeteo	forcings/ecWB_grids_1990_2016/	forcings/ecWB_grids_1990_2016/	path	input	Meteo path Directory where all maps with meteorological input are located (rain, evapo(transpi)ration, temperature)
lfuser	FILE PATHS	LAI		PathLAI	$(PathMaps)/lai	$(PathMaps)/lai	path	input	Leaf Area Index maps path Directory where you Leaf Area Index maps are located
lfuser	FILE PATHS	WATER FRACTION		PathVarWaterfraction	$(PathMaps)/variablewater	$(PathMaps)/variablewater	path	input	variable water fraction maps path
lfuser	INITIAL CONDITIONS	SETTINGS		timestepInit	1/2/1990 6:00	1/1/2015 6:00	value/date	input initial	If initial conditions are stored as netCDF stack, this variable sets which time step to use as initial step. It can be either a date (e.g. 1/1/2010) or a number (e.g. 5). If a number is used, it refers to “CalendarDayStart”. (it is generally one step back compared to StepStart) If missing, netcdf file are read with no reference to ‘time’, either if they are a stack or not. timestepInit is ignored if netCDF file is a single netCDF file..
lfuser	INITIAL CONDITIONS	SURFACE		OFDirectInitValue	0	$(PathInit)/ofdir	value/map	input initial/internal	Initial water volume for direct fraction on catchment surface [m3]
lfuser	INITIAL CONDITIONS	SURFACE		OFOtherInitValue	0	$(PathInit)/ofoth	value/map	input initial/internal	Initial water volume for other fraction on catchment surface [m3]
lfuser	INITIAL CONDITIONS	SURFACE		OFForestInitValue	0	$(PathInit)/offor	value/map	input initial/internal	Initial water volume for forest fraction on catchment surface [m3]
lfuser	INITIAL CONDITIONS	OVERLAND FLOW		WaterDepthInitValue	0	$(PathInit)/wdept	value/map		initial overland flow water depth [mm] Initial amount of water on the soil surface
lfuser	INITIAL CONDITIONS	SNOW		SnowCoverAInitValue	0	$(PathInit)/scova	value/map	input initial/internal	It is the initial snow cover on the soil surface in elevation zone A [mm]
lfuser	INITIAL CONDITIONS	SNOW		SnowCoverBInitValue	0	$(PathInit)/scovb	value/map	input initial/internal	It is the initial snow cover on the soil surface in elevation zone B [mm]
lfuser	INITIAL CONDITIONS	SNOW		SnowCoverCInitValue	0	$(PathInit)/scovc	value/map	input initial/internal	It is the initial snow cover on the soil surface in elevation zone C [mm]
lfuser	INITIAL CONDITIONS	SNOW	F	FrostIndexInitValue	0	$(PathInit)/frost	value/map	input initial/internal	initial Frost Index value [C day-1]
lfuser	INITIAL CONDITIONS	INTERCEPTION		CumIntInitValue	0	$(PathInit)/cum	value/map	input initial/internal	cumulative interception [mm] Initial interception storage
lfuser	INITIAL CONDITIONS	GROUNDWATER		UZInitValue	0	$(PathInit)/uz	value/map	input initial/internal	It is the initial storage in the upper groundwater zone [mm]
lfuser	INITIAL CONDITIONS	SOIL	Dslr	DSLRInitValue	1	$(PathInit)/dslr	value/map	input initial/internal	initial number of days since the last rainfall event [days]
lfuser	INITIAL CONDITIONS	GROUNDWATER		LZInitValue	-9999	$(PathInit)/lz	value/map	input initial/internal	It is the initial storage in the lower groundwater zone [mm] -9999: use steady-state storage
lfuser	INITIAL CONDITIONS	KINEMATIC WAVE		TotalCrossSectionAreaInitValue	-9999	$(PathInit)/chcro	value/map	input initial/internal	initial cross-sectional area of flow in channel[m2] -9999: use half bankfull It is the initial cross-sectional area [m2] of the water in the river channels (a substitute for initial discharge, which is directly dependent on this).
lfuser	INITIAL CONDITIONS	SOIL		ThetaInit1Value	-9999	$(PathInit)/tha	value/map	input initial/internal	initial soil moisture content layer 1a -9999: use field capacity values It is the initial moisture content [mm3 mm-3] of the supercificial soil layer.
lfuser	INITIAL CONDITIONS	SOIL		ThetaInit2Value	-9999	$(PathInit)/thb	value/map	input initial/internal	initial soil moisture content layer 1b -9999: use field capacity values It is the initial moisture content [mm3 mm-3] of the upper soil layer.
lfuser	INITIAL CONDITIONS	SOIL		ThetaInit3Value	-9999	$(PathInit)/thc	value/map	input initial/internal	initial soil moisture content layer 2 -9999: use field capacity values It is the initial moisture content [mm3 mm-3] of the lower soil layer.
lfuser	INITIAL CONDITIONS	DOUBLE KINEMATIC WAVE		CrossSection2AreaInitValue	-9999	$(PathInit)/ch2cr	value/map	input initial/internal	initial channel cross-sectional area [m2] of the water in the river channels for 2nd routing channel -9999: use 0
lfuser	INITIAL CONDITIONS	DOUBLE KINEMATIC WAVE		PrevSideflowInitValue	-9999	$(PathInit)/chside	value/map	input initial/internal	initial inflow from each pixel to the channel [mm]. A value of -9999 sets the initial amount of sideflow to thye channel to 0
lfuser	INITIAL CONDITIONS	LAKES		LakeInitialLevelValue	-9999	$(PathInit)/lakeh	value/map	input initial/internal	Initial lake level [m] -9999 sets initial value to steady-state level
lfuser	INITIAL CONDITIONS	KINEMATIC WAVE		PrevDischarge	-9999	$(PathInit)/chanq	value/map	input initial/internal	initial discharge from previous run for lakes, reservoirs and transmission loss only needed for lakes reservoirs and transmission loss -9999: use 0 It is the initial discharge from previous run [m3s-1] used for lakes, reservoirs and transmission loss (only needed if option is on for lakes or reservoirs or transmission loss). Note that PrevDischarge is discharge as an average over the time step (a flux) .
lfuser	INITIAL CONDITION FOREST	INTERCEPTION		CumIntForestInitValue	0	$(PathInit)/cumf	value/map	input initial/internal	cumulative interception forest [mm]
lfuser	INITIAL CONDITION FOREST	GROUNDWATER		UZForestInitValue	0	$(PathInit)/uzf	value/map	input initial/internal	Initial water storage water in upper groundwater zone for forest [mm]
lfuser	INITIAL CONDITION FOREST	SOIL		DSLRForestInitValue	1	$(PathInit)/dslf	value/map	input initial/internal	initial number of days since the last rainfall event for forest [days]
lfuser	INITIAL CONDITION FOREST	SOIL		ThetaForestInit1Value	-9999	$(PathInit)/thfa	value/map	input initial/internal	initial soil moisture content layer 1a -9999: use field capacity values
lfuser	INITIAL CONDITION FOREST	SOIL		ThetaForestInit2Value	-9999	$(PathInit)/thfb	value/map	input initial/internal	initial soil moisture content layer 1b -9999: use field capacity values
lfuser	INITIAL CONDITION FOREST	SOIL		ThetaForestInit3Value	-9999	$(PathInit)/thfc	value/map	input initial/internal	initial soil moisture content layer 2 -9999: use field capacity values
lfuser	INITIAL CONDITION IRRIGATION	INTERCEPTION		CumIntIrrigationInitValue	0	$(PathInit)/cumi	value/map	input initial/internal	cumulative interception irrigation [mm] It is the initial value of the interception storage for the irrigation part of a pixel [mm]
lfuser	INITIAL CONDITION IRRIGATION	GROUNDWATER		UZIrrigationInitValue	0	$(PathInit)/uzi	value/map	input initial/internal	Initial water storage water in upper groundwater zone for irrigation [mm]
lfuser	INITIAL CONDITION IRRIGATION	SOIL		DSLRIrrigationInitValue	1	$(PathInit)/dsli	value/map	input initial/internal	initial number of days since the last rainfall event for irrigation [days]
lfuser	INITIAL CONDITION IRRIGATION	SOIL		ThetaIrrigationInit1Value	-9999	$(PathInit)/thia	value/map	input initial/internal	initial soil moisture content layer 1a for irrigation -9999: use field capacity values
lfuser	INITIAL CONDITION IRRIGATION	SOIL		ThetaIrrigationInit2Value	-9999	$(PathInit)/thib	value/map	input initial/internal	initial soil moisture content layer 1b for irrigation -9999: use field capacity values
lfuser	INITIAL CONDITION IRRIGATION	SOIL		ThetaIrrigationInit3Value	-9999	$(PathInit)/thic	value/map	input initial/internal	initial soil moisture content layer 2 for irrigation -9999: use field capacity values
lfuser	INITIAL CONDITIONS IMPERVIOUS AREAS	SOIL		CumIntSealedInitValue	0	$(PathInit)/cseal	value/map	input initial/internal	cumulative depression storage [mm] depression storage for surface runoff from imperious surface
lfuser	PREFIXES METEO VEG VARIAB	METEO		PrefixPrecipitation	pr	pr	prefix	input forcings	prefix precipitation maps
lfuser	PREFIXES METEO VEG VARIAB	METEO		PrefixTavg	ta	ta	prefix	input forcings	prefix average temperature maps
lfuser	PREFIXES METEO VEG VARIAB	EVAPO		PrefixE0	e0	e0	prefix	input forcings	prefix E0 (potential open water evaporation) maps
lfuser	PREFIXES METEO VEG VARIAB	EVAPO		PrefixES0	es	es	prefix	input forcings	prefix ES0 (potential open bare-soil evaporation)maps
lfuser	PREFIXES METEO VEG VARIAB	EVAPO		PrefixET0	et	et	prefix	input forcings	prefix ET0 (potential reference evapotranspioration) maps
lfuser	PREFIXES METEO VEG VARIAB	LAI		PrefixLAIOther	laio	laio	prefix	input forcings	prefix LAI (Leaf Area Index) maps
lfuser	PREFIXES METEO VEG VARIAB	LAI		PrefixLAIForest	laif	laif	prefix	input forcings	prefix LAI forest maps
lfuser	PREFIXES METEO VEG VARIAB	LAI		PrefixLAIIrrigation	laii	laii	prefix	input forcings	prefix LAI irrigation maps
lfuser	PREFIXES METEO VEG VARIAB	WATER USE		PrefixWaterUseDomestic	dom	dom_2014	prefix	input forcings	prefix domestic water use maps
lfuser	PREFIXES METEO VEG VARIAB	WATER USE		PrefixWaterUseLivestock	liv	liv_2014	prefix	input forcings	prefix livestock water use maps
lfuser	PREFIXES METEO VEG VARIAB	WATER USE		PrefixWaterUseEnergy	ene	ene_2014	prefix	input forcings	prefix energy water use maps
lfuser	PREFIXES METEO VEG VARIAB	WATER USE		PrefixWaterUseIndustry	ind	ind_2014	prefix	input forcings	prefix industry water use maps
lfuser	PREFIXES METEO VEG VARIAB	WATER USE		PrefixVarWaterFraction	varw	varw	prefix	input forcings	prefix variable water fraction
lfuser	EVAPO(TRANSPI)RATION AND INTERCEPTION	METEO		PrScaling	1	1	value	input par	Multiplier applied to potential precipitation rates
lfuser	EVAPO(TRANSPI)RATION AND INTERCEPTION	EVAPO		CalEvaporation	1	1	value	input par	Multiplier applied to potential evapo(transpi)ration rates
lfuser	EVAPO(TRANSPI)RATION AND INTERCEPTION	LEAF DRAINAGE	Tint	LeafDrainageTimeConstant	1	1	value	input par	Time constant for water in interception store [days]
lfuser	EVAPO(TRANSPI)RATION AND INTERCEPTION	EVAPO		kdf	0.72	0.72	value	input par	Average extinction coefficient for the diffuse radiation flux varies with crop from 0.4 to 1.1 (Goudriaan (1977)) It is used to calculate the extinction coefficient for global radiation kgb
lfuser	EVAPO(TRANSPI)RATION AND INTERCEPTION	DEPRESSION STORAGE		SMaxSealed	1	1	value	input par	maximum depression storage for water on impervious surface which is not immediatly causing surface runoff [mm] This storage is emptied by evaporation (EW0)
lfuser	SNOW AND FROST	SNOW		SnowFactor	1	1	value	input par	Multiplier applied to precipitation that falls as snow. Since snow is commonly underestimated in meteorological observation data, setting this multiplier to some value greater than 1 can counteract for this. Estimate from prior data if available, otherwise 1
lfuser	SNOW AND FROST	SNOW		SnowSeasonAdj	1	1	value	input par	It is the range [mm C-1 d-1] of the seasonal variation of snow melt. SnowMeltCoef is the average value.
lfuser	SNOW AND FROST	SNOW	Tm	TempMelt	1	1	value	input par	It is the degree-day factor that controls the rate of snowmelt [mm °C-1 day-1]
lfuser	SNOW AND FROST	SNOW		TempSnow	1	1	value	input par	It is the average temperature below which precipitation is assumed to be snow [°C]
lfuser	SNOW AND FROST	SNOW		TemperatureLapseRate	0.0065	0.0065	value	input par	Temperature lapse rate with altitude [deg C / m] It is the temperature lapse rate that is used to estimate average temperature at the centroid of each pixel’s elevation zones [°C m-1]
lfuser	SNOW AND FROST	SNOW	Af	Afrost	0.97	0.97	value	input par	Daily decay coefficient. It is the frost index decay coefficient [day-1]. It has a value in the range 0-1.
lfuser	SNOW AND FROST	SNOW	K	Kfrost	0.57	0.57	value	input par	Snow depth reduction coefficient, [cm-1]
lfuser	SNOW AND FROST	SNOW	wes	SnowWaterEquivalent	0.45	0.45	value	input par	Snow water equivalent, (based on snow density of 450 kg/m3) (e.g. Tarboton and Luce, 1996) It is the equivalent water depth of a given snow cover, expressed as a fraction [-]
lfuser	SNOW AND FROST	SNOW		FrostIndexThreshold	56	56	value	input par	Degree Days Frost Threshold (stops infiltration, percolation and capillary rise) Molnau and Bissel found a value 56-85 for NW USA. It is the critical value of the frost index (Eq 2-5) above which the soil is considered frozen [°C day-1]
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		IrrigationEfficiency	0.75	0.75	value	input	Field application irrigation efficiency max 1, ~0.90 drip irrigation, ~0.75 sprinkling
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		ConveyanceEfficiency	0.8	0.8	value	input	onveyance efficiency, around 0.80 for average channel
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		IrrigationType	1	1	value	input	IrrigationType (value between 0 and 1) is used here to distinguish between additional adding water until fieldcapacity (value set to 1) or not (value set to 0)
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		IrrigationMult	1.2	1.2	value	input	Factor to irrigation water demand More than the transpiration is added e.g to prevent salinisation
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		LivestockConsumptiveUseFraction	0.15	0.15	value	input	Consumptive Use (1-Recycling ratio) for livestock water use (0-1)
param	lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		IndustryConsumptiveUseFraction	0.15	0.15	value	input	Consumptive Use (1-Recycling ratio) for industrial water use (0-1)
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		EnergyConsumptiveUseFraction	$(PathMaps)/energyconsumptiveuse.map	$(PathMaps)/energyconsumptiveuse.map	value/map	input	Consumptive Use (1-Recycling ratio) for energy water use (0-1) Source: Torcellini et al. (2003) “Consumptive Use for US Power Production” map advised by Neil Edwards, Energy Industry the UK and small French rivers the consumptive use varies between 1:2 and 1:3, so 0.33-0.50 For plants along big rivers like Rhine and Danube the 0.025 is ok EnergyConsumptiveUseFraction=0.025
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		DomesticConsumptiveUseFraction	0.2	0.2	value	input	Consumptive Use (1-Recycling ratio) for domestic water use (0-1) Source: EEA (2005) State of Environment
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		LeakageFraction	0.2	0.2	value	input	$(PathMaps)/leakage.map Fraction of leakage of public water supply (0=no leakage, 1=100% leakage)
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		LeakageWaterLoss	0.75	0.75	value	input	The water that is lost from leakage (lost) (0-1)
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		LeakageReductionFraction	0	0	value	input	Leakage reduction fraction (e.g. 50% = 0.5 as compared to current Leakage) (baseline=0, maximum=1)
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		WaterSavingFraction	0	0	value	input	Water savings fraction (e.g. 10% = 0.1 as compared to current Use (baseline=0, maximum=1) scenwsav.map
lfuser	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		WaterReUseFraction	0	0	value	input	Fraction of water re-used in industry (e.g. 50% = 0.5 = half of the water is re-used, used twice (baseline=0, maximum=1 scenruse.map
lfuser	INPUT WATER USE MAPS AND PAR	LAI		FirstDayOfMonth	$(PathTables)/firstdayofmonth.txt	$(PathTables)/firstdayofmonth.txt	table	input	NO LONGER USED table with number of first day for each month
lfuser	INPUT WATER USE MAPS AND PAR	CALC INDICATOR		Population	$(PathMapsLanduse)/pop	$(PathMapsLanduse)/pop	map	input	Population per pixel
lfuser	INPUT WATER USE MAPS AND PAR	CALC INDICATOR		PopulationMaps	$(PathWaterUse)/pop	$(PathWaterUse)/pop	map	input	Population map for TransientLandUseChange
lfuser	INPUT WATER USE MAPS AND PAR	CALC INDICATOR		LandUseMask	$(PathMaps)/lusemask.map	$(PathMaps)/lusemask.map	map	input	Land use mask map to mask out deserts and high mountains (to cover ETdif map, otherwise Sahara etc would pop out; meant as a drought indicator
lfuser	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		WaterUseMaps	$(PathOut)/wuse	$(PathOut)/wuse	map	output	path and prefix of the reported water use m3 s-1 as a result of demand and availability
lfuser	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		WaterUseTS	$(PathOut)/wateruseUps.tss	$(PathOut)/wateruseUps.tss	tss	output	Time series of upstream water use at gauging stations
lfuser	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		StepsWaterUseTS	$(PathOut)/stepsWaterUse.tss	$(PathOut)/stepsWaterUse.tss	tss	output	number of loops needed for water use routine
lfuser	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		maxNoWateruse	5	5	value	input	maximum number of loops for calculating the use of water
lfuser	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		WUsePercRemain	0.5	0.5	value	input	percentage of water that must remain the channel (after water abstraction)
lfuser	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION / CALC INDICATOR		WUseRegion	$(PathMaps)/wregion.map	$(PathMaps)/wregion.map	map	input	area from which surface water is extracted
lfuser	GROUNDWATER RELATED PAR	GROUNDWATER		LZThreshold	$(PathMaps)/lzthreshold.map	$(PathMaps)/lzthreshold.map	map	input	threshold value below which there is no outflow to the channel
lfuser	GROUNDWATER RELATED PAR	GROUNDWATER		LZSmoothRange	5	5	value	input	length of the window used to smooth the LZ zone [number of cell length] It works ONLY if wateruse=1
lfuser	GROUNDWATER RELATED PAR	GROUNDWATER		GroundwaterBodies	$(PathMaps)/gwbodiesNew.map	$(PathMaps)/gwbodiesNew.map	map	input	map of aquifers (0/1), used to smoothen LZ near extraction areas
lfuser	EVAPORATION FROM OPEN WATER	EVAPO		FracMaxWater	$(PathMaps)/fracmaxwater.map	$(PathMaps)/fracmaxwater.map	map	input	Fraction of maximum extend of water
lfuser	EVAPORATION FROM OPEN WATER	LAKES		LakeMask	$(PathMaps)/lakemask.map	$(PathMaps)/lakemask.map	map	input	Mask with Lakes from GLWD database
lfuser	TRANSMISSION LOSS	TRANSMISSION		TransSub	0.3	0.3	value	input par	PBchange Transmission loss function parameter
lfuser	TRANSMISSION LOSS	TRANSMISSION		TransPower1	2	2	value	input par	PBchange Transmission loss function parameter
lfuser	TRANSMISSION LOSS	TRANSMISSION		TransArea	1.00E+10	1.00E+10	value	input par	PBchange downstream area taking into account for transmission loss
lfuser	TRANSMISSION LOSS	TRANSMISSION		UpAreaTrans	$(PathMaps)/upArea	$(PathMaps)/upArea	map	output	upstream area for transmission loss
lfuser	ROUTING	KINEMATIC WAVE		beta	0.6	0.6	value	input par	It is the routing coefficient in Manning’s equation (2/3). kinematic wave parameter: 0.6 is for broad sheet flow
lfuser	ROUTING	KINEMATIC WAVE		OFDepRef	5	5	value	input par	It is a reference flow depth from which the flow velocity of the surface runoff is calculated [mm] Reference depth of overland flow [mm], used to compute overland flow Alpha for kin. wave
lfuser	ROUTING	KINEMATIC WAVE		GradMin	0.001	0.001	value	input par	Minimum slope gradient of the surface (for kin. wave: slope cannot be 0) It is a lower limit for the slope gradient used in the calculation of the surface runoff flow velocity [m m-1]
lfuser	ROUTING	KINEMATIC WAVE		ChanGradMin	0.0001	0.0001	value	input par	Minimum channel gradient (for kin. wave: slope cannot be 0) It is a lower limit for the channel gradient used in the calculation of the channel flow velocity [m m-1]
lfuser	ROUTING	DOUBLE KINEMATIC WAVE		QSplitMult	2	2	value	input par	PBchange Multiplier applied to average Q to split into a second line of routing
lfuser	NUMERICS	SOIL		CourantCrit	0.4	0.4	value	input par	Minimum value for Courant condition in soil moisture routine. Always less than or equal to 1. Small values result in improved numerical accuracy, at the expense of increased computing time (more sub-steps needed). If reported time series of soil moisture contain large jumps, lowering CourantCrit should fix this
lfuser	OPTION RESERVOIR	RESERVOIRS		DtSecReservoirs	3600	3600	value	input	Sub time step used for reservoir simulation [s]. Within the model, the smallest out of DtSecReservoirs and DtSec is used.
lfuser	OPTION RESERVOIR	RESERVOIRS		ReservoirInitialFillValue	-9999	$(PathInit)/rsfil	value/map	input initial/internal	Initial reservoir fill fraction -9999 sets initial fill to normal storage limit if you’re not using the reservoir option, enter some bogus value
lfuser	OPTION LAKE	LAKES		TabLakeAvNetInflowEstimate	$(PathTables)/lakeavinflow.txt	$(PathTables)/lakeavinflow.txt	table	input	Estimate of average net inflow into lake (=inflow - evaporation) [cu m / s] Used to calculated steady-state lake level in case LakeInitialLevelValue is set to -9999
lfuser	OPTION POLDER	POLDER		mu	0.49	0.49	value	input	Weir constant [-] (Do not change!)
lfuser	OPTION POLDER	POLDER		PolderInitialLevelValue	0	0	value	input	Initial water level in polder [m]
lfuser	OPTION DYNAMIC WAVE	DYNAMIC WAVE		CourantDynamicCrit	0.5	0.5	value	input par	Minimum value for Courant condition in soil moisture routine. Always less than or equal to 1. Small values result in improved numerical accuracy, at the expense of increased computing time (more sub-steps needed). If reported time series of soil moisture contain large jumps, lowering CourantCrit should fix this
lfuser	OPTION DYNAMIC WAVE	DYNAMIC WAVE		DynWaveConstantHeadBoundary	0	0	value	input	Constant head [m] at most downstream pixel (relative to altitude at most downstream pixel)
lfuser	OPTION HYDROGRAPH	INFLOW		InflowPoints	$(PathInflow)/nile_assiut.map	$(PathInflow)/nile_assiut.map	map	input forcings	OPTIONAL: nominal map with locations of (measured) inflow hydrographs [cu m / s]
lfuser	OPTION HYDROGRAPH	INFLOW		QInTS	$(PathInflow)/nile_assiut.tss	$(PathInflow)/nile_assiut.tss	tss	input forcings	OPTIONAL: observed or simulated input hydrographs as time series [cu m / s] Note that identifiers in time series correspond to InflowPoints map (also optional)
lfuser	OPTION PF REPORTING	SOIL		HeadMax	1.00E+07	1.00E+07	value	input	Maximum capillary head [cm]. This value is used if Theta equals residual soil moisture content (value of HeadMax is arbitrary). Only needed for pF computation, otherwise doesn’t influence model results at all)
lfbinding		SETTINGS		MaskMap	$(MaskMap)	$(MaskMap)	map/value	input	Clone map used to set computation area for Lisflood model It can be 5 values separated by a blank space: col row cellsize xupleft yupleft (3600 1500 0.1 -180 90 -> World) or a map in pcraster format or netcdf If a map is used, information are read from the map.
lfbinding		SETTINGS		netCDFtemplate	$(netCDFtemplate)	$(netCDFtemplate)	map	input	netcdf template used to copy metadata information for writing netcdf
lfbinding	TIMESTEP RELATED PARAMETERS	SETTINGS		CalendarDayStart	$(CalendarDayStart)	$(CalendarDayStart)	date	input	Reference Calendar day of the model. It is used inside LISFLOOD code as the reference date for time step id numbers. It MUST be <= first simulation start date. It MUST be a date as string, see code for list of available date formats. It can now include also HH:MM, if not specified they are set as 00:00 PCRaster: Day of the year of first map (e.g. xx000.001) even if the model start from map e.g. 500 e.g. 1st of January: 1; 1st of June 151 (or 152 in leap year) Needed to read out LAI tables correctly
lfbinding	TIMESTEP RELATED PARAMETERS	SETTINGS		DtSec	$(DtSec)	$(DtSec)	0	input	timestep [seconds]. This is the simulation time interval (86400-day; 3600-hour)
lfbinding	TIMESTEP RELATED PARAMETERS	KINEMATIC WAVE		DtSecChannel	$(DtSecChannel)	$(DtSecChannel)	0	input	Sub time step used for kinematic wave channel routing [seconds] Within the model, the smallest out of DtSecChannel and DtSec is used Using a value that is smaller than DtSec may result in a better simulation of the overal shape of the calculated hydrograph
lfbinding	TIMESTEP RELATED PARAMETERS	SETTINGS		StepStart	$(StepStart)	$(StepStart)	value/date	input	Step id number or date of the simulation start step. See code for a list of available date formats. If number is used, it refers to "CalendarDayStart". For dates, also HH:MM can be set. If they are not set, 00:00 are automatically used. StepStart MUST be >= Calendar DayStart and <= StepEnd
lfbinding	TIMESTEP RELATED PARAMETERS	SETTINGS		StepEnd	$(StepEnd)	$(StepEnd)	value/date	input	Step id number or date of end time step in simulation. If number is used, it refers to “CalendarDayStart”. For dates, also HH:MM can be set. If they are not set, 00:00 are automatically used. StepStart MUST be <= Calendar DayStart and >= StepStart
lfbinding	EVAPO(TRANSPI)RATION AND INTERCEPTION	METEO		PrScaling	$(PrScaling)	$(PrScaling)	0	input	Multiplier applied to potential precipitation rates
lfbinding	EVAPO(TRANSPI)RATION AND INTERCEPTION	EVAPO		CalEvaporation	$(CalEvaporation)	$(CalEvaporation)	value	input	Multiplier applied to potential evapo(transpi)ration rates
lfbinding	EVAPO(TRANSPI)RATION AND INTERCEPTION	LEAF DRAINAGE		LeafDrainageTimeConstant	$(LeafDrainageTimeConstant)	$(LeafDrainageTimeConstant)	0	input	Time constant for leaf drainage
lfbinding	EVAPO(TRANSPI)RATION AND INTERCEPTION	EVAPO		kdf	$(kdf)	$(kdf)	value	input	?
lfbinding	EVAPO(TRANSPI)RATION AND INTERCEPTION	SETTINGS		AvWaterRateThreshold	$(AvWaterRateThreshold)	$(AvWaterRateThreshold)	0	input	It defines a critical amount of water that is used as a threshold for resetting the variable Dslr. The threshold is defined as an equivalent intensity in [mm day-1] Critical amount of available water (expressed in [mm/day]!), above which ‘Days Since Last Rain’ parameter is set to 1 default: 5.0 (not included in calibration)
lfbinding	EVAPO(TRANSPI)RATION AND INTERCEPTION	DEPRESSION STORAGE		SMaxSealed	$(SMaxSealed)	$(SMaxSealed)	0	input	maximum depression storage for water on impervious surface which is not immediatly causing surface runoff [mm] This storage is emptied by evaporation (EW0)
lfbinding	SNOW AND FROST	SNOW		SnowFactor	$(SnowFactor)	$(SnowFactor)	0	input	Multiplier applied to precipitation that falls as snow. Since snow is commonly underestimated in meteorological observation data, setting this multiplier to some value greater than 1 can counteract for this. Estimate from prior data if available, otherwise 1
lfbinding	SNOW AND FROST	SNOW		SnowMeltCoef	$(SnowMeltCoef)	$(SnowMeltCoef)	0	input	Snowmelt coefficient [mm/deg C /day]. It is the degree-day factor that controls the rate of snowmelt default: 4.0 $(PathParams)/params_SnowMeltCoef.nc SRM: 0.45 cm/C/day ( = 4.50 mm/C/day), Kwadijk: 18 mm/C/month (= 0.59 mm/C/day) See also Martinec et al., 1998.
lfbinding	SNOW AND FROST	SNOW		SnowSeasonAdj	$(SnowSeasonAdj)	$(SnowSeasonAdj)	0	input	It is the range [mm C-1 d-1] of the seasonal variation of snow melt. SnowMeltCoef is the average value.
lfbinding	SNOW AND FROST	SNOW		TempMelt	$(TempMelt)	$(TempMelt)	0	input	It is the degree-day factor that controls the rate of snowmelt [mm °C-1 day-1]
lfbinding	SNOW AND FROST	SNOW		TempSnow	$(TempSnow)	$(TempSnow)	0	input	It is the average temperature below which precipitation is assumed to be snow [°C]
lfbinding	SNOW AND FROST	SNOW		TemperatureLapseRate	$(TemperatureLapseRate)	$(TemperatureLapseRate)	0	input	Temperature lapse rate with altitude [deg C / m] It is the temperature lapse rate that is used to estimate average temperature at the centroid of each pixel’s elevation zones [°C m-1]
lfbinding	SNOW AND FROST	SNOW		Afrost	$(Afrost)	$(Afrost)	0	input	Daily decay coefficient. It is the frost index decay coefficient [day-1]. It has a value in the range 0-1.
lfbinding	SNOW AND FROST	SNOW		Kfrost	$(Kfrost)	$(Kfrost)	0	input	Snow depth reduction coefficient, [cm-1]
lfbinding	SNOW AND FROST	SNOW		SnowWaterEquivalent	$(SnowWaterEquivalent)	$(SnowWaterEquivalent)	0	input	Snow water equivalent, (based on snow density of 450 kg/m3) (e.g. Tarboton and Luce, 1996) It is the equivalent water depth of a given snow cover, expressed as a fraction [-]
lfbinding	SNOW AND FROST	SNOW		FrostIndexThreshold	$(FrostIndexThreshold)	$(FrostIndexThreshold)	0	input	Degree Days Frost Threshold (stops infiltration, percolation and capillary rise) Molnau and Bissel found a value 56-85 for NW USA. It is the critical value of the frost index (Eq 2-5) above which the soil is considered frozen [°C day-1]
lfbinding	INFILTRATION	INFILTRATION		b_Xinanjiang	$(b_Xinanjiang)	$(b_Xinanjiang)	0	input	Power in Xinanjiang distribution function. [-] It is the power in the infiltration equation. Default: 0.7
lfbinding	INFILTRATION	INFILTRATION		PowerPrefFlow	$(PowerPrefFlow)	$(PowerPrefFlow)	0	input	Power that controls increase of proportion of preferential flow with increased soil moisture storage. It s the power in the preferential flow equation [-] default: 3.5 $(PathParams)/params_PowerPrefFlow.nc
lfbinding	GROUNDWATER RELATED PAR	GROUNDWATER		UpperZoneTimeConstant	$(UpperZoneTimeConstant)	$(UpperZoneTimeConstant)	0	input	Time constant for the upper groundwater zone [days] default: 10 $(PathParams)/params_UpperZoneTimeConstant.nc Time constant for water in upper zone [days*mm^GwAlpha] Note that units are days if GwAlpha=0 (linear reservoir]
lfbinding	GROUNDWATER RELATED PAR	GROUNDWATER		LowerZoneTimeConstant	$(LowerZoneTimeConstant)	$(LowerZoneTimeConstant)	0	input	Time constant for the lower groundwater zone [days]
lfbinding	GROUNDWATER RELATED PAR	GROUNDWATER		GwPercValue	$(GwPercValue)	$(GwPercValue)	0	input	Maximum rate of percolation going from the upper to the lower groundwater zone [mm day-1] default: 0.5 $(PathParams)/params_GwPercValue.nc
lfbinding	GROUNDWATER RELATED PAR	GROUNDWATER		GwLoss	$(GwLoss)	$(GwLoss)	0	input	Maximum loss rate out of Lower response box, expressed as a fraction of lower zone outflow. Fraction [-], range 0-1 A value of 0 (closed lower boundary) is recommended as a starting value Maximum rate of percolation from the lower groundwater zone (groundwater loss) zone [mm day-1]. default: 0.0
lfbinding	EVAPORATION FROM OPEN WATER	WATER USE		WFractionMaps	$(PathVarWaterfraction)/$(PrefixVarWaterFraction)	$(PathVarWaterfraction)/$(PrefixVarWaterFraction)	0	input	water use daily maps with a (in this case negative) volume of water [cu m/s]
lfbinding	EVAPORATION FROM OPEN WATER	WATER USE		WFracOfDay	$(PathTables)/WFracOfDay.txt	$(PathTables)/WFracOfDay.txt	0	input	table with days for each water use maps 1st column: range of days; 2nd column: suffix of wuse map
lfbinding	EVAPORATION FROM OPEN WATER	EVAPO		FracMaxWater	$(FracMaxWater)	$(FracMaxWater)	value	input	Percentage of maximum extend of water
lfbinding	EVAPORATION FROM OPEN WATER	LAKES		LakeMask	$(LakeMask)	$(LakeMask)	map	input	Mask with Lakes from GLWD database
lfbinding	EVAPORATION FROM OPEN WATER	EVAPO		maxNoEva	10	10	value	input	?
lfbinding	EVAPORATION FROM OPEN WATER	EVAPO		EvaOpenMaps	$(PathOut)/evaop	$(PathOut)/evaop	map (missing)	output	Reported evaporation from open water [mm]
lfbinding	EVAPORATION FROM OPEN WATER	EVAPO		EvaOpenTS	$(PathOut)/evaopenUps.tss	$(PathOut)/evaopenUps.tss	tss (missing)	output	Time series of upstream water evaporation from open water at gauging stations
lfbinding	TRANSMISSION LOSS	TRANSMISSION		TransPower1	$(TransPower1)	$(TransPower1)	0	input	PBchange Transmission loss function parameter
lfbinding	TRANSMISSION LOSS	TRANSMISSION		TransSub	$(TransSub)	$(TransSub)	0	input	PBchange Transmission loss function parameter
lfbinding	TRANSMISSION LOSS	TRANSMISSION		TransArea	$(TransArea)	$(TransArea)	0	input	PBchange downstream area taking into account for transmission loss
lfbinding	TRANSMISSION LOSS	TRANSMISSION		UpAreaTrans	$(UpAreaTrans)	$(UpAreaTrans)	0	input	upstream area for transmission loss
lfbinding	ROUTING	KINEMATIC WAVE		CalChanMan	$(CalChanMan)	$(CalChanMan)	0	input	It is a multiplier that is applied to the Manning’s roughness map of the channel system default: 2.0 $(PathParams)/params_CalChanMan1.nc
lfbinding	ROUTING	DOUBLE KINEMATIC WAVE		CalChanMan2	$(CalChanMan2)	$(CalChanMan2)	value/map	input	PBchange Multiplier applied to Channel Manning’s n for second routing line default: 3.0 $(PathParams)/params_CalChanMan2.nc
lfbinding	ROUTING	DOUBLE KINEMATIC WAVE		QSplitMult	$(QSplitMult)	$(QSplitMult)	value	input	PBchange Multiplier applied to average Q to split into a second line of routing
lfbinding	ROUTING	KINEMATIC WAVE		beta	$(beta)	$(beta)	0	input	It is the routing coefficient in Manning’s equation (2/3). kinematic wave parameter: 0.6 is for broad sheet flow
lfbinding	ROUTING	KINEMATIC WAVE		OFDepRef	$(OFDepRef)	$(OFDepRef)	0	input	It is a reference flow depth from which the flow velocity of the surface runoff is calculated [mm] Reference depth of overland flow [mm], used to compute overland flow Alpha for kin. wave
lfbinding	ROUTING	KINEMATIC WAVE		GradMin	$(GradMin)	$(GradMin)	0	input	Minimum slope gradient of the surface (for kin. wave: slope cannot be 0) It is a lower limit for the slope gradient used in the calculation of the surface runoff flow velocity [m m-1]
lfbinding	ROUTING	KINEMATIC WAVE		ChanGradMin	$(ChanGradMin)	$(ChanGradMin)	0	input	Minimum channel gradient (for kin. wave: slope cannot be 0) It is a lower limit for the channel gradient used in the calculation of the channel flow velocity [m m-1]
lfbinding	NUMERICS	SOIL		CourantCrit	$(CourantCrit)	$(CourantCrit)	value	input	Minimum value for Courant condition in soil moisture routine. Always less than or equal to 1. Small values result in improved numerical accuracy, at the expense of increased computing time (more sub-steps needed). If reported time series of soil moisture contain large jumps, lowering CourantCrit should fix this
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	GROUNDWATER		LZAvInflowMap	$(PathMaps)/lzavin.map	$(PathMaps)/lzavin.map	map	input	$(PathInit)/lzavin.map Reported map of average percolation rate from upper to lower groundwater zone (reported for end of simulation)
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	KINEMATIC WAVE		AvgDis	$(PathMaps)/avgdis.map	$(PathMaps)/avgdis.map	map	input	$(PathInit)/avgdis.map CHANNEL split routing in two lines Average discharge map [m3/s]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SETTINGS		timestepInit	$(timestepInit)	$(timestepInit)	value/date	input	If initial conditions are stored as netCDF stack, this variable sets which time step to use as initial step. It can be either a date (e.g. 1/1/2010) or a number (e.g. 5). If a number is used, it refers to “CalendarDayStart”. (it is generally one step back compared to StepStart) If missing, netcdf file are read with no reference to ‘time’, either if they are a stack or not. timestepInit is ignored if netCDF file is a single netCDF file..
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SURFACE		OFDirectInitValue	$(OFDirectInitValue)	$(OFDirectInitValue)	value/map	input	Reported water volume for direct fraction on catchment surface [m^3]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SURFACE		OFOtherInitValue	$(OFOtherInitValue)	$(OFOtherInitValue)	value/map	input
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SURFACE		OFForestInitValue	$(OFForestInitValue)	$(OFForestInitValue)	value/map	input
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	OVERLAND FLOW		WaterDepthInitValue	$(WaterDepthInitValue)	$(WaterDepthInitValue)	map	input	initial overland flow water depth [mm]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SNOW		SnowCoverAInitValue	$(SnowCoverAInitValue)	$(SnowCoverAInitValue)	0	input	initial snow depth in snow zone A [mm]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SNOW		SnowCoverBInitValue	$(SnowCoverBInitValue)	$(SnowCoverBInitValue)	0	input	initial snow depth in snow zone B [mm]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SNOW		SnowCoverCInitValue	$(SnowCoverCInitValue)	$(SnowCoverCInitValue)	0	input	initial snow depth in snow zone C [mm]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SNOW		FrostIndexInitValue	$(FrostIndexInitValue)	$(FrostIndexInitValue)	0	input	initial frost index value
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	INTERCEPTION		CumIntInitValue	$(CumIntInitValue)	$(CumIntInitValue)	0	input	cumulative interception [mm]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	GROUNDWATER		UZInitValue	$(UZInitValue)	$(UZInitValue)	0	input	water in upper groundwater zone [mm]
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SOIL		DSLRInitValue	$(DSLRInitValue)	$(DSLRInitValue)	0	input	days since last rainfall
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	GROUNDWATER		LZInitValue	$(LZInitValue)	$(LZInitValue)	0	input	water in lower store [mm] -9999: use steady-state storage
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	KINEMATIC WAVE		TotalCrossSectionAreaInitValue	$(TotalCrossSectionAreaInitValue)	$(TotalCrossSectionAreaInitValue)	0	input	initial cross-sectional area of flow in channel[m2] -9999: use half bankfull
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SOIL		ThetaInit1Value	$(ThetaInit1Value)	$(ThetaInit1Value)	0	input	initial soil moisture content layer 1a -9999: use field capacity values
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SOIL		ThetaInit2Value	$(ThetaInit2Value)	$(ThetaInit2Value)	0	input	initial soil moisture content layer 1b -9999: use field capacity values
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	SOIL		ThetaInit3Value	$(ThetaInit3Value)	$(ThetaInit3Value)	0	input	initial soil moisture content layer 2 -9999: use field capacity values
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	DOUBLE KINEMATIC WAVE		CrossSection2AreaInitValue	$(CrossSection2AreaInitValue)	$(CrossSection2AreaInitValue)	value/map	input	initial channel crosssection for 2nd routing channel -9999: use 0
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	DOUBLE KINEMATIC WAVE		PrevSideflowInitValue	$(PrevSideflowInitValue)	$(PrevSideflowInitValue)	value/map	input	initial inflow from each pixel to the channel [mm]. A value of -9999 sets the initial amount of sideflow to thye channel to 0
lfbinding	INITIAL CONDITIONS WATER BALANCE MODEL	KINEMATIC WAVE		PrevDischarge	$(PrevDischarge)	$(PrevDischarge)	0	input	initial discharge from previous run for lakes, reservoirs and transmission loss only needed for lakes reservoirs and transmission loss -9999: use 0
lfbinding	INITIAL CONDITION FOREST	INTERCEPTION		CumIntForestInitValue	$(CumIntForestInitValue)	$(CumIntForestInitValue)	0	input	cumulative interception forest [mm]
lfbinding	INITIAL CONDITION FOREST	GROUNDWATER		UZForestInitValue	$(UZForestInitValue)	$(UZForestInitValue)	0	input	Initial water storage water in upper groundwater zone for forest [mm]
lfbinding	INITIAL CONDITION FOREST	SOIL		DSLRForestInitValue	$(DSLRForestInitValue)	$(DSLRForestInitValue)	0	input	initial number of days since the last rainfall event for forest [days]
lfbinding	INITIAL CONDITION FOREST	SOIL		ThetaForestInit1Value	$(ThetaForestInit1Value)	$(ThetaForestInit1Value)	0	input	initial soil moisture content layer 1a -9999: use field capacity values
lfbinding	INITIAL CONDITION FOREST	SOIL		ThetaForestInit2Value	$(ThetaForestInit2Value)	$(ThetaForestInit2Value)	0	input	initial soil moisture content layer 1b -9999: use field capacity values
lfbinding	INITIAL CONDITION FOREST	SOIL		ThetaForestInit3Value	$(ThetaForestInit3Value)	$(ThetaForestInit3Value)	0	input	initial soil moisture content layer 2 -9999: use field capacity values
lfbinding	INITIAL CONDITION FOREST	SOIL		CumIntSealedInitValue	$(CumIntSealedInitValue)	$(CumIntSealedInitValue)	0	input	cumulative depression storage [mm] depression storage for surface runoff from imperious surface
lfbinding	INITIAL CONDITION IRRIGATION	INTERCEPTION		CumIntIrrigationInitValue	$(CumIntIrrigationInitValue)	$(CumIntIrrigationInitValue)	0	input	cumulative interception irrigation [mm] It is the initial value of the interception storage for the irrigation part of a pixel [mm]
lfbinding	INITIAL CONDITION IRRIGATION	GROUNDWATER		UZIrrigationInitValue	$(UZIrrigationInitValue)	$(UZIrrigationInitValue)	0	input	Initial water storage water in upper groundwater zone for irrigation [mm]
lfbinding	INITIAL CONDITION IRRIGATION	SOIL		DSLRIrrigationInitValue	$(DSLRIrrigationInitValue)	$(DSLRIrrigationInitValue)	0	input	initial number of days since the last rainfall event for irrigation [days]
lfbinding	INITIAL CONDITION IRRIGATION	SOIL		ThetaIrrigationInit1Value	$(ThetaIrrigationInit1Value)	$(ThetaIrrigationInit1Value)	0	input	initial soil moisture content layer 1a for irrigation -9999: use field capacity values
lfbinding	INITIAL CONDITION IRRIGATION	SOIL		ThetaIrrigationInit2Value	$(ThetaIrrigationInit2Value)	$(ThetaIrrigationInit2Value)	0	input	initial soil moisture content layer 1b for irrigation -9999: use field capacity values
lfbinding	INITIAL CONDITION IRRIGATION	SOIL		ThetaIrrigationInit3Value	$(ThetaIrrigationInit3Value)	$(ThetaIrrigationInit3Value)	0	input	initial soil moisture content layer 2 for irrigation -9999: use field capacity values
lfbinding	INPUT METEO AND VEG MAPS	METEO		PrecipitationMaps	$(PathMeteo)/$(PrefixPrecipitation)	$(PathMeteo)/$(PrefixPrecipitation)	map	input	precipitation [mm/day]
lfbinding	INPUT METEO AND VEG MAPS	METEO		TavgMaps	$(PathMeteo)/$(PrefixTavg)	$(PathMeteo)/$(PrefixTavg)	map	input	average daily temperature [C]
lfbinding	INPUT METEO AND VEG MAPS	METEO		E0Maps	$(PathMeteo)/$(PrefixE0)	$(PathMeteo)/$(PrefixE0)	map	input	daily reference evaporation (free water) [mm/day]
lfbinding	INPUT METEO AND VEG MAPS	METEO		ES0Maps	$(PathMeteo)/$(PrefixES0)	$(PathMeteo)/$(PrefixES0)	map	input	daily reference evaporation (soil) [mm/day]
lfbinding	0	METEO		ET0Maps	$(PathMeteo)/$(PrefixET0)	$(PathMeteo)/$(PrefixET0)	map	input	daily reference evapotranspiration (crop) [mm/day]
lfbinding	INPUT METEO AND VEG MAPS	LAI		LAIOtherMaps	$(PathLAI)/$(PrefixLAIOther)	$(PathLAI)/$(PrefixLAIOther)	0	input	leaf area index [m2/m2]
lfbinding	INPUT METEO AND VEG MAPS	LAI		LAIForestMaps	$(PathLAI)/$(PrefixLAIForest)	$(PathLAI)/$(PrefixLAIForest)	0	input	leaf area index forest [m2/m2]
lfbinding	INPUT METEO AND VEG MAPS	LAI		LAIIrrigationMaps	$(PathLAI)/$(PrefixLAIIrrigation)	$(PathLAI)/$(PrefixLAIIrrigation)	0	input	leaf area index irrigation [m2/m2]
lfbinding	INPUT METEO AND VEG MAPS	LAI		LAIOfDay	$(PathTables)/laiofday.txt	$(PathTables)/laiofday.txt	table	input	table with days for each LAI maps 1st column: range of days; 2nd column: suffix of LAI map
lfbinding	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		FirstDayOfMonth	$(PathTables)/firstdayofmonth.txt	$(PathTables)/firstdayofmonth.txt	table	input	NO LONGER USED table with number of first day for each month
lfbinding	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		DomesticDemandMaps	$(PathWaterUse)/$(PrefixWaterUseDomestic)	$(PathWaterUse)/$(PrefixWaterUseDomestic)	map	input	Domestic water abstraction daily maps [mm]
lfbinding	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		LivestockDemandMaps	$(PathWaterUse)/$(PrefixWaterUseLivestock)	$(PathWaterUse)/$(PrefixWaterUseLivestock)	map	input	Livestock water abstraction daily maps [mm]
lfbinding	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		EnergyDemandMaps	$(PathWaterUse)/$(PrefixWaterUseEnergy)	$(PathWaterUse)/$(PrefixWaterUseEnergy)	map	input	Energy water abstraction daily maps [mm]
lfbinding	INPUT WATER USE MAPS AND PAR	WATER ABSTRACTION		IndustrialDemandMaps	$(PathWaterUse)/$(PrefixWaterUseIndustry)	$(PathWaterUse)/$(PrefixWaterUseIndustry)	map	input	Industry water abstraction daily maps [mm]
lfbinding	IRRIGATION AND WATER ABSTRACTION	WATER ABSTRACTION		LivestockConsumptiveUseFraction	$(LivestockConsumptiveUseFraction)	$(LivestockConsumptiveUseFraction)	0	input	Consumptive Use (1-Recycling ratio) for livestock water use (0-1)
lfbinding	WATER USE MAPS AND PARAMETERS	WATER ABSTRACTION		IndustryConsumptiveUseFraction	$(IndustryConsumptiveUseFraction)	$(IndustryConsumptiveUseFraction)	0	input	Consumptive Use (1-Recycling ratio) for industrial water use (0-1)
lfbinding	WATER USE MAPS AND PARAMETERS	WATER ABSTRACTION		EnergyConsumptiveUseFraction	$(EnergyConsumptiveUseFraction)	$(EnergyConsumptiveUseFraction)	0	input	Consumptive Use (1-Recycling ratio) for energy production water use (0-1)
lfbinding	WATER USE MAPS AND PARAMETERS	WATER ABSTRACTION		DomesticConsumptiveUseFraction	$(DomesticConsumptiveUseFraction)	$(DomesticConsumptiveUseFraction)	value	input	Consumptive Use (1-Recycling ratio) for domestic water use (0-1) Source: EEA (2005) State of Environment
lfbinding	WATER USE MAPS AND PARAMETERS	WATER ABSTRACTION		LeakageFraction	$(LeakageFraction)	$(LeakageFraction)	0	input	Fraction of leakage of public water supply (0=no leakage, 1=100% leakage)
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		LeakageWaterLoss	$(LeakageWaterLoss)	$(LeakageWaterLoss)	0	input	The water that is lost from leakage (lost) (0-1)
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		LeakageReductionFraction	$(LeakageReductionFraction)	$(LeakageReductionFraction)	0	input	Leakage reduction fraction (e.g. 50% = 0.5 as compared to current Leakage) (baseline=0, maximum=1)
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		WaterSavingFraction	$(WaterSavingFraction)	$(WaterSavingFraction)	0	input	Water savings fraction (e.g. 10% = 0.1 as compared to current Use (baseline=0, maximum=1) scenwsav.map
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		WaterReUseFraction	$(WaterReUseFraction)	$(WaterReUseFraction)	0	input	Fraction of water re-used in industry (e.g. 50% = 0.5 = half of the water is re-used, used twice (baseline=0, maximum=1 scenruse.map
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		IrrigationEfficiency	$(IrrigationEfficiency)	$(IrrigationEfficiency)	0	input	Fraction of water re-used in industry (e.g. 50% = 0.5 = half of the water is re-used, used twice (baseline=0, maximum=1 scenruse.map
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		ConveyanceEfficiency	$(ConveyanceEfficiency)	$(ConveyanceEfficiency)	0	input	onveyance efficiency, around 0.80 for average channel
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		IrrigationType	$(IrrigationType)	$(IrrigationType)	0	input	IrrigationType (value between 0 and 1) is used here to distinguish between additional adding water until fieldcapacity (value set to 1) or not (value set to 0)
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		IrrigationMult	$(IrrigationMult)	$(IrrigationMult)	0	input	Factor to irrigation water demand More than the transpiration is added e.g to prevent salinisation
lfbinding	WATER USE MAPS AND PAR	CROP		MapIrrigationCropCoef	$(PathMapsTables)/cropcoef_i.map	$(PathMapsTables)/cropcoef_i.map	table	input	Irrigation crop coefficient
lfbinding	WATER USE MAPS AND PAR	SOIL		MapIrrigationCropGroupNumber	$(PathMapsTables)/cropgrpn_i.map	$(PathMapsTables)/cropgrpn_i.map	table	input	Irrigation crop group number
lfbinding	WATER USE MAPS AND PAR	CALC INDICATOR		Population	$(Population)	$(Population)	map	input	Population per pixel
lfbinding	WATER USE MAPS AND PAR	CALC INDICATOR		PopulationMaps	$(PopulationMaps)	$(PopulationMaps)	map	input	Population map for TransientLandUseChange
lfbinding	WATER USE MAPS AND PAR	CALC INDICATOR		LandUseMask	$(LandUseMask)	$(LandUseMask)	map	input	Land use mask map to mask out deserts and high mountains (to cover ETdif map, otherwise Sahara etc would pop out; meant as a drought indicator
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		WaterUseMaps	$(WaterUseMaps)	$(WaterUseMaps)	map	input	Reported water use m3 s-1 depending on the availability of discharge
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		WaterUseTS	$(WaterUseTS)	$(WaterUseTS)	tss	input	Time series of upstream water use at gauging stations
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		StepsWaterUseTS	$(StepsWaterUseTS)	$(StepsWaterUseTS)	tss	input	number of loops needed for water use routine
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		maxNoWateruse	$(maxNoWateruse)	$(maxNoWateruse)	value	input	maximum number of loops for calculating the use of water (=distance to the water demand cell)
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION		WUsePercRemain	$(WUsePercRemain)	$(WUsePercRemain)	value	input	percentage of water that must remain in a grid cell and is not withdrawn by water use e.g. 0.2 = 20 percent of discharge is not taken out
lfbinding	WATER USE MAPS AND PAR	WATER ABSTRACTION / CALC INDICATOR		WUseRegion	$(WUseRegion)	$(WUseRegion)	map	input	water use region
lfbinding	RICE IRRIGATION	RICE IRRIGATION		RiceFlooding	10	10	0	input	water amount in mm per day 10 mm for 10 days (total 10cm water)
lfbinding	RICE IRRIGATION	RICE IRRIGATION		RicePercolation	2	2	0	input	FAO: percolation for heavy clay soils: PERC = 2 mm/day
lfbinding	RICE IRRIGATION	RICE IRRIGATION		RicePlantingDay1	$(PathMapsTables)/riceplantingday1.map	$(PathMapsTables)/riceplantingday1.map	table	input	map with starting day of the year
lfbinding	RICE IRRIGATION	RICE IRRIGATION		RiceHarvestDay1	$(PathMapsTables)/riceharvestday1.map	$(PathMapsTables)/riceharvestday1.map	map	input	map with starting day of the year
lfbinding	RICE IRRIGATION	RICE IRRIGATION		RicePlantingDay2	$(PathMapsTables)/riceplantingday2.map	$(PathMapsTables)/riceplantingday2.map	table	input	map with starting day of the year
lfbinding	RICE IRRIGATION	RICE IRRIGATION		RiceHarvestDay2	$(PathMapsTables)/riceharvestday2.map	$(PathMapsTables)/riceharvestday2.map	map	input	map with starting day of the year
lfbinding	REPORTED OUTPUT MAPS	ROUTING		DischargeMaps	$(PathOut)/dis	$(PathOut)/dis	map	output	Reported discharge [cu m/s] (average over the sub timesteps)
lfbinding	REPORTED OUTPUT MAPS	SOIL		TopSoilMoistureMaps	$(PathOut)/wt	$(PathOut)/wt	map (missing)	output	Reported Topsoil moisture [%]
lfbinding	REPORTED OUTPUT MAPS	SOIL		SurfaceSoilMoistureMaps	$(PathOut)/wta	$(PathOut)/wta	map (missing)	output	Reported surface soil moisture [%]
lfbinding	REPORTED OUTPUT MAPS	KINEMATIC WAVE		DisMaps	$(PathOut)/q	$(PathOut)/q	map (missing)	output	Reported discharge [cu m/s] at the end of a timestep
lfbinding	REPORTED OUTPUT MAPS	KINEMATIC WAVE		MaskDischargeMaps	$(PathOut)/dism	$(PathOut)/dism	map (missing)	output	Reported discharge [cu m/s] but cut by a discharge mask map
lfbinding	REPORTED OUTPUT MAPS	KINEMATIC WAVE		WaterLevelMaps	$(PathOut)/wl	$(PathOut)/wl	map	output	Reported water level [m]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta1State	$(PathOut)/tha	$(PathOut)/tha	map	output/state	Reported volumetric soil moisture content for soil layer 1 [V/V]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta2State	$(PathOut)/thb	$(PathOut)/thb	map	output/state	Reported volumetric soil moisture content for both soil layer 2 [V/V]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta3State	$(PathOut)/thc	$(PathOut)/thc	map	output/state	Reported volumetric soil moisture content for both soil layer 3 [V/V]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	GROUNDWATER		UZState	$(PathOut)/uz	$(PathOut)/uz	map	output/state	Reported storage in upper groundwater zone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	GROUNDWATER		LZState	$(PathOut)/lz	$(PathOut)/lz	map	output/state	Reported storage in lower response box [mm]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		DSLRState	$(PathOut)/dslr	$(PathOut)/dslr	map	output/state	Reported days since last rain [ndays]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	ROUTING		WaterDepthState	$(PathOut)/wdept	$(PathOut)/wdept	map	output	Reported overland flow water depth
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SURFACE		OFDirectState	$(PathOut)/ofdir	$(PathOut)/ofdir	map	output/state	Reported water volume for direct fraction on catchment surface [m3]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SURFACE		OFOtherState	$(PathOut)/ofoth	$(PathOut)/ofoth	map	output/state	Reported water volume for other fraction on catchment surface [m3]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SURFACE		OFForestState	$(PathOut)/offor	$(PathOut)/offor	map	output/state	Reported water volume for forest fraction on catchment surface [m3]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	KINEMATIC WAVE		ChanCrossSectionState	$(PathOut)/chcro	$(PathOut)/chcro	map	output/state	Reported chan cross-section area [m2]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SNOW		SnowCoverAState	$(PathOut)/scova	$(PathOut)/scova	map	output/state	Reported snow cover in snow zone A [mm]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SNOW		SnowCoverBState	$(PathOut)/scovb	$(PathOut)/scovb	map	output/state	Reported snow cover in snow zone B [mm]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SNOW		SnowCoverCState	$(PathOut)/scovc	$(PathOut)/scovc	map	output/state	Reported snow cover in snow zone C [mm]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SNOW		FrostIndexState	$(PathOut)/frost	$(PathOut)/frost	map	output/state	Reported frost index
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	INTERCEPTION		CumInterceptionState	$(PathOut)/cum	$(PathOut)/cum	map	output/state	Reported interception storage
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	DOUBLE KINEMATIC WAVE		CrossSection2State	$(PathOut)/ch2cr	$(PathOut)/ch2cr	map	output/state	Cross section area for split routing [m2]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	DOUBLE KINEMATIC WAVE		ChSideState	$(PathOut)/chside	$(PathOut)/chside	map	output/state	Reported sideflow to channel for first line of routing [m3/s]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	ROUTING		ChanQState	$(PathOut)/chanq	$(PathOut)/chanq	map	output/state	Reported istantaneous discharge at end of computation step [cu m/s] ChanQ
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		DSLRForestState	$(PathOut)/dslf	$(PathOut)/dslf	map	output/state	Reported days since last rain for forest
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	INTERCEPTION		CumInterceptionForestState	$(PathOut)/cumf	$(PathOut)/cumf	map	output/state	Reported interception storage for forest
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta1ForestState	$(PathOut)/thfa	$(PathOut)/thfa	map	output/state	theta for soil layer 1a forest fraction
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta2ForestState	$(PathOut)/thfb	$(PathOut)/thfb	map	output/state	theta for soil layer 1b forest fraction
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta3ForestState	$(PathOut)/thfc	$(PathOut)/thfc	map	output/state	theta for soil layer 2 forest fraction
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	GROUNDWATER		UZForestState	$(PathOut)/uzf	$(PathOut)/uzf	map	output/state	Reported storage in upper groundwater zone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SURFACE		CumIntSealedState	$(PathOut)/cseal	$(PathOut)/cseal	map	output/state	Reported depression storage
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		DSLRIrrigationState	$(PathOut)/dsli	$(PathOut)/dsli	map	output/state	Reported days since last rain irrigation
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	INTERCEPTION		CumInterceptionIrrigationState	$(PathOut)/cumi	$(PathOut)/cumi	map	output/state	Reported interception storage
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta1IrrigationState	$(PathOut)/thia	$(PathOut)/thia	map	output/state	Reported volumetric soil moisture content for soil layer 1a for irrigation[V/V]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta2IrrigationState	$(PathOut)/thib	$(PathOut)/thib	map	output/state	Reported volumetric soil moisture content for both soil layer 1b for irrigation [V/V]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	SOIL		Theta3IrrigationState	$(PathOut)/thic	$(PathOut)/thic	map	output/state	Reported volumetric soil moisture content for both soil layer 2 for irrigation [V/V]
lfbinding	REPORTED OUTPUT MAPS (STATE VARIABLES AT SELECTED TIME STEPS)	GROUNDWATER		UZIrrigationState	$(PathOut)/uzi	$(PathOut)/uzi	map	output/state	Reported storage in upper groundwater zone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta1End	$(PathOut)/tha.end	$(PathOut)/tha.end	map	output/end	Reported volumetric soil moisture content for soil layer 1a [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta2End	$(PathOut)/thb.end	$(PathOut)/thb.end	map	output/end	Reported volumetric soil moisture content for both soil layer 1b [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta3End	$(PathOut)/thc.end	$(PathOut)/thc.end	map	output/end	Reported volumetric soil moisture content for both soil layer 2 [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	GROUNDWATER		UZEnd	$(PathOut)/uz.end	$(PathOut)/uz.end	map	output/end	Reported storage in upper groundwater zone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (END)	GROUNDWATER		LZEnd	$(PathOut)/lz.end	$(PathOut)/lz.end	map	output/end	Reported storage in lower groundwater zone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		DSLREnd	$(PathOut)/dslr.end	$(PathOut)/dslr.end	map	output/end	Reported days since last rain
lfbinding	REPORTED OUTPUT MAPS (END)	ROUTING		WaterDepthEnd	$(PathOut)/wdept.end	$(PathOut)/wdept.end	map	output/end	Reported overlandflow water depth
lfbinding	REPORTED OUTPUT MAPS (END)	SURFACE		OFDirectEnd	$(PathOut)/ofdir.end	$(PathOut)/ofdir.end	map	output/end	Reported water volume for direct fraction on catchment surface
lfbinding	REPORTED OUTPUT MAPS (END)	SURFACE		OFOtherEnd	$(PathOut)/ofoth.end	$(PathOut)/ofoth.end	map	output/end
lfbinding	REPORTED OUTPUT MAPS (END)	SURFACE		OFForestEnd	$(PathOut)/offor.end	$(PathOut)/offor.end	map	output/end
lfbinding	REPORTED OUTPUT MAPS (END)	KINEMATIC WAVE		ChanCrossSectionEnd	$(PathOut)/chcro.end	$(PathOut)/chcro.end	map	output/end	Reported chan cross-section area
lfbinding	REPORTED OUTPUT MAPS (END)	SNOW		SnowCoverAEnd	$(PathOut)/scova.end	$(PathOut)/scova.end	map	output/end	Reported snow cover in snow zone A [mm]
lfbinding	REPORTED OUTPUT MAPS (END)	SNOW		SnowCoverBEnd	$(PathOut)/scovb.end	$(PathOut)/scovb.end	map	output/end	Reported snow cover in snow zone B [mm]
lfbinding	REPORTED OUTPUT MAPS (END)	SNOW		SnowCoverCEnd	$(PathOut)/scovc.end	$(PathOut)/scovc.end	map	output/end	Reported snow cover in snow zone C [mm]
lfbinding	REPORTED OUTPUT MAPS (END)	SNOW		FrostIndexEnd	$(PathOut)/frost.end	$(PathOut)/frost.end	map	output/end	Reported frost index
lfbinding	REPORTED OUTPUT MAPS (END)	INTERCEPTION		CumInterceptionEnd	$(PathOut)/cum.end	$(PathOut)/cum.end	map	output/end	Reported interception storage
lfbinding	REPORTED OUTPUT MAPS (END)	LAKES		LakeLevelEnd	$(PathOut)/lakeh.end	$(PathOut)/lakeh.end	map	output/end	Reported lake level
lfbinding	REPORTED OUTPUT MAPS (END)	LAKES		LakeStorageM3	$(PathOut)/lakest	$(PathOut)/lakest	map	output	Reported lake storage
lfbinding	REPORTED OUTPUT MAPS (END)	RESERVOIRS		ReservoirFillEnd	$(PathOut)/rsfil.end	$(PathOut)/rsfil.end	map	output/end	Reported reservoir filling
lfbinding	REPORTED OUTPUT MAPS (END)	DOUBLE KINEMATIC WAVE		CrossSection2End	$(PathOut)/ch2cr.end	$(PathOut)/ch2cr.end	map	output/end	Cross section area for split routing [m2]
lfbinding	REPORTED OUTPUT MAPS (END)	DOUBLE KINEMATIC WAVE		ChSideEnd	$(PathOut)/chside.end	$(PathOut)/chside.end	map	output/end	Reported channel side flow
lfbinding	REPORTED OUTPUT MAPS (END)	ROUTING		ChanQEnd	$(PathOut)/chanq.end	$(PathOut)/chanq.end	map	output/end	Reported istantaneous discharge at end of computation step [cu m/s] ChanQ
lfbinding	REPORTED OUTPUT MAPS (END)	KINEMATIC WAVE		DischargeEnd	$(PathOut)/dis.end	$(PathOut)/dis.end	map	output/end	Reported discharge [m3/s] for lakes and reservoirs
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		DSLRForestEnd	$(PathOut)/dslf.end	$(PathOut)/dslf.end	map	output/end	Reported days since last rain for forest
lfbinding	REPORTED OUTPUT MAPS (END)	INTERCEPTION		CumInterceptionForestEnd	$(PathOut)/cumf.end	$(PathOut)/cumf.end	map	output/end	Reported interception storage for forest
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta1ForestEnd	$(PathOut)/thfa.end	$(PathOut)/thfa.end	map	output/end	Reported volumetric soil moisture content for soil layer 1a for forest [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta2ForestEnd	$(PathOut)/thfb.end	$(PathOut)/thfb.end	map	output/end	Reported volumetric soil moisture content for both soil layer 1b for forest [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta3ForestEnd	$(PathOut)/thfc.end	$(PathOut)/thfc.end	map	output/end	Reported volumetric soil moisture content for both soil layer 2 [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	GROUNDWATER		UZForestEnd	$(PathOut)/uzf.end	$(PathOut)/uzf.end	map	output/end	Reported storage in upper groundwaterzone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (END)	SURFACE		CumIntSealedEnd	$(PathOut)/cseal.end	$(PathOut)/cseal.end	map	output/end	Reported depression storage
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		DSLRIrrigationEnd	$(PathOut)/dsli.end	$(PathOut)/dsli.end	map	output/end	Reported days since last rain for irrigation
lfbinding	REPORTED OUTPUT MAPS (END)	INTERCEPTION		CumInterceptionIrrigationEnd	$(PathOut)/cumi.end	$(PathOut)/cumi.end	map	output/end	Reported interception storage for irrigation
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta1IrrigationEnd	$(PathOut)/thia.end	$(PathOut)/thia.end	map	output/end	Reported volumetric soil moisture content for soil layer 1a [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta2IrrigationEnd	$(PathOut)/thib.end	$(PathOut)/thib.end	map	output/end	Reported volumetric soil moisture content for soil layer 1b [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	SOIL		Theta3IrrigationEnd	$(PathOut)/thic.end	$(PathOut)/thic.end	map	output/end	Reported volumetric soil moisture content for soil layer 2 [V/V]
lfbinding	REPORTED OUTPUT MAPS (END)	GROUNDWATER		UZIrrigationEnd	$(PathOut)/uzi.end	$(PathOut)/uzi.end	map	output/end	Reported storage in upper groundwater zone response box for irrigation [mm]
lfbinding	REPORTED OUTPUT MAPS (DRIVING METEO VAR)	METEO		PrecipitationMapsOut	$(PathOut)/pr	$(PathOut)/pr	map	output	Precipitation [mm per time step]
lfbinding	REPORTED OUTPUT MAPS (DRIVING METEO VAR)	METEO		TavgMapsOut	$(PathOut)/tav	$(PathOut)/tav	map	output	Average DAILY temperature [degrees C]
lfbinding	REPORTED OUTPUT MAPS (DRIVING METEO VAR)	EVAPO		ETRefMapsOut	$(PathOut)/et	$(PathOut)/et	map	output	Potential reference evapotranspiration [mm per time step]
lfbinding	REPORTED OUTPUT MAPS (DRIVING METEO VAR)	EVAPO		ESRefMapsOut	$(PathOut)/es	$(PathOut)/es	map	output	Potential evaporation from bare soil surface [mm per time step]
lfbinding	REPORTED OUTPUT MAPS (DRIVING METEO VAR)	EVAPO		EWRefMapsOut	$(PathOut)/ew	$(PathOut)/ew	map	output	Potential evaporation from open water surface [mm per time step]
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL STATE VAR AT EVERY TIME STEP)	SOIL		Theta1Maps	$(PathOut)/thtop	$(PathOut)/thtop	map	output	Reported volumetric soil moisture content for soil layer 1 [V/V]
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL RATE VAR AT EVERY TIME STEP)	GROUNDWATER		UZOutflowMaps	$(PathOut)/quz	$(PathOut)/quz	map	output	Reported upper groundwater zone outflow [mm/∆t]
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL RATE VAR AT EVERY TIME STEP)	RUNOFF		TotaltoChanMaps	$(PathOut)/ttoc	$(PathOut)/ttoc	map	output	Reported total runoff that enters the channel: groundwater + surface runoff [mm/∆t]
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL STATE VAR AT EVERY TIME STEP)	GROUNDWATER		UZMaps	$(PathOut)/uz	$(PathOut)/uz	map	output	Reported storage in upper groundwater zone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL STATE VAR AT EVERY TIME STEP)	GROUNDWATER		LZMaps	$(PathOut)/lz	$(PathOut)/lz	map	output	Reported storage in lower groundwater zone response box [mm]
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL STATE VAR AT EVERY TIME STEP)	SOIL		DSLRMaps	$(PathOut)/dslr	$(PathOut)/dslr	map	output	Reported days since last rain
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL STATE VAR AT EVERY TIME STEP)	ROUTING		WaterDepthMaps	$(PathOut)/wdept	$(PathOut)/wdept	map	output	Reported water depth
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL RATE VAR AT EVERY TIME STEP)	RUNOFF		TotalRunoffMaps	$(PathOut)/trun	$(PathOut)/trun	map	output	Reported total runoff [mm/∆t]
lfbinding	REPORTED OUTPUT MAPS (INDIVIDUAL STATE VAR AT EVERY TIME STEP)	SOIL		Theta3Maps	$(PathOut)/thbot	$(PathOut)/thbot	map	output	Reported volumetric soil moisture content for soil layer 2 [V/V]

Table: Switches for LISFLOOD options.

section (XML)	group (XML)	module	Eqz.	key	default	module	Type	I/O	DEFAULT	cold	warm	calib	Description
lfoptions				TemperatureInKelvin	0	SETTINGS	switch	input	0				Use temperature data in C (=0) or in K (=1)
lfoptions				gridSizeUserDefined	0	SETTINGS	switch	input	0				Get grid size attributes (length, area) from user-defined maps (instead of using map location attributes directly)
lfoptions				dynamicWave	0	DYNAMIC WAVE	switch	input	0				Activate dynamic wave routing
lfoptions				inflow	0	INFLOW	switch	input	0				Use inflow hydrographs
lfoptions				simulatePF	0	SOIL	switch	input	0				Calculate pF values from soil moisture
lfoptions				simulateLakes	0	LAKES	switch	input	0				Simulate unregulated lakes (kin. wave only)
lfoptions				simulatePolders	0	POLDERS	switch	input	0				Simulate polders (dyn. wave only)
lfoptions				simulateReservoirs	0	RESERVOIRS	switch	input	0				Simulate retention and hydropower reservoirs (kin. wave only)
lfoptions				simulateWaterLevels	0	WATER LEVELS	switch	input	0				Activate computation of water level maps / time series (does not affect routing)
lfoptions				TransientLandUseChange	0	LANDUSE CHANGE	switch	input	0				Activate reading of time changing land use description
lfoptions				TransientWaterDemandChange	0	WATER ABSTRACTION	switch	input	0				Activate reading of time changing water demand
lfoptions				useWaterDemandAveYear	0	WATER ABSTRACTION	switch	input	0				Use “average” year for water demand and loop it over years
lfoptions				TransLoss	0	TRANSMISSION LOSS	switch	input	0				Activate transmission loss
lfoptions				SplitRouting	0	KINEMATIC WAVE	switch	input	0				Activate double kinematic wave routing
lfoptions				wateruse	0	WATER ABSTRACTION	switch	input	0				Activate water use computation
lfoptions				groundwaterSmooth	0	GROUNDWATER	switch	input	0				Activate smoothing for groundwater to correct error by using windowtotal, based on groundwater bodies and catchments
lfoptions				wateruseRegion	0	WATER ABSTRACTION	switch	input	0				Use water regions in water use module
lfoptions				drainedIrrigation	0	IRRIGATION	switch	input	0				Use map of drainage systems to determine return flow (if drained, all percolation to channel within day; if not, all normal soil processes)
lfoptions				riceIrrigation	0	IRRIGATION	switch	input	0				Activate computation for paddy rice irrigation and abstraction
lfoptions				openwaterevapo	1	EVAPO	switch	input	1				Compute evaporation from open water
lfoptions				varfractionwater	0	EVAPO	switch	input	0				Compute the fraction of pixel that is open water
lfoptions				indicator	0	INDICATOR	switch	input	0				Activate computation of indicators (such as WEI, e-flow, etc)
lfoptions				MonteCarlo	0	SETTINGS	switch	input	0				Activate MonteCarlo simulation
lfoptions				EnKF	0	SETTINGS	switch	input	0				Activate EnKF simulation
lfoptions				InitLisflood	1	SETTINGS	switch	input	1				Run LISFLOOD initialization run
lfoptions				InitLisfloodwithoutSplit	0	SETTINGS	switch	input	0				Run LISFLOOD initialization run to compute Lzavin.map and skip completely the routing component
lfoptions				readNetcdfStack	0	IO	switch	input	0				Read meteorological data in NetCDF format (Precip, Tavg, ET0, E0,ES0)
lfoptions				writeNetcdfStack	0	IO	switch	input	0				Write NetCDF stacks for output files (the pr.nc is read to get the metadata like projection)
lfoptions				writeNetcdf	0	IO	switch	input	0				Write NetCDF files for END files (single netcdf)
lfoptions				repDischargeTs	1	DISCHARGE	switch rep tss	input	1				Report discharge time series at gauges
lfoptions				repInternalCom	0	LOG	switch rep tss	input	0				Report internal number of sub step for soil, channel routing, water use
lfoptions				repMBTs	0	LOG	switch rep tss	input	0				Report timeseries of absolute cumulative mass balance error
lfoptions				repStateSites	0	STATE	switch rep tss	input	0				Report state variables at sites
lfoptions				repRateSites	0	STATE	switch rep tss	input	0				Report state variables rates at sites
lfoptions				repStateUpsGauges	0	STATE	switch rep tss	input	0				Report timeseries of model variables, averaged over contributing area of each gauging station
lfoptions				repRateUpsGauges	0	STATE	switch rep tss	input	0				Report timeseries of model rate variables, averaged over contributing area of each gauging station
lfoptions				repMeteoUpsGauges	0	METEO	switch rep tss	input	0				Report timeseries of meteo input data
lfoptions				repLZAvInflowSites	0	INFLOW	switch rep tss	input	0				Report time serie of average percolation rate from upper to lower groundwater zone at sites
lfoptions				repLZAvInflowUpsGauges	0	INFLOW	switch rep tss	input	0				Report time serie of average percolation rate from upper to lower groundwater zone at gauges
lfoptions				repwateruseGauges	0	WATER ABSTRACTION	switch rep tss	input	0				Report water use ts at gauges
lfoptions				repwateruseSites	0	WATER ABSTRACTION	switch rep tss	input	0				Report water use ts at sistes
lfoptions				repWaterLevelTs	0	WATER LEVELS	switch rep tss	input	0				Report water level ts
lfoptions				repPFUpsGauges	0	SOIL	switch rep tss	input	0				Report PF ts at gauges
lfoptions				repPFSites	0	SOIL	switch rep tss	input	0				Report PF ts at sistes
lfoptions				repsimulateLakes	0	LAKES	switch rep tss	input	0				Report time series of lakes
lfoptions				repsimulateReservoirs	0	RESERVOIRS	switch rep tss	input	0				Report time series of reservoirs
lfoptions				repsimulatePolders	0	POLDERS	switch rep tss	input	0				Report time series of polders
lfoptions				repBal1	0	LOG	switch rep tss	input	0				Report water balance TS
lfoptions				repStateMaps	1	STATE	switch rep maps	input	1				Report maps of model state variables (as defined by “ReportSteps” variable)
lfoptions				repEndMaps	1	STATE	switch rep maps	input	1				Report maps of model state variables (at last time step)
lfoptions				repPrecipitationMaps	0	METEO	switch rep maps	input	0				Report precipitation
lfoptions				repTavgMaps	0	METEO	switch rep maps	input	0				Report average temperature maps
lfoptions				repETRefMaps	0	EVAPO	switch rep maps	input	0				Report reference evapo-transpiration
lfoptions				repESRefMaps	0	EVAPO	switch rep maps	input	0				Report reference soil evaporation
lfoptions				repEWRefMaps	0	EVAPO	switch rep maps	input	0				Report reference evaporation of intercepted water
lfoptions				repAverageDis	0	DISCHARGE	switch rep maps	input	0				Report average discharge
lfoptions				repChanCrossSectionMaps	0	ROUTING	switch rep maps	input	0				Report total cross-section area for channels
lfoptions				repCumInterCeptionMaps	0	INTERCEPTION	switch rep maps	input	0				Report cumulative interception
lfoptions				repDischargeMaps	0	DISCHARGE	switch rep maps	input	0				Report maps of discharge (for each time step)
lfoptions				repDSLRMaps	0	METEO	switch rep maps	input	0				Report maps with number of days since the last rainfall event
lfoptions				repESActMaps	0	EVAPO	switch rep maps	input	0				Report actual soil evaporation
lfoptions				repEWIntMaps	0	EVAPO	switch rep maps	input	0				Report evaporation of intercepted water
lfoptions				repFrostIndexMaps	0	SNOW	switch rep maps	input	0				Report frost index maps
lfoptions				repGwLossMaps	0	GROUNDWATER	switch rep maps	input	0				Report groundwater loss maps
lfoptions				repGwPercUZLZMaps	0	GROUNDWATER	switch rep maps	input	0				Report maps of percolation from upper to lower ground water zone (for each time step)
lfoptions				repInfiltrationMaps	0	INFILTRATION	switch rep maps	input	0				Report infiltration maps
lfoptions				repInterceptionMaps	0	INTERCEPTION	switch rep maps	input	0				Report interception maps
lfoptions				repLeafDrainageMaps	0	LEAF	switch rep maps	input	0				Report leaf drainage maps
lfoptions				repLZAvInflowMap	0	GROUNDWATER	switch rep maps	input	0				Report lower groundwater zone inflow maps
lfoptions				repLZMaps	0	GROUNDWATER	switch rep maps	input	0				Report maps of lower groundwater zone storage (for each time step)
lfoptions				repLZOutflowMaps	0	GROUNDWATER	switch rep maps	input	0				Report lower groundwater zone outflow maps
lfoptions				repPercolationMaps	0	PERCOLATION	switch rep maps	input	0				Report percolation maps
lfoptions				repPFMaps	0	SOIL	switch rep maps	input	0				Report pF and vegetation stress due to low soil moisture
lfoptions				repPFForestMaps	0	SOIL	switch rep maps	input	0				Report pF and vegetation stress due to low soil moisture for forest fraction
lfoptions				repPrefFlowMaps	0	SOIL	switch rep maps	input	0				Report preferential flow (rapid bypass soil matrix)
lfoptions				repRainMaps	0	METEO	switch rep maps	input	0				Report rain excluding snow
lfoptions				repSeepSubToGWMaps	0	GROUNDWATER	switch rep maps	input	0				Report flux between sub soil and GW
lfoptions				repSnowCoverMaps	0	SNOW	switch rep maps	input	0				Report maps of snow cover (for each time step)
lfoptions				repSnowMaps	0	SNOW	switch rep maps	input	0				Report maps of snow (for each time step)
lfoptions				repSnowMeltMaps	0	SNOW	switch rep maps	input	0				Report maps of snowmelt (for each time step)
lfoptions				repSurfaceRunoffMaps	0	SURFACE	switch rep maps	input	0				Report maps of surface runoff (for each time step)
lfoptions				repTaMaps	0	TRANSPIRATION	switch rep maps	input	0				Report transpiration maps
lfoptions				repThetaMaps	0	SOIL	switch rep maps	input	0				Reporting of individual model state variables as maps THETA
lfoptions				repThetaForestMaps	0	SOIL	switch rep maps	input	0				Reporting of individual model state variables as maps THETA FOREST
lfoptions				repThetaIrrigationMaps	0	SOIL	switch rep maps	input	0				Report irrigation mapsrE
lfoptions				repTotalRunoffMaps	0	SOIL	switch rep maps	input	0				Report total runoff
lfoptions				repUZMaps	0	GROUNDWATER	switch rep maps	input	0				Report maps of upper groundwater zone storage (for each time step)
lfoptions				repUZOutflowMaps	0	GROUNDWATER	switch rep maps	input	0				Report maps for upper groundwater zone outflow
lfoptions				repWaterDepthMaps	0	ROUTING	switch rep maps	input	0				Report water depth on soil surface
lfoptions				repWaterLevelMaps	0	ROUTING	switch rep maps	input	0				Report water level in channels
lfoptions				ETActMaps	0	EVAPO	switch rep maps	input	0				Report actual evapo-transpiration
lfoptions				repFastRunoffMaps	0	ROUTING	switch rep maps	input	0				Report fast runoff = surface + UZ
lfoptions				repRWS	0	WATER STRESS	switch rep maps	input	0				Report soil transpiration reduction factor RWP
lfoptions				repStressDays	0	WATER STRESS	switch rep maps	input	0				Report soil transpiration reduction factor RWP for forest
lfoptions				repPF1Maps	0	SOIL	switch rep maps	input	0				Report PF1 maps
lfoptions				repPF2Maps	0	SOIL	switch rep maps	input	0				Report PF2 maps
lfoptions				repTotalAbs	0	WATER ABSTRACTION	switch rep maps	input	0				Report total water abstraction
lfoptions				repTotalWUse	0	WATER ABSTRACTION	switch rep maps	input	0				Report total water use
lfoptions				repWIndex	0	INDICATOR	switch rep maps	input	0				Report indexes and indicators

Table: Timeseries from LISFLOOD options.

key	outputVar	where	repoption	restrictoption	operation	Description
DisTS	ChanQAvg	Gauges	repDischargeTs			Reported discharge at gauges [m3/s]
WaterLevelTS	WaterLevel	Gauges	repWaterLevelTs	nonInit,simulateWaterLevels		Reported water level [m]
StepsSoilTS	NoSubSteps	1	repInternalCom		mapmaximum	Number of sub-steps needed for soil moisture routine
StepsWaterUseTS	NoWaterUseExe	1	repInternalCom	nonInit,wateruse		number of loops needed for water use routine
WaterMassBalanceTSS	MBError	Catchments	repMBTs	nonInit		Reported mass balance error at outlet [cu m]
MassBalanceMMTSS	MBErrorMM	Catchments	repMBTs	nonInit		Reported mass balance error at outlet (as mm water slice)
WaterDepthTS	WaterDepth	Sites	repStateSites	nonInit		Water depth on soil surface [mm]
SnowCoverTS	SnowCover	Sites	repStateSites	nonInit		Depth of snow cover on soil surface [mm]
LZTS	LZ	Sites	repStateSites	nonInit		Storage in lower groundwater zone [mm]
DSLRTS	DSLR[0]	Sites	repStateSites	nonInit		Days since last rain [days]
FrostIndexTS	FrostIndex	Sites	repStateSites	nonInit		Frost index [degree-days]
RainTS	Rain	Sites	repRateSites	nonInit		Rain (excluding snow) [mm/∆t]
SnowTS	Snow	Sites	repRateSites	nonInit		Snow (excluding rain) [mm/∆t]
SnowmeltTS	SnowMelt	Sites	repRateSites	nonInit		Reported snowmelt [mm/∆t]
EWIntTS	TaInterceptionAll	Sites	repRateSites	nonInit		Reported evaporation from interception storage [mm/∆t]
TaTS	TaPixel	Sites	repRateSites	nonInit		Reported transpiration [mm/∆t]
ESActTS	ESActPixel	Sites	repRateSites	nonInit		Reported soil evaporation [mm/∆t]
InfiltrationTS	InfiltrationPixel	Sites	repRateSites	nonInit		Reported infiltration [mm/∆t]
PrefFlowTS	PrefFlowPixel	Sites	repRateSites	nonInit		Reported preferential flow [mm/∆t]
PercolationTS	SeepTopToSubPixelB	Sites	repRateSites	nonInit		Reported percolation from 1st to 2nd soil layer [mm/∆t]
SeepSubToGWTS	SeepSubToGWPixel	Sites	repRateSites	nonInit		Reported seepage to groundwateR [mm/∆t]
SurfaceRunoffTS	SurfaceRunoff	Sites	repRateSites	nonInit		Reported surface runoff [mm/∆t]
TotalRunoffTS	TotalRunoff	Sites	repRateSites	nonInit		Reported total runoff [mm/∆t]
UZOutflowTS	UZOutflowPixel	Sites	repRateSites	nonInit		Reported upper groundwater zone outflow [mm/∆t]
LZOutflowTS	LZOutflowToChannelPixel	Sites	repRateSites	nonInit		Reported lower zone outflow [mm/∆t]
GwPercUZLZTS	GwPercUZLZPixel	Sites	repRateSites	nonInit		Reported percolation from upper to lower zone [mm/∆t]
GwLossTS	GwLossPixel	Sites	repRateSites	nonInit		Reported loss from lower zone [mm/∆t]
PrecipitationAvUpsTS	Precipitation	Gauges	repMeteoUpsGauges	nonInit	total	Precipitation [mm/time step]
TavgAvUpsTS	Tavg	Gauges	repMeteoUpsGauges	nonInit	total	Average temperature upstream of gauges [deg C]
ETRefAvUpsTS	ETRef	Gauges	repMeteoUpsGauges	nonInit	total	Reference evapotranspiration [mm/time step]
EWRefAvUpsTS	EWRef	Gauges	repMeteoUpsGauges	nonInit	total	Potential open water evaporation [mm/time step]
WaterDepthAvUpsTS	WaterDepth	Gauges	repStateUpsGauges	nonInit	total	Water depth on soil surface [mm]
SnowCoverAvUpsTS	SnowCover	Gauges	repStateUpsGauges		total	Depth of snow cover on soil surface [mm]
LZAvUpsTS	LZ	Gauges	repStateUpsGauges	nonInit	total	Storage in lower groundwater zone [mm]
DSLRAvUpsTS	DSLR[0]	Gauges	repStateUpsGauges	nonInit	total	Days since last rain [days]
FrostIndexAvUpsTS	FrostIndex	Gauges	repStateUpsGauges	nonInit	total	Frost index [degree-days]
RainAvUpsTS	Rain	Gauges	repRateUpsGauges	nonInit	total	Rain (excluding snow) [mm/∆t]
SnowAvUpsTS	Snow	Gauges	repRateUpsGauges	nonInit	total	Snow (excluding rain) [mm/∆t]
SnowmeltAvUpsTS	SnowMelt	Gauges	repRateUpsGauges	nonInit	total	Snow melt [mm/∆t]
EWIntAvUpsTS	TaInterceptionAll	Gauges	repRateUpsGauges	nonInit	total	Evaporation from interception storage [mm/∆t]
TaAvUpsTS	TaPixel	Gauges	repRateUpsGauges	nonInit	total	Actual transpiration [mm/∆t]
ESActAvUpsTS	ESActPixel	Gauges	repRateUpsGauges	nonInit	total	Actual evaporation [mm/∆t]
InfiltrationAvUpsTS	InfiltrationPixel	Gauges	repRateUpsGauges	nonInit	total	Infiltration [mm/∆t]
PrefFlowAvUpsTS	PrefFlowPixel	Gauges	repRateUpsGauges	nonInit	total	Preferential flow [mm/∆t]
PercolationAvUpsTS	SeepTopToSubPixelB	Gauges	repRateUpsGauges	nonInit	total	Percolation flow [mm/∆t]
SeepSubToGWAvUpsTS	SeepSubToGWPixel	Gauges	repRateUpsGauges	nonInit	total	Seepage from lower soil layer to groundwater [mm/∆t]
SurfaceRunoffAvUpsTS	SurfaceRunoff	Gauges	repRateUpsGauges		total	Surface runoff [mm/∆t]
TotalRunoffAvUpsTS	TotalRunoff	Gauges	repRateUpsGauges		total	Total runoff [mm/∆t]
UZOutflowAvUpsTS	UZOutflowPixel	Gauges	repRateUpsGauges	nonInit	total	Outflow from upper zone (to channel) [mm/∆t]
LZOutflowAvUpsTS	LZOutflowToChannelPixel	Gauges	repRateUpsGauges	nonInit	total	Outflow from lower zone (to channel) [mm/∆t]
GwPercUZLZAvUpsTS	GwPercUZLZPixel	Gauges	repRateUpsGauges	nonInit	total	Reported percolation from upper to lower zone [mm/∆t]
GwLossAvUpsTS	GwLossPixel	Gauges	repRateUpsGauges	nonInit	total	Reported loss from lower zone [mm/∆t]
LakeInflowTS	LakeInflowM3S	LakeSites	repsimulateLakes	nonInit,simulateLakes		Output timeseries file with lake inflow [cu m /s]
LakeOutflowTS	LakeOutflowM3S	LakeSites	repsimulateLakes	nonInit,simulateLakes		Output timeseries file with lake outflow [cu m /s]
LakeLevelTS	LakeLevel	LakeSites	repsimulateLakes	nonInit,simulateLakes		Output timeseries file with lake level [m]
ReservoirFillTS	ReservoirFill	ReservoirSites	repsimulateReservoirs	nonInit,simulateReservoirs		name of output TSS file with Reservoir Filling
ReservoirInflowTS	ReservoirInflowM3S	ReservoirSites	repsimulateReservoirs	nonInit,simulateReservoirs		name of output TSS file with Reservoir Inflow
ReservoirOutflowTS	ReservoirOutflowM3S	ReservoirSites	repsimulateReservoirs	nonInit,simulateReservoirs		name of output TSS file with Reservoir Outflow
PolderLevelTS	PolderLevel	PolderSites	repsimulatePolders	nonInit,simulatePolders		name of output TSS file with polder level [m]
PolderFluxTS	PolderFlux	PolderSites	repsimulatePolders	nonInit,simulatePolders		name of output TSS file with polder flux [cu m / s]. Positive for flow from channel to polder, negative for polder to channel
WaterUseTS	WUseSumM3	Gauges	repwateruseGauges	nonInit,wateruse		Time series of upstream water use at gauging stations
WaterUseSitesTS	WUseSumM3	Sites	repwateruseSites	nonInit,wateruse		Time series of upstream water use at sites
PF1TS	pF1[0]	Sites	repPFSites	nonInit,simulatePF		Reported pF upper soil layer [-]
PF1ForestTS	pF1[1]	Sites	repPFSites	nonInit,simulatePF		Reported pF upper soil layer for forest [-]
PF2TS	pF2[0]	Sites	repPFSites	nonInit,simulatePF		Reported pF lower soil layer [-]
PF2ForestTS	pF2[1]	Sites	repPFSites	nonInit,simulatePF		Reported pF lower soil layer for forest [-]
PF1AvUpsTS	pF1[0]	Gauges	repPFUpsGauges	nonInit,simulatePF	total	Reported average value of pF upstream of gauges for upper soil layer [-]
PF1ForestAvUpsTS	pF1[1]	Gauges	repPFUpsGauges	nonInit,simulatePF	total	Reported average value of pF upstream of gauges for upper soil layer for forest [-]
PF2AvUpsTS	pF2[0]	Gauges	repPFUpsGauges	nonInit,simulatePF	total	Reported average value of pF upstream of gauges for lower soil layer [-]
PF2ForestAvUpsTS	pF2[1]	Gauges	repPFUpsGauges	nonInit,simulatePF	total	Reported average value of pF upstream of gauges for lower soil layer for forest [-]
LZAvInflowTS	LZAvInflow	Sites	repLZAvInflowSites			Time series of average percolation rate from upper to lower groundwater zone (reported at sites)
LZAvInflowAvUps	LZAvInflow	Gauges	repLZAvInflowUpsGauges	total	LZAvInflowAvUps
PrecipitationAvUpsTS	Precipitation	Gauges	repBal1		total	Precipitation [mm/time step]
TotalRunoffAvUpsTS	TotalRunoff	Gauges	repBal1		total	Total runoff [mm/∆t]
GwLossAvUpsTS	GwLossPixel	Gauges	repBal1		total	Reported loss from lower zone [mm/∆t]
TaAvUpsTS	TaPixel	Gauges	repBal1	nonInit	total	Actual transpiration [mm/∆t]
ESActAvUpsTS	ESActPixel	Gauges	repBal1	nonInit	total	Actual evaporation [mm/∆t]
EWIntAvUpsTS	TaInterceptionAll	Gauges	repBal1	nonInit	total	Evaporation from interception storage [mm/∆t]
EvaOpenWaterAvUpsTS	EvaAddM3*self.var.M3toMM	Gauges	repBal1	nonInit	total	EvaOpenWaterAvUpsTS
actETPUpsTS	ESActPixel+self.var.TaPixel+self.var.TaInterceptionAll+self.var.EvaAddM3*self.var.M3toMM	Gauges	repBal1	nonInit	total	actETPUpsTS
RunLossUpsTS	TotalRunoff+self.var.GwLossPixel	Gauges	repBal1	nonInit	total	RunLossUpsTS
actETPUpsTS	ESActPixel+self.var.TaPixel+self.var.TaInterceptionAll+self.var.EvaAddM3*self.var.M3toMM	Gauges	repBal1	nonInit	total	actETPUpsTS
RunLossUpsTS	TotalRunoff+self.var.GwLossPixel	Gauges	repBal1	nonInit	total	RunLossUpsTS

Table: Maps from LISFLOOD options.

key	outputVar	unit	steps	all	end	monthly	restrictoption	Description
LZAvInflowMap	LZAvInflow	mm			InitLisflood,repLZAvInflowMap			Reported map of average percolation rate from upper to lower groundwater zone (reported for end of simulation)
DischargeMaps	ChanQAvg	m3/s		repDischargeMaps			nonInit	Reported discharge [cu m/s] (average over the timesteps)
WaterLevelMaps	WaterLevel	m		repWaterLevelMaps			nonInit,simulateWaterLevels	Reported water level [m]
AvgDis	avgdis	m3/s			repAverageDis		nonInit	Average discharge map [m3/s]
AvgDis	avgdis	m3/s			InitLisflood		SplitRouting	Average discharge map [m3/s]
WaterDepthState	WaterDepth	m	repStateMaps				nonInit	Reported overland flow water depth
OFDirectState	OFM3Direct	m3	repStateMaps				nonInit	Reported water volume for direct fraction on catchment surface
OFOtherState	OFM3Other	m3	repStateMaps				nonInit	Reported water volume for other fraction on catchment surface
OFForestState	OFM3Forest	m3	repStateMaps				nonInit	Reported water volume for forest fraction on catchment surface
ChanCrossSectionState	TotalCrossSectionArea	m2	repStateMaps				nonInit	Reported chan cross-section area
DSLRState	DSLR[0]	-	repStateMaps				nonInit	Reported days since last rain
DSLRForestState	DSLR[1]	-	repStateMaps				nonInit	Reported days since last rain for forest
DSLRIrrigationState	DSLR[2]	-	repStateMaps				nonInit	Reported days since last rain irrigation
SnowCoverAState	SnowCoverS[0]	mm	repStateMaps				nonInit	Reported snow cover in snow zone A [mm]
SnowCoverBState	SnowCoverS[1]	mm	repStateMaps				nonInit	Reported snow cover in snow zone B [mm]
SnowCoverCState	SnowCoverS[2]	mm	repStateMaps				nonInit	Reported snow cover in snow zone C [mm]
FrostIndexState	FrostIndex	degC/day	repStateMaps				nonInit	Reported frost index
CumInterceptionState	CumInterception[0]	mm	repStateMaps				nonInit	Reported interception storage
CumInterceptionForestState	CumInterception[1]	mm	repStateMaps				nonInit	Reported interception storage for forest
CumInterceptionIrrigationState	CumInterception[2]	mm	repStateMaps				nonInit	Reported interception storage
Theta1State	Theta1a[0]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for superficial soil layer 1 [V/V]
Theta1ForestState	Theta1a[1]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for superficial soil layer forest fraction [V/V]
Theta1IrrigationState	Theta1a[2]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for superficial soil layer irrigation fraction [V/V]
Theta2State	Theta1b[0]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for upper layer [V/V]
Theta2ForestState	Theta1b[1]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for upper layer forest fraction [V/V]
Theta2IrrigationState	Theta1b[2]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for upper soil layer irrigation fraction [V/V]
Theta3State	Theta2[0]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for lower soil layer [V/V]
Theta3ForestState	Theta2[1]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for lower soil layer forest fraction [V/V]
Theta3IrrigationState	Theta2[2]	-	repStateMaps				nonInit	Reported volumetric soil moisture content for lower soil layer irrigation fraction [V/V]
UZState	UZ[0]	mm	repStateMaps				nonInit	Reported storage in upper groundwater zone response box [mm]
UZForestState	UZ[1]	mm	repStateMaps				nonInit	Reported storage in upper groundwater zone response box [mm]
UZIrrigationState	UZ[2]	mm	repStateMaps				nonInit	Reported storage in upper groundwater zone response box [mm]
LZState	LZ	mm	repStateMaps				nonInit	Reported storage in lower response box [mm]
CumIntSealedState	CumInterSealed	mm	repStateMaps				nonInit	Reported cumulative depressions storage [mm]
DischargeMaps	ChanQAvg	m3/s	repStateMaps				nonInit	Reported discharge [cu m/s] (average over the timesteps)
ChanQState	ChanQ	m3/s	repStateMaps				nonInit	Reported istantaneous discarge at end of time step
LakeLevelState	LakeLevel	m	repStateMaps				nonInit,simulateLakes	Output map(s) with lake level [m]
ReservoirFillState	ReservoirFill	-	repStateMaps				nonInit,simulateReservoirs	Output map(s) with Reservoir Filling [-]
CrossSection2State	CrossSection2Area	m	repStateMaps				nonInit,SplitRouting	Cross section area for split routing [m2]
ChSideState	Sideflow1Chan	m^2/s	repStateMaps				nonInit, SplitRouting	Sideflow to channel for 1st line of routing [m^2/s]
PolderLevelState	PolderLevel	m	repStateMaps				nonInit,simulatePolders	Output map(s) with polder level
WaterDepthEnd	WaterDepth	m			repEndMaps		nonInit	Reported overlandflow water depth
OFDirectEnd	OFM3Direct	m^3			repEndMaps		nonInit	Reported water volume for direct fraction on catchment surface
OFOtherEnd	OFM3Other	m^3			repEndMaps		nonInit	Reported water volume for other fraction on catchment surface
OFForestEnd	OFM3Forest	m^3			repEndMaps		nonInit	Reported water volume for forest fraction on catchment surface
ChanCrossSectionEnd	TotalCrossSectionArea	m2			repEndMaps		nonInit	Reported chan cross-section area
DSLREnd	DSLR[0]	days			repEndMaps		nonInit	Reported days since last rain
DSLRForestEnd	DSLR[1]	days			repEndMaps		nonInit	Reported days since last rain for forest fraction
DSLRIrrigationEnd	DSLR[2]	days			repEndMaps		nonInit	Reported days since last rain for irrigation fraction
SnowCoverAEnd	SnowCoverS[0]	mm			repEndMaps		nonInit	Reported snow cover in snow zone A [mm]
SnowCoverBEnd	SnowCoverS[1]	mm			repEndMaps		nonInit	Reported snow cover in snow zone B [mm]
SnowCoverCEnd	SnowCoverS[2]	mm			repEndMaps		nonInit	Reported snow cover in snow zone C [mm]
FrostIndexEnd	FrostIndex	degC/day			repEndMaps		nonInit	Reported frost index
CumInterceptionEnd	CumInterception[0]	mm			repEndMaps		nonInit	Reported interception storage
CumInterceptionForestEnd	CumInterception[1]	mm			repEndMaps		nonInit	Reported interception storage for forest
CumInterceptionIrrigationEnd	CumInterception[2]	mm			repEndMaps		nonInit	Reported interception storage for irrigation
Theta1End	Theta1a[0]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for superficial soil layer [V/V]
Theta1ForestEnd	Theta1a[1]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for uperficial soil layer for forest [V/V]
Theta1IrrigationEnd	Theta1a[2]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for uperficial soil layer [V/V]
Theta2End	Theta1b[0]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for upper soil layer [V/V]
Theta2ForestEnd	Theta1b[1]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for upper soil layer for forest [V/V]
Theta2IrrigationEnd	Theta1b[2]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for upper soil layer [V/V]
Theta3End	Theta2[0]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for lower soil layer [V/V]
Theta3ForestEnd	Theta2[1]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for lower soil layer [V/V]
Theta3IrrigationEnd	Theta2[2]	mm			repEndMaps		nonInit	Reported volumetric soil moisture content for lower soil layer [V/V]
UZEnd	UZ[0]	mm			repEndMaps		nonInit	Reported storage in upper groundwater zone response box [mm]
UZForestEnd	UZ[1]	mm			repEndMaps		nonInit	Reported storage in upper groundwaterzone response box [mm]
UZIrrigationEnd	UZ[2]	mm			repEndMaps		nonInit	Reported storage in upper groundwater zone response box for irrigation [mm]
LZEnd	LZ	mm			repEndMaps		nonInit	Reported storage in lower groundwater zone response box [mm]
CumIntSealedEnd	CumInterSealed	mm			repEndMaps		nonInit	Reported cumulative depressions storage [mm]
DischargeEnd	ChanQAvg	m3/s			repEndMaps		nonInit	Reported discharge [cu m/s] (average over the timesteps)
ChanQEnd	ChanQ	m3/s			repEndMaps		nonInit	Reported istantaneous discarge at end of time step
LakeLevelEnd	LakeLevel	m			repEndMaps		nonInit,simulateLakes	Reported lake level
ReservoirFillEnd	ReservoirFill	m			repEndMaps		nonInit,simulateReservoirs	Reported reservoir filling
CrossSection2End	CrossSection2Area	m			repEndMaps		nonInit,SplitRouting	Cross section area for split routing [m2]
ChSideEnd	Sideflow1Chan	m			repEndMaps		nonInit,SplitRouting	Reported channel side flow
PolderLevelEnd	PolderLevel	m			repEndMaps		nonInit,simulatePolders	Output map(s) with polder level
PrecipitationMapsOut	Precipitation	mm/timestep		repPrecipitationMaps				Precipitation [mm per time step]
TavgMapsOut	Tavg	degree		repTavgMaps				Average DAILY temperature [degrees C]
ETRefMapsOut	ETRef	mm		repETRefMaps				Potential reference evapotranspiration [mm per time step]
ESRefMapsOut	ESRef	mm		repESRefMaps				Potential evaporation from bare soil surface [mm per time step]
EWRefMapsOut	EWRef	mm		repEWRefMaps				Potential evaporation from open water surface [mm per time step]
WaterDepthMaps	WaterDepth	m		repWaterDepthMaps			nonInit	Reported water depth
OFDirectMaps	OFM3Direct	m3		repWaterDepthMaps			nonInit	Reported water volume for direct fraction on catchment surface
OFOtherMaps	OFM3Other	m3		repWaterDepthMaps			nonInit	Reported water volume for other fraction on catchment surface
OFForestMaps	OFM3Forest	m3		repWaterDepthMaps			nonInit	Reported water volume for forest fraction on catchment surface
ChanCrossSectionMaps	TotalCrossSectionArea	m2		repChanCrossSectionMaps			nonInit	Reported chan cross-section area
DSLRMaps	DSLR[0]			repDSLRMaps			nonInit	Reported days since last rain
DSLRForestMaps	DSLR[1]			repDSLRMaps			nonInit	Reported days since last rain
SnowCoverMaps	SnowCover	mm		repSnowCoverMaps			nonInit	Reported snow cover
FrostIndexMaps	FrostIndex	degC/day		repFrostIndexMaps			nonInit	Reported frost index
CumInterceptionMaps	CumInterception[0]	mm		repCumInterCeptionMaps			nonInit	Reported interception storage
Theta1Maps	Theta1a[0]	-		repThetaMaps			nonInit	Reported volumetric soil moisture content for soil layer 1a [V/V]
Theta1ForestMaps	Theta1a[1]	-		repThetaForestMaps			nonInit	Reported volumetric soil moisture content for soil layer 1a forest fraction [V/V]
Theta1IrrigationMaps	Theta1a[2]	-		repThetaIrrigationMaps			nonInit	Reported volumetric soil moisture content for soil layer 1a irrigation fraction [V/V]
Theta2Maps	Theta1b[0]	-		repThetaMaps			nonInit	Reported volumetric soil moisture content for soil layer 2 [V/V]
Theta2ForestMaps	Theta1b[1]	-		repThetaForestMaps			nonInit	Reported volumetric soil moisture content for soil layer 1b forest fraction [V/V]
Theta2IrrigationMaps	Theta1b[2]	-		repThetaIrrigationMaps			nonInit	Reported volumetric soil moisture content for soil layer 1b irrigation fraction [V/V]
Theta3Maps	Theta2[0]	-		repThetaMaps			nonInit	Reported volumetric soil moisture content for soil layer 2 [V/V]
Theta3ForestMaps	Theta2[1]	-		repThetaForestMaps			nonInit	Reported volumetric soil moisture content for soil layer 2 forest fraction [V/V]
Theta3IrrigationMaps	Theta2[2]	-		repThetaIrrigationMaps			nonInit	Reported volumetric soil moisture content for soil layer 2 irrigation fraction [V/V]
UZMaps	UZ[0]	mm		repUZMaps			nonInit	Reported storage in upper groundwater zone response box [mm]
UZForestMaps	UZ[1]	mm		repUZMaps			nonInit	Reported storage in upper response box [mm]
LZMaps	LZ	mm		repLZMaps			nonInit	Reported storage in lower groundwater zone response box [mm]
RainMaps	Rain	mm		repRainMaps			nonInit	Reported rain (excluding snow)[mm/∆t]
SnowMaps	Snow	mm		repSnowMaps			nonInit	Reported snow (excluding rain)[mm/∆t]
SnowMeltMaps	SnowMelt	mm		repSnowMeltMaps			nonInit	Reported snowmelt [mm/∆t]
InterceptionMaps	Interception[0]	mm		repInterceptionMaps			nonInit	Reported interception [mm/∆t]
InterceptionForestMaps	Interception[1]	mm		repInterceptionMaps			nonInit	Reported interception forest [mm/∆t]
EWIntMaps	TaInterception[0]	mm		repEWIntMaps			nonInit	Reported evaporation of intercepted water [mm/∆t]
EWIntForestMaps	TaInterception[1]	mm		repEWIntMaps			nonInit	Reported evaporation of intercepted water [mm/∆t]
LeafDrainageMaps	LeafDrainage[0]	mm		repLeafDrainageMaps			nonInit	Reported leaf drainage [mm/∆t]
LeafDrainageForestMaps	LeafDrainage[1]	mm		repLeafDrainageMaps			nonInit	Reported leaf drainage Forest [mm/∆t]
TaMaps	Ta[0]	mm		repTaMaps			nonInit	Reported transpiration [mm/∆t]
TaForestMaps	Ta[1]	mm		repTaMaps			nonInit	Reported transpiration forest [mm/∆t]
ESActMaps	ESAct[0]	mm		repESActMaps			nonInit	Reported soil evaporation [mm/∆t]
ESActForestMaps	ESAct[1]	mm		repESActMaps			nonInit	Reported soil evaporation [mm/∆t]
InfiltrationMaps	Infiltration[0]	mm		repInfiltrationMaps			nonInit	Reported infiltration [mm/∆t]
InfiltrationForestMaps	Infiltration[1]	mm		repInfiltrationMaps			nonInit	Reported infiltration for forest [mm/∆t]
PrefFlowMaps	PrefFlow[0]	mm		repPrefFlowMaps			nonInit	Reported preferential flow [mm/∆t]
PrefFlowForestMaps	PrefFlow[1]	mm		repPrefFlowMaps			nonInit	Reported preferential flow [mm/∆t]
PercolationMaps	SeepTopToSub[0]	mm		repPercolationMaps			nonInit	Reported percolation from 1st to 2nd soil layer [mm/∆t]
PercolationForestMaps	SeepTopToSub[1]	mm		repPercolationMaps			nonInit	Reported percolation from 1st to 2nd soil layer for forest [mm/∆t]
SeepSubToGWMaps	SeepSubToGW[0]	mm		repSeepSubToGWMaps			nonInit	Reported seepage to groundwater [mm/∆t]
SeepSubToGWForestMaps	SeepSubToGW[1]	mm		repSeepSubToGWMaps			nonInit	Reported seepage to groundwater for forest [mm/∆t]
UZOutflowMaps	UZOutflowPixel	mm		repUZOutflowMaps			nonInit	Reported upper groundwater zone outflow [mm/∆t]
UZOutflowForestMaps	UZOutflowPixel	mm		repUZOutflowMaps			nonInit	Reported upper groundwater zone outflow [mm/∆t]
LZOutflowMaps	LZOutflowToChannelPixel	mm		repLZOutflowMaps			nonInit	Reported lower groundwater zone outflow [mm/∆t]
GwPercUZLZMaps	GwPercUZLZ[0]	mm		repGwPercUZLZMaps			nonInit	Reported percolation from upper to lower groundwater zone [mm/∆t]
GwPercUZLZForestMaps	GwPercUZLZ[1]	mm		repGwPercUZLZMaps			nonInit	Reported percolation from upper to lower groundwater zone [mm/∆t]
GwLossMaps	GwLossPixel	mm		repGwLossMaps			nonInit	Reported GWloss [mm/∆t]
DirectRunoffMaps	DirectRunoff	mm		repSurfaceRunoffMaps			nonInit	Reported Direct Runoff [mm/∆t]
SurfaceRunoffMaps	SurfaceRunoff	mm		repSurfaceRunoffMaps			nonInit	Reported surface runoff [mm/∆t]
TotalRunoffMaps	TotalRunoff	mm		repSurfaceRunoffMaps			nonInit	Reported total runoff [mm/∆t]
TotalToChanMaps	ToChanM3Runoff*self.var.M3toMM	mm		repSurfaceRunoffMaps			nonInit	Reported total runoff that enters the channel: groundwater + surface runoff [mm/∆t]
FastRunoffMaps	SurfaceRunoff+self.var.UZOutflowPixel	mm		repSurfaceRunoffMaps			nonInit	Reported fast runoff = surface + UZ [mm/∆t]
FlowVelocityMSecMaps	FlowVelocity	m/s		repSurfaceRunoffMaps			nonInit	Reported FlowVelocityMSecMaps [m/s]
TravelDistanceMMaps	TravelDistance	m		repSurfaceRunoffMaps			nonInit	Reported TravelDistance [m]
PF1Maps	pF0[0]	mm	repPFMaps				nonInit,simulatePF	Reported pF 1st upper soil layer [-]
PF1ForestMaps	pF0[1]	mm	repPFForestMaps			nonInit,simulatePF	Reported pF upper soil layer for forest [-]
PF2Maps	pF1[0]	mm	repPFMaps				nonInit,simulatePF	Reported pF 2nd upper soil layer [-]
PF2ForestMaps	pF1[1]	mm	repPFForestMaps			nonInit,simulatePF	Reported pF lower soil layer for forest [-]
PF3Maps	pF2[0]	mm	repPFMaps				nonInit,simulatePF	Reported pF 3rd soil layer [-]
SMStressMap	SoilMoistureStressDays[0]	days	repStressDays				nonInit	Reported number of days in simulation with soil moisture stress [days]
SMStressForestMap	SoilMoistureStressDays[1]	days	repStressDays				nonInit	Reported number of days in simulation with soil moisture stress for forest fraction [days]
ETActMaps	ESActPixel+self.var.TaPixel+self.var.TaInterceptionAll+self.var.EvaAddM3*self.var.M3toMM	mm		repE2O1			nonInit	Reported actual evapotranspiration [mm/∆t]
TaMaps	TaPixel	mm		repE2O1			nonInit	Reported transpiration [mm/∆t]
ESActMaps	ESActPixel	mm		repE2O1			nonInit	Reported soil evaporation [mm/∆t]
EWIntMaps	TaInterceptionAll	mm		repE2O1			nonInit	Reported evaporation of intercepted water [mm/∆t]
EWater	EvaAddM3*self.var.M3toMM	mm		repE2O1			nonInit	?
RainMaps	Rain	mm		repE2O1			nonInit	Reported rain (excluding snow)[mm/∆t]
SnowMeltMaps	SnowMelt	mm		repE2O1			nonInit	Reported snowmelt [mm/∆t]
SnowCoverMaps	SnowCover	mm		repE2O1			nonInit	Reported snow cover
TotalRunoffMaps	ToChanM3Runoff*self.var.M3toMM	mm		repE2O1			nonInit	Reported total runoff [mm/∆t]
FastRunoffMaps	SurfaceRunoff+self.var.UZOutflowPixel	mm		repE2O1			nonInit	Reported fast runoff = surface + UZ [mm/∆t]
LZOutflowMaps	LZOutflowToChannelPixel	mm		repE2O1			nonInit	Reported lower groundwater zone outflow [mm/∆t]
LZMaps	LZ	mm		repE2O2			nonInit	Reported storage in lower groundwater zone response box [mm]
GwLossMaps	GwLossPixel	mm		repE2O2			nonInit	Reported GWloss [mm/∆t]
PrefFlowMaps	PrefFlowPixel	mm		repE2O2			nonInit	Reported preferential flow [mm/∆t]
SeepSubToGWMaps	SeepSubToGWPixel	mm		repE2O2			nonInit	Reported seepage to groundwater [mm/∆t]
GwPercUZLZMaps	GwPercUZLZPixel	mm		repE2O2			nonInit	Reported percolation from upper to lower groundwater zone [mm/∆t]
WaterUseMaps	WUseAddM3*self.var.M3toMM	mm		repE2O2			nonInit	path and prefix of the reported water use m3 s-1 as a result of demand and availability
Theta1Maps	Theta1a[0]	mm		repE2O2			nonInit	Reported volumetric soil moisture content for soil layer 1 [V/V]
Theta2Maps	Theta1b[0]	mm		repE2O2			nonInit	Reported volumetric soil moisture content for soil layer 2 [V/V]
Theta3Maps	Theta2[0]	mm		repE2O2			nonInit	Reported volumetric soil moisture content for soil layer 3 [V/V]
TotalAbsGroundwater	TotalAbstractionFromGroundwaterM3*self.var.M3toMM	mm	repTotalAbs				nonInit,wateruse	TotalAbstractionFromGroundwater [mm]
TotalAbsSurface	TotalAbstractionFromSurfaceWaterM3*self.var.M3toMM	mm	repTotalAbs				nonInit,wateruse	TotalAbstractionFromSurfaceWater [mm]
TotalAbsSurfaceRegion	AreaTotalAbstractionFromSurfaceWaterM3*self.var.M3toMM	mm	repTotalAbs				nonInit,wateruse,wateruseRegion	TotalAbstractionFromSurfaceWater [mm] summed up for water regions
TotalAbsGroundwaterRegion	AreaTotalAbstractionFromGroundwaterM3*self.var.M3toMM	mm	repTotalAbs				nonInit,wateruse,wateruseRegion	TotalAbstractionFromGroundwater [mm] summed up for water regions
TotalIrrigationAbstractionM3	TotalIrrigationAbstractionM3	m3	repTotalAbs				nonInit,wateruse	TotalIrrigationAbstraction [m3]
TotalPaddyRiceIrrigationAbstractionM3	TotalPaddyRiceIrrigationAbstractionM3	m3	repTotalAbs				nonInit,wateruse	TotalPaddyRiceIrrigationAbstraction [m3]
TotalLivestockAbstractionM3	TotalLivestockAbstractionM3	m3	repTotalAbs				nonInit,wateruse	TotalLivestockAbstraction [m3]
DomesticConsumptiveUse	DomesticConsumptiveUseMM	mm	repTotalAbs				nonInit,wateruse	DomesticConsumptiveUseMM [mm]
LivestockConsumptiveUse	LivestockConsumptiveUseMM	mm	repTotalAbs				nonInit,wateruse	LivestockConsumptiveUseMM [mm]
IndustrialConsumptiveUse	IndustrialConsumptiveUseMM	mm	repTotalAbs				nonInit,wateruse	IndustrialConsumptiveUseMM [mm]
EnergyConsumptiveUse	EnergyConsumptiveUseMM	mm	repTotalAbs				nonInit,wateruse	EnergyConsumptiveUseMM [mm]
IrrigationWaterAbstraction	IrrigationWaterAbstractionM3self.var.M3toMM + self.var.PaddyRiceWaterAbstractionFromSurfaceWaterM3self.var.M3toMM	mm	repTotalAbs				nonInit,wateruse	IrrigationWaterAbstraction [mm]
TotalWUse	WUseAddM3*self.var.M3toMM	mm	repTotalWUse				nonInit,wateruse	Water use (water demand is reduced by water available
TotalWUseRegion	totalAddM3*self.var.M3toMM	mm	repTotalWUse				nonInit,wateruse,wateruseRegion	Water use (water demand is reduced by water available) summed up for water regions
WEI_Cns	WEI_Cns	-	repWIndex			TRUE	nonInit,wateruse,indicator	Water Exploitation Index - Consumption; for water regions (this is the official EU WEI+): consumption / internal and external availability
WEI_Abs	WEI_Abs	-	repWIndex			TRUE	nonInit,wateruse,indicator	Water Exploitation Index - Abstraction; for water regions: abstraction / internal and external availability
WEI_Dem	WEI_Dem	-	repWIndex			TRUE	nonInit,wateruse,indicator	Water Exploitation Index - Demand; for water regions: demand / internal and external availability
RegionMonthReservoirAndLakeStorageM3	RegionMonthReservoirAndLakeStorageM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	Reservoir and Lake storage in m3 at end of month
RegionMonthWaterAbstractedfromLakesReservoirsM3	RegionMonthWaterAbstractedfromLakesReservoirsM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	Reservoir and Lake abstraction in m3
RegionMonthIrrigationShortageM3	RegionMonthIrrigationShortageM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	Irrigation water shortage in m3 for month
RegionMonthInternalFlowM3	RegionMonthInternalFlowM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	Internal available water
RegionMonthExternalInflowM3	RegionMonthExternalInflowM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	External available water
RegionMonthWConsumptionM3	RegionMonthWConsumptionM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	Region Water Consumption
RegionMonthWAbstractionM3	RegionMonthWAbstractionM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	Region Water Demand
RegionMonthWDemandM3	RegionMonthWDemandM3	M3	repWIndex			TRUE	nonInit,wateruse,wateruseRegion,indicator	Region Water Demand
MonthETpotMM	MonthETpotMM	mm	repWIndex			TRUE	nonInit,wateruse,,indicator	Monthly evapotranspiration deficit in mm
MonthETactMM	MonthETactMM	mm	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly evapotranspiration deficit in mm
MonthETdifMM	MonthETdifMM	mm	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly evapotranspiration deficit in mm
WaterDependencyIndex	WaterDependencyIndex	-	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly Water Dependency Index (0-1) (De Roo 2015) WDI = Upstream Inflow Actually Used / Total Water Demand Values close to 1 give extreme dependency on upstream water
WaterSecurityIndex	WaterSecurityIndex	-	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly Water Security Index (0-1) (De Roo 2015) WSI = Upstream Inflow Actually Used / Upstream Inflow Available Values close to 1 give extreme vulnerability to upstream water
WaterSustainabilityIndex	WaterSustainabilityIndex	-	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly Water Sustainability Index (0-1) (De Roo 2015) WTI = 1-SurfaceWaterDeficit / TotalWaterDemand Values of 1 indicate complete sustainable conditions, no water deficit Values less than 1 indicate that considerable deep groundwater resources or desalinated water is used
FalkenmarkM3Capita1	FalkenmarkM3Capita1	M3Capita	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly Falkenmark 1 Index (tochanm3)
FalkenmarkM3Capita2	FalkenmarkM3Capita2	M3Capita	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly Falkenmark 2 Index (tochanm3+reservoirlakeabstraction)
FalkenmarkM3Capita3	FalkenmarkM3Capita3	M3Capita	repWIndex			TRUE	nonInit,wateruse,indicator	Monthly Falkenmark 3 Index (tochanm3+reservoirlakeabstraction+externalinflow)
TotalAbstractionFromGroundwaterM3	TotalAbstractionFromGroundwaterM3	m3	repTotalAbs				nonInit,wateruse	Abstraction from groundwater in m3 per timestep
TotalAbstractionFromSurfaceWaterM3	TotalAbstractionFromSurfaceWaterM3	m3	repTotalAbs				nonInit,wateruse	Abstraction from surface water in m3 per timestep
PotentialSurfaceWaterAvailabilityForIrrigationM3	PotentialSurfaceWaterAvailabilityForIrrigationM3	m3	repTotalAbs				nonInit,wateruse	Surface water availability in m3 for potential irrigation for each day
TotalAbsGroundwater	TotalAbstractionFromGroundwaterM3*self.var.M3toMM	mm	repTotalAbs				nonInit,wateruse	TotalAbstractionFromGroundwater [mm]
AreaTotalAbstractionFromSurfaceWaterM3	AreaTotalAbstractionFromSurfaceWaterM3	m3	repTotalAbs				nonInit,wateruse	AreaTotalAbstractionFromSurfaceWaterM3
AreaTotalAbstractionFromGroundwaterM3	AreaTotalAbstractionFromGroundwaterM3	m3	repTotalAbs				nonInit,wateruse	Region abstraction from groundwater in m3 per timestep
AreatotalWaterAbstractedfromLakesReservoirsM3	AreatotalWaterAbstractedfromLakesReservoirsM3	m3	repTotalAbs				nonInit,wateruse	Region Total Abstraction From Lakes and Reservoirs in m3, per timestep
LakeAbstractionM3	LakeAbstractionM3	m3	repTotalAbs				nonInit,wateruse,simulateLakes	Lake Abstraction per timestep in m3
ReservoirAbstractionM3	ReservoirAbstractionM3	m3	repTotalAbs				nonInit,wateruse,simulateReservoirs	ReservoirAbstraction per timestep in M3
LakeStorageM3	LakeStorageM3	m3	repTotalAbs				nonInit,wateruse,simulateLakes	Reported lake storage
ReservoirStorageM3	ReservoirStorageM3	m3	repTotalAbs				nonInit,wateruse,simulateReservoirs	ReservoirStorage in M3
TotalDemandM3	TotalDemandM3	m3	repTotalAbs				nonInit,wateruse	Total Abstraction Demand
WUseAddM3	WUseAddM3	m3	repTotalAbs				nonInit,wateruse	WUseAddM3
totalAddM3	totalAddM3	m3	repTotalAbs				nonInit,wateruse	totalAddM3
AreatotalIrrigationUseM3	AreatotalIrrigationUseM3	m3	repTotalAbs				nonInit,wateruse	AreatotalIrrigationUseM3
FractionAbstractedFromChannels	FractionAbstractedFromChannels	-	repTotalAbs				nonInit,wateruse	FractionAbstractedFromChannels
EFlowIndicator	EFlowIndicator	-	repTotalAbs				nonInit,wateruse,indicator	EFlowIndicator (1 on day with ChanQ smaller than EflowThreshold, 0 on normal days)