Simulate Evapotranspiration and Soil Moisture with the SVAT Model LWF-Brook90
Create a daily sequence of stand properties from parameters using inte...
Calculate global solar radiation from sunshine duration hours
Calculate the dates of budburst and beginning of leaf fall
Correct rain gauge precipitation data for wind and evaporation errors ...
Extracts values from layer data and organizes layer-wise variables in ...
LWFBrook90R: A package for simulating water fluxes, soil moisture and ...
Generates a root density depth function for soil layers
Construct the seasonal course of leaf area index from parameters
Create daily plant characteristics from parameters and options
Create a parameter vector for the r_lwfbrook90-function
Interpolate plant properties using the 'b90' method.
Interpolate plant properties using the 'Coupmodel' method.
Interpolate plant properties using the 'linear' method.
Aggregate and group model outputs similar to ancient LWFB90 textfile o...
Functions to derive soil hydraulic properties from soil properties
Interface function to the LWF-Brook90 model
Replace elements in a data.frame or vector of length > 1 by name
Run the LWF-Brook90 hydrologic model
Make a multirun simulation using a set of variable input parameters.
Make a multi-site simulation using lists of climate, soil, and paramet...
Create a list of model control options
Select output for LWF-Brook90
Create the list of model parameters
Split up soil into materials and soil nodes.
Transfer standproperties height, maxlai, sai, densef, age to parameter...
Provides a flexible and easy-to use interface for the soil vegetation atmosphere transport (SVAT) model LWF-BROOK90, written in Fortran. The model simulates daily transpiration, interception, soil and snow evaporation, streamflow and soil water fluxes through a soil profile covered with vegetation, as described in Hammel & Kennel (2001, ISBN:978-3-933506-16-0) and Federer et al. (2003) <doi:10.1175/1525-7541(2003)004%3C1276:SOAETS%3E2.0.CO;2>. A set of high-level functions for model set up, execution and parallelization provides easy access to plot-level SVAT simulations, as well as multi-run and large-scale applications.
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