Configuration (main) file keywords ================================== **Path definitions** +--------------------+--------------+-----------------------------------------------------------+ | Keyword | Type | Description | +====================+==============+===========================================================+ | Maps\_Folder | System Path | Path to folder with land surface information | +--------------------+--------------+-----------------------------------------------------------+ | Clim\_Maps\_Folder | System Path | Path to folder with Climate information | +--------------------+--------------+-----------------------------------------------------------+ | Output\_Folder | System Path | Path to folder where outputs will be written | +--------------------+--------------+-----------------------------------------------------------+ **Tracking switch** +--------------------+--------------+------------------------------------------------------------+ | Keyword | Type | Description | +====================+==============+============================================================+ | Tracking | option | | Switch 1/0 to turn water tracking (isotopes and/or ages) | | | | | on (1) or off (0) | +--------------------+--------------+------------------------------------------------------------+ | TrackingConfig | System Path | Location and name of the tracking configuration file. | +--------------------+--------------+------------------------------------------------------------+ **Options** +-----------------------------------------+---------------------------------------------------------------+ | Keyword | Description | +=========================================+===============================================================+ | MapTypes | Format of maps, in this version it is *csf* (PCRaster) | +-----------------------------------------+---------------------------------------------------------------+ | Species\_State\_Variable\_Input\_Method | | Specifies the input format of the vegetation state | | | | variables. Options are *table* or *maps* | +-----------------------------------------+---------------------------------------------------------------+ | Vegetation\_dynamics | | Switches between different approaches to vegetation | | | | dynamics: 0 assumes constant LAI (equal to initial value), | | | | 1 turns on vegetation allocation and growth module to | | | | calculate LAI, and 2 allows for externally forcing LAI. | +-----------------------------------------+---------------------------------------------------------------+ | TimeSeries\_LAI | | if Vegetation\_dynamics = 2, generic/prefix in binary files | | | | giving LAI dynamics, one for each species indicated with | | | | a number from 0 to Number\_of\_Species - 1 (see below) | | | | File name format is *prefix+'_'+species#+'.bin'*. E.g., | | | | TimeSeries_LAI = LAI will have the model looking for files | | | | LAI_0.bin, LAI_1.bin, ..., LAI_Number\_of\_Species-1.bin | +-----------------------------------------+---------------------------------------------------------------+ | Reinfiltration | Boolean switch to turn reinfiltration on (1) or off (0) | +-----------------------------------------+---------------------------------------------------------------+ | Aerodyn\_resist\_opt | | Switches between different aerodynamic resistance | | | | formulations. 0: Penman; 1: Thom and Oliver (1977); | +-----------------------------------------+---------------------------------------------------------------+ | Soil\_resistance\_opt | | Switches between different soil resistance | | | | formulations. 0: No resistance; 1: Passerat de Silans | | | | et al. (1989); 2: Sellers et al. (1992); 3: Sakaguchi and | | | | Zeng (2009) | +-----------------------------------------+---------------------------------------------------------------+ **Time controls** +---------------------+---------+---------+--------------------------------------------------------------+ | Keyword | Type | Unit | Description | +=====================+=========+=========+==============================================================+ | Simul\_start | Integer | Seconds | | Time of simulation start. In the current version this | | | | | | value must be 0 | +---------------------+---------+---------+--------------------------------------------------------------+ | Simul\_end | Integer | Seconds | | Time when simulation ends in seconds. This value | | | | | | indicates the total simulated time | +---------------------+---------+---------+--------------------------------------------------------------+ | Simul\_tstep | Integer | Seconds | | Size of the integration time step | +---------------------+---------+---------+--------------------------------------------------------------+ | Clim\_input\_tstep | Integer | Seconds | | Time step of climate forcing. Typically it is the same as | | | | | | *Simul\_tstep* but can be larger (i.e. climate inputs are | | | | | | daily but we are using an hourly integration time step). | | | | | | *Clim\_input\_tstep* cannot be smaller than *Simul\_tstep* | +---------------------+---------+---------+--------------------------------------------------------------+ | Report\_interval | Integer | Seconds | | Intervals between time series outputs. *Report\_interval* | | | | | | cannot be smaller than *Simul\_tstep* and typically it is | | | | | | equal to *Simul\_tstep* | +---------------------+---------+---------+--------------------------------------------------------------+ | ReportMap\_interval | Integer | Seconds | | Intervals between maps outputs. *ReportMap\_interval* | | | | | | cannot be smaller than *Simul\_tstep* | +---------------------+---------+---------+--------------------------------------------------------------+ **Climate information** (maps and binary files must be placed in ``Clim_Maps_Folder``) +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | Keyword | Type | Unit | Description | +=============================+=====================+======================+=======================================================+ | Snow\_rain\_temp\_threshold | scalar | :math:`^{\circ}C` | Air temperature threshold for snow/rain transition | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | ClimateZones | Map file name | :math:`[-]` | Map identifying the climate zones | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | Isohyet\_map | Map file name | :math:`[-]` | | This map allows to redistribute rainfall within a | | | | | | climate zone. It is a map with multiplication | | | | | | factors for rain in a given pixel. A map containing | | | | | | 1 over the domain has the effect of overriding this | | | | | | factors for rain in a given pixel. A map containing | | | | | | input (does not modify the precipitation input). | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | Precipitation | Binary climate file | :math:`ms^{-1}` | Precipitation input | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | AirTemperature | Binary climate file | :math:`^{\circ}C` | Average air temperature | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | MaxAirTemp | Binary climate file | :math:`^{\circ}C` | Maximum air temperature | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | MinAirTemp | Binary climate file | :math:`^{\circ}C` | Maximum air temperature | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | RelativeHumidity | Binary climate file | :math:`kPa kPa^{-1}` | Relative humidity of the Air | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | WindSpeed | Binary climate file | :math:`ms^{-1}` | Wind speed | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | IncomingLongWave | Binary climate file | :math:`Wm^{-2}` | Incoming long wave radiation | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ | IncomingShortWave | Binary climate file | :math:`Wm^{-2}` | Incoming solar radiation | +-----------------------------+---------------------+----------------------+-------------------------------------------------------+ **Drainage network** (files must be located in ``Maps_Folder``) +------------------------------+---------------+-------------------+----------------------------------------------------------+ | Keyword | Type | Unit | Description | +==============================+===============+===================+==========================================================+ | local\_drain\_direc | Map file name | :math:`[-]` | D8 steepest descent ldd | +------------------------------+---------------+-------------------+----------------------------------------------------------+ | channel\_width | Map file name | :math:`m` | | mask with width of channel network. Pixels with no | | | | | | channel must be 0 or nodata. Positive numbers indicate | | | | | | the width of the channel in the pixel | +------------------------------+---------------+-------------------+----------------------------------------------------------+ | channel\_gw\_transfer\_param | Map file name | :math:`m^{-1}` | | Coefficient controlling transfers of water from the | | | | | | subsurface system to the channel | +------------------------------+---------------+-------------------+----------------------------------------------------------+ | mannings\_n | Map file name | :math:`sm^{-1/3}` | Manning's n roughness coefficient for channel | +------------------------------+---------------+-------------------+----------------------------------------------------------+ **Initial conditions for soil states** (files must be located in ``Maps_Folder``) +-------------------------+---------------+--------------------+------------------------------------------------------+ | Keyword | Type | Unit | Description | +=========================+===============+====================+======================================================+ | Streamflow | Map file name | :math:`m^3 s^{-1}` | Streamflow | +-------------------------+---------------+--------------------+------------------------------------------------------+ | snow\_water\_equivalent | Map file name | :math:`m` | Snow water equivalent | +-------------------------+---------------+--------------------+------------------------------------------------------+ | Soil\_moisture\_1 | Map file name | :math:`m^3 m^{-3}` | Volumetric soil water content for topmost soil layer | +-------------------------+---------------+--------------------+------------------------------------------------------+ | Soil\_moisture\_2 | Map file name | :math:`m^3 m^{-3}` | Volumetric soil water content for layer 2 | +-------------------------+---------------+--------------------+------------------------------------------------------+ | Soil\_moisture\_3 | Map file name | :math:`m^3 m^{-3}` | Volumetric soil water content of bottommost layer | +-------------------------+---------------+--------------------+------------------------------------------------------+ | Soil\_temperature | Map file name | :math:`^{\circ}C` | Soil temperature at boundary of thermal layer | +-------------------------+---------------+--------------------+------------------------------------------------------+ **Soil parameters** (files must be located in ``Maps_Folder``) +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Keyword | Type | Unit | Description | +================================+===============+=========================+========================================================+ | DEM | Map file name | :math:`m` | Digital elevation model | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Slope | Map file name | :math:`mm^{-1}` | Local terrain slope. Rise over run | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Horiz\_Hydraulic\_Conductivity | Map file name | :math:`ms^{-1}` | Effective soil hydraulic conductivity | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Vert\_Horz\_Anis\_ratio | Map file name | :math:`[-]` | Ratio of vertical to horizontal hydraulic conductivity | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Terrain\_Random\_Roughness | Map file name | :math:`m` | Local surface roughness | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Porosity | Map file name | :math:`[-]` | Soil porosity | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Air\_entry\_pressure | Map file name | :math:`m` | Soil air entry pressure | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Brooks\_Corey\_lambda | Map file name | :math:`[-]` | Pore size distribution | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Residual\_soil\_moisture | Map file name | :math:`m^{3}m^{-3}` | Minimum allowed volumetric soil water content | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Soil\_depth | Map file name | :math:`m` | Soil depth | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Depth\_soil\_layer\_1 | Map file name | :math:`m` | Depth of topmost soil layer | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Depth\_soil\_layer\_2 | Map file name | :math:`m` | Depth of second soil layer | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Veget\_water\_use\_param1 | Map file name | :math:`m` | | Vegetation water use parameter as per Landsberg and | | | | | | Waring (1997) | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Veget\_water\_use\_param2 | Map file name | :math:`m` | | Vegetation water use parameter as per Landsberg and | | | | | | Waring (1997) | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Root\_profile\_coeff | Map file name | :math:`m^{-1}` | | Coefficient for the exponentiall-decreasing root | | | | | | profile | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Albedo | Map file name | :math:`[-]` | Surface albedo | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Surface\_emissivity | Map file name | :math:`[-]` | Surface emissivity/absorptivity | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Dry\_Soil\_Heat\_Capacity | Map file name | :math:`Jm^{-3}K^{-1}` | Heat capacity of soil solid particles | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Dry\_Soil\_Therm\_Cond | Map file name | :math:`Wm^{-1}K^{-1}` | Thermal conductivity of soil solid particles | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Damping\_depth | Map file name | :math:`m` | Depth of bottom of second soil thermal layer | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Temp\_at\_damp\_depth | Map file name | :math:`^{\circ}C` | Soil temperature at damping depth | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Snow\_Melt\_Coeff | Map file name | :math:`m^{\circ}C^{-1}` | Snowmelt coefficient factor | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ | Soil\_bedrock\_leakance | Map file name | :math:`[-]` | | Factor between 0 and 1 defining the vertical | | | | | | hydraulic conductivity at the soil-bedrock interface | | | | | | (in proportion of soil Kv) | +--------------------------------+---------------+-------------------------+--------------------------------------------------------+ **Forest parameters** (files must be located in ``Maps_Folder``) +---------------------+-----------------+-------------+---------------------------------------------------------------------------+ | Keyword | Type | Unit | Description | +=====================+=================+=============+===========================================================================+ | ForestPatches | Map file name | integers | Map identifying forest categories (patches) | +---------------------+-----------------+-------------+---------------------------------------------------------------------------+ | Number\_of\_Species | Integer | :math:`[-]` | Number of vegetation types included in the simulation | +---------------------+-----------------+-------------+---------------------------------------------------------------------------+ | Species\_Parameters | Parameter table | :math:`[-]` | Table containing parameter information for each simulated vegetation type | +---------------------+-----------------+-------------+---------------------------------------------------------------------------+ **Vegetation tables** (needed only if ``Species_State_Variable_Input_Method=tables``) +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ | Keyword | Type | Unit | Description | +=============================+================+======================+=============================================================+ | Species\_Proportion\_Table | Variable table | :math:`m^{2} m^{-2}` | | Table with initial proportion of covered area | | | | | | (canopy cover) for each vegetation type with respect to | | | | | | cell area | +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ | Species\_StemDensity\_Table | Variable table | :math:`trees.m^{-2}` | Table with initial tree density for each vegetation type | +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ | Species\_LAI\_Table | Variable table | :math:`m^{2} m^{-2}` | Table with initial leaf area index for each vegetation type | +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ | Species\_AGE\_Table | Variable table | :math:`years` | Table with initial average age each vegetation type | +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ | Species\_BasalArea\_Table | Variable table | :math:`m^{2}` | Table with initial total basal area per vegetation type | +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ | Species\_Height\_table | Variable table | :math:`m` | Table with initial effective height per vegetation type | +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ | Species\_RootMass\_table | Variable table | :math:`g m^{-3}` | | Table with initial root mass per volume of soil for each | | | | | | vegetation type | +-----------------------------+----------------+----------------------+-------------------------------------------------------------+ **Map report switches** +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Keyword | Unit | Description | File root | +=======================================+========================+=====================================================+===========+ | Report\_Long\_Rad\_Down | :math:`W m^{-2}` | | Downwelling long wave (infrared) radiation at the | LDown | | | | | top of the canopy (climate input) | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Short\_Rad\_Down | :math:`W m^{-2}` | | Incoming shortwave (visible) radiation at the top | Sdown | | | | | of canopy (climate input) | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Precip | :math:`m s^{-1}` | Precipitation (climate input) | Pp | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Rel\_Humidity | :math:`Pa^{1} Pa^{-1}` | Relative humidity in the atmosphere (climate input) | RH | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Wind\_Speed | :math:`m s^{-1}` | Horizontal wind speed (climate input) | WndSp | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_AvgAir\_Temperature | :math:`^{\circ}C` | Average air temperature (climate input) | Tp | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_MinAir\_Temperature | :math:`^{\circ}C` | Minimum air temperature (climate input) | TpMin | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_MaxAir\_Temperature | :math:`^{\circ}C` | Maximum air temperature (climate input) | TpMax | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_SWE | :math:`m` | Snow water equivalent | SWE | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Infilt\_Cap | :math:`m s^{-1}` | Infiltration _Capacity | IfCap | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Streamflow | :math:`m^{3}s^{-1}` | Channel discharge | Q | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Water\_Content\_Average | :math:`m^{3}m^{-3}` | | Average volumetric water content for entire soil | SWCav | | | | | profile | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Water\_Content\_Up | :math:`m^{3}m^{-3}` | | Average volumetric water content for the two | SWCup | | | | | upper soil layers | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Water\_Content\_L1 | :math:`m^{3}m^{-3}` | | Volumetric water content for topmost | SWC1 | | | | | soil layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Water\_Content\_L2 | :math:`m^{3}m^{-3}` | | Volumetric water content for second | SWC2 | | | | | soil layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Water\_Content\_L3 | :math:`m^{3}m^{-3}` | | Volumetric water content for bottommost | SWC3 | | | | | soil layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_WaterTableDepth | :math:`m` | | Depth the equivalent water table using the | WTD | | | | | average soil moisture | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Sat\_Deficit | :math:`m` | Meters of water needed to saturate soil | SatDef | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Ground\_Water | :math:`m` | | Meters of water above field capacity in the third | GW | | | | | hydrologic layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Net\_Rad | :math:`Wm^{-2}` | Soil net radiation integrated over the grid cell | NRs | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_LE | :math:`Wm^{-2}` | Latent heat for surface layer | LEs | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Sens\_Heat | :math:`Wm^{-2}` | Sensible heat for surface layer | SensH | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Grnd\_Heat | :math:`Wm^{-2}` | Ground heat | GrndH | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Snow\_Heat | :math:`Wm^{-2}` | Turbulent heat exchange with snowpack | SnowH | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Soil\_Temperature | :math:`^{\circ}C` | | Soil temperature at the bottom of first thermal | Ts | | | | | layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Skin\_Temperature | :math:`^{\circ}C` | Soil skin temperature | Tskin | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Total\_ET | :math:`m s^{-1}` | Total evapotranspiration | Evap | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Transpiration\_sum | :math:`m s^{-1}` | | Transpiration integrated over the grid cell using | EvapT | | | | | vegetation fractions | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Einterception\_sum | :math:`m s^{-1}` | | Evaporation of intercepted water integrated over | EvapI | | | | | the grid cell using vegetation fractions | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Esoil\_sum | :math:`m s^{-1}` | | Soil evaporation integrated over subcanopy and | EvapS | | | | | bare soil fractions | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Net\_Rad\_sum | :math:`Wm^{-2}` | | Top-of-canopy net radiation integrated over the | NRtot | | | | | grid cell (including bare soil fraction) | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Veget\_frac | :math:`m^{2} m^{-2}` | | Fraction of cell covered by canopy of vegetation | p\_*n* | | | | | type *n* | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Stem\_Density | :math:`stems m^{-2}` | Density of individuals of vegetation type *n* | ntr\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Leaf\_Area\_Index | :math:`m^{2} m^{-2}` | Leaf area index of vegetation type *n* | lai\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Stand\_Age | :math:`years` | Age of stand of vegetation type *n* | age\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Canopy\_Conductance | :math:`m s^{-1}` | Canopy conductance for vegetation type *n* | gc\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_GPP | :math:`gC m^{-2}` | | Gross primary production for vegetation type *n* | gpp\_*n* | | | | | during the time step | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_NPP | :math:`gC^{-1} m^{-2}` | | Net primary production for vegetation type *n* | npp\_*n* | | | | | during the time step | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Basal\_Area | :math:`m^{2}` | Total basal area of vegetation type *n* | bas\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Tree\_Height | :math:`m` | Height of stand of vegetation type *n* | hgt\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Root\_Mass | :math:`g m^{-3}` | Root mass per volume of soil vegetation type *n* | root\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Canopy\_Temp | :math:`^{\circ}C` | Canopy temperature of vegetation type *n* | Tc\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Canopy\_NetR | :math:`W m^{-2}` | Net radiation above the vegetation type *n* | NRc\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Canopy\_LE\_E | :math:`W m^{-2}` | | Latent heat for evaporation of canopy | LEEi\_*n* | | | | | interception for vegetation type *n* | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Canopy\_LE\_T | :math:`W m^{-2}` | Transpiration latent heat for vegetation type *n* | LETr\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Canopy\_Sens\_Heat | :math:`W m^{-2}` | Sensible heat, canopy layer of vegetation type *n* | Hc\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Canopy\_Water\_Stor | :math:`m` | Intercepted water storage of vegetation type *n* | Cs\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_species\_ET | :math:`m s^{-1}` | Evapotranspiration within the vegetation type *n* | ETc\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Transpiration | :math:`m s^{-1}` | Transpiration from vegetation type *n* | Trp\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Einterception | :math:`m s^{-1}` | | Evaporation of intercepted water for the | Ei\_*n* | | | | | vegetation type *n* | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Esoil | :math:`m s^{-1}` | Soil evaporation under the vegetation type *n* | Es\_*n* | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_GW\_to\_Channnel | :math:`m` | Quantity of groundwater seeping in stream water | GWChn | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Surface\_to\_Channel | :math:`m` | | Quantity of surface runoff contributing to | SrfChn | | | | | stream water | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Infiltration | :math:`m` | | Meters of water (re)infiltrated water in the | Inf | | | | | first hydrological layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Return\_Flow\_Surface | :math:`m` | | Meters of water exfiltrated from the first | RSrf | | | | | hydrological layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Overland\_Inflow | :math:`m` | Surface run-on (excluding channel inflow) | LSrfi | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Stream\_Inflow | :math:`m` | Incoming stream water | LChni | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Groundwater\_Inflow | :math:`m` | Lateral groundwater inflow | LGWi | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Overland\_Outflow | :math:`m` | Surface run-off (excluding channel outflow) | LSrfo | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Groundwater\_Outflow | :math:`m` | Lateral groundwater outflow | LGWo | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_GW\_to\_Channnel\_acc | :math:`m` | | Cumulated quantity of groundwater seeping in | GWChnA | | | | | stream water | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Surface\_to\_Channel\_acc | :math:`m` | | Cumulated quantity of surface runoff contributing | SrfChnA | | | | | to stream water | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Infiltration\_acc | :math:`m` | | Cumulated meters of water (re)infiltrated water | InfA | | | | | in the first hydrological layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Return\_Flow\_Surface\_acc | :math:`m` | | Cumulated meters of water exfiltrated from the | RSrfA | | | | | first hydrological layer | | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Overland\_Inflow\_acc | :math:`m` | Cumulated surface run-on (excluding channel inflow) | LSrfiA | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Stream\_Inflow\_acc | :math:`m` | Cumulated lncoming stream water | LChniA | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Groundwater\_Inflow\_acc | :math:`m` | Cumulated lateral groundwater inflow | LGWiA | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Overland\_Outflow\_acc | :math:`m` | Cumulated surface run-off (excludes discharge) | LSrfoA | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ | Report\_Groundwater\_Outflow\_acc | :math:`m` | Cumulated lateral groundwater outflow | LGWo | +---------------------------------------+------------------------+-----------------------------------------------------+-----------+ **Map mask for time series locations** +----------+---------------+---------------------------------------------------------------------+ | Keyword | Type | Description | +==========+===============+=====================================================================+ | TS\_mask | Map file name | | Map identifying cells for which state variables will be reported. | | | | | Map should be zero everywhere except for target cells. | | | | | A maximum of 32 cells can be reported. | +----------+---------------+---------------------------------------------------------------------+ **Time series report switches** Written outputs file are time series tables at cells identified in ``TS_mask``. +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Keyword | Unit | Description | File name | +===================================+========================+=====================================================+==========================+ | Ts\_OutletDischarge | :math:`m^{3} s^{-1}` | | Discharge at cells with *ldd* value = 5 (outlets | OutletDisch.tab | | | | | and sinks) | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Long\_Rad\_Down | :math:`W m^{-2}` | | Downwelling long wave (infrared) radiation at the | LDown.tab | | | | | top of the canopy (climate input) | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Short\_Rad\_Down | :math:`W m^{-2}` | | Incoming shortwave (visible) radiation at the top | Sdown.tab | | | | | of canopy (climate input) | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Precip | :math:`m s^{-1}` | Precipitation (climate input) | Precip.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Rel\_Humidity | :math:`Pa^{1} Pa^{-1}` | Relative humidity in the atmosphere (climate input) | RelHumid.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Wind\_Speed | :math:`m s^{-1}` | Horizontal wind speed (climate input) | WindSpeed.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_AvgAir\_Temperature | :math:`^{\circ}C` | Average air temperature (climate input) | AvgTemp.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_MinAir\_Temperature | :math:`^{\circ}C` | Minimum air temperature (climate input) | MinTemp.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_MaxAir\_Temperature | :math:`^{\circ}C` | Maximum air temperature (climate input) | MaxTemp.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_SWE | :math:`m` | Snow water equivalent | SWE.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Infilt\_Cap | :math:`m s^{-1}` | Infiltration _Capacity | InfiltCap.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Streamflow | :math:`m^{3}s^{-1}` | Channel discharge | Streamflow.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Ponding | :math:`m^{3}m^{-3}` | | Surface water height | Ponding.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Water\_Content\_Average | :math:`m^{3}m^{-3}` | | Average volumetric water content for entire soil | SoilMoistureAv.tab | | | | | profile | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Water\_Content\_Up | :math:`m^{3}m^{-3}` | | Average volumetric water content for the two | SoilMoistureUp.tab | | | | | upper soil layers | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Water\_Content\_L1 | :math:`m^{3}m^{-3}` | | Volumetric water content for topmost | SoilMoistureL1.tab | | | | | soil layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Water\_Content\_L2 | :math:`m^{3}m^{-3}` | | Volumetric water content for second | SoilMoistureL2.tab | | | | | soil layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Water\_Content\_L3 | :math:`m^{3}m^{-3}` | | Volumetric water content for bottommost | SoilMoistureL3.tab | | | | | soil layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_WaterTableDepth | :math:`m` | | Depth the equivalent water table using the | WaterTableDepth.tab | | | | | average soil moisture | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Sat\_Deficit | :math:`m` | | Water depth needed to saturate the cells | SoilSatDef.tab | | | | | identified in *TS\_mask* | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Ground\_Water | :math:`m` | | Meters of water above field capacity in the third | GroundWater.tab | | | | | hydrologic layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Net\_Rad | :math:`Wm^{-2}` | Soil net radiation integrated over the grid cell | NetRadS.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_LE | :math:`Wm^{-2}` | Latent heat for surface layer | LatHeat.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Sens\_Heat | :math:`Wm^{-2}` | Sensible heat for surface layer | SensHeat.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Grnd\_Heat | :math:`Wm^{-2}` | Ground heat | GrndHeat.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Snow\_Heat | :math:`Wm^{-2}` | Turbulent heat exchange with snowpack | SnowHeat.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Soil\_Temperature | :math:`^{\circ}C` | | Soil temperature at the bottom of first thermal | SoilTemp.tab | | | | | layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Skin\_Temperature | :math:`^{\circ}C` | Soil skin temperature | SkinTemp.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Total\_ET | :math:`m s^{-1}` | Total evapotranspiration | Evap.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Transpiration\_sum | :math:`m s^{-1}` | | Transpiration integrated over the grid cell using | EvapT.tab | | | | | vegetation fractions | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Einterception\_sum | :math:`m s^{-1}` | | Evaporation of intercepted water integrated over | EvapI.tab | | | | | the grid cell using vegetation fractions | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Esoil\_sum | :math:`m s^{-1}` | | Soil evaporation integrated over subcanopy and | EvapS.tab | | | | | bare soil fractions | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Net\_Rad\_sum | :math:`Wm^{-2}` | | Top-of-canopy net radiation integrated over the | NetRadtot.tab | | | | | grid cell (including bare soil fraction) | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Veget\_frac | :math:`m^{2} m^{-2}` | | Fraction of cell covered by canopy of vegetation | p\_*n*.tab | | | | | type *n* | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Stem\_Density | :math:`stems m^{-2}` | Density of individuals of vegetation type *n* | num\_of\_trees\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Leaf\_Area\_Index | :math:`m^{2} m^{-2}` | Leaf area index of vegetation type *n* | lai\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Canopy\_Conductance | :math:`m s^{-1}` | Canopy conductance for vegetation type *n* | CanopyConduct\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_GPP | :math:`gC m^{-2}` | | Gross primary production for vegetation type *n* | GPP\_*n*.tab | | | | | during the time step | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_NPP | :math:`gC^{-1} m^{-2}` | | Net primary production for vegetation type *n* | NPP\_*n*.tab | | | | | during the time step | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Basal\_Area | :math:`m^{2}` | Total basal area of vegetation type *n* | BasalArea\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Tree\_Height | :math:`m` | Height of stand of vegetation type *n* | TreeHeight\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Root\_Mass | :math:`g m^{-3}` | Root mass per volume of soil vegetation type *n* | RootMass\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Canopy\_Temp | :math:`^{\circ}C` | Canopy temperature of vegetation type *n* | CanopyTemp\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Canopy\_NetR | :math:`W m^{-2}` | Net radiation above the vegetation type *n* | NetRadC\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Canopy\_LE\_E | :math:`W m^{-2}` | | Latent heat for evaporation of canopy | CanopyLatHeatEi\_*n*.tab | | | | | interception for vegetation type *n* | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Canopy\_LE\_T | :math:`W m^{-2}` | Transpiration latent heat for vegetation type *n* | CanopyLatHeatTr\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Canopy\_Sens\_Heat | :math:`W m^{-2}` | Sensible heat, canopy layer of vegetation type *n* | CanopySensHeat\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Canopy\_Water\_Stor | :math:`m` | Intercepted water storage of vegetation type *n* | CanopyWaterStor\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_species\_ET | :math:`m s^{-1}` | Evapotranspiration within the vegetation type *n* | ETc\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Transpiration | :math:`m s^{-1}` | Transpiration from vegetation type *n* | EvapT\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Einterception | :math:`m s^{-1}` | | Evaporation of intercepted water for the | EvapI\_*n*.tab | | | | | vegetation type *n* | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Esoil | :math:`m s^{-1}` | Soil evaporation under the vegetation type *n* | EvapS\_*n*.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_GW\_to\_Channnel | :math:`m` | Quantity of groundwater seeping in stream water | GWtoChn.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Surface\_to\_Channel | :math:`m` | | Quantity of surface runoff contributing to | SrftoChn.tab | | | | | stream water | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Infiltration | :math:`m` | | Meters of water (re)infiltrated water in the | Infilt.tab | | | | | first hydrological layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Return\_Flow\_Surface | :math:`m` | | Meters of water exfiltrated from the first | ReturnSrf.tab | | | | | hydrological layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Overland\_Inflow | :math:`m` | Surface run-on (excluding channel inflow) | SrfLatI.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Stream\_Inflow | :math:`m` | Incoming stream water | ChnLatI.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Groundwater\_Inflow | :math:`m` | Lateral groundwater inflow | GWLatI.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Overland\_Outflow | :math:`m` | Surface run-off (excluding channel outflow) | SrfLatO.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Groundwater\_Outflow | :math:`m` | Lateral groundwater outflow | GWLatO.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_GW\_to\_Channnel\_acc | :math:`m` | | Cumulated quantity of groundwater seeping in | GWtoChnAcc.tab | | | | | stream water | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Surface\_to\_Channel\_acc | :math:`m` | | Cumulated quantity of surface runoff contributing | SrftoChnAcc.tab | | | | | to stream water | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Infiltration\_acc | :math:`m` | | Cumulated meters of water (re)infiltrated water | InfiltAcc.tab | | | | | in the first hydrological layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Return\_Flow\_Surface\_acc | :math:`m` | | Cumulated meters of water exfiltrated from the | ReturnSrfAcc.tab | | | | | first hydrological layer | | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Overland\_Inflow\_acc | :math:`m` | Cumulated surface run-on (excluding channel inflow) | SrfLatIAcc.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Stream\_Inflow\_acc | :math:`m` | Cumulated lncoming stream water | ChnLatIAcc.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Groundwater\_Inflow\_acc | :math:`m` | Cumulated lateral groundwater inflow | GWLatIAcc.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Overland\_Outflow\_acc | :math:`m` | Cumulated surface run-off (excludes discharge) | SrfLatOAcc.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+ | Ts\_Groundwater\_Outflow\_acc | :math:`m` | Cumulated lateral groundwater outflow | GWLatOAcc.tab | +-----------------------------------+------------------------+-----------------------------------------------------+--------------------------+