LWFBrook90.jl

Package repository: https://github.com/fabern/LWFBrook90.jl

• LWFBrook90.jl
• • About LWFBrook90.jl
  • Citing LWFBrook90.jl
  • Acknowledgments
  • References
• SVAT Model
• • Description
  • Implementation
• User Guide
• • Installation and usage
  • Input data
  • Calibration data (calibration not yet implemented)
• Example Script 01
• • Setup and run simulation
  • Postprocessing results
  • Postprocessing: Extract values
  • Postprocessing: Plotting (using provided functions)
  • Postprocessing: Plotting (using your own functions)
• Validation
• • Comparison with LWFBrook90R
• Code Listing
• • Code structure
  • Code listing
• Function Documentations
• • Functions from file examples/BEA2016...-input/func_run_example.jl
  • Functions from file LWFBrook90.jl
  • Functions from files func_read_inputData.jl, func_discretize_soil_domain.jl, or func_postprocess.jl
  • Functions defining the DiffEq.jl system of ODE (p, u0, f, callbacks, ...)
  • Functions from the different modules defining LWFBrook90

About LWFBrook90.jl

LWFBrook90.jl implements a 1D soil-vegetation-atmosphere transfer model. Intended use cases of this impelemntation are:

• support of stable isotopes (δ¹⁸O and δ²H)
• efficient model calibration for data analysis
• increased model flexibility

To read about the model structure, see section SVAT Model. For a quick start refer to the step-by-step guide in section Example Script 01 For further details read through the section User Guide or refer to sections Code Listing and Function Documentations for further technical intricacies e.g. for development of the package.

Citing LWFBrook90.jl

When using LWFBrook90.jl please cite <!– Bernhard et al. (2024) –>

TODO: update citation with published article.

Acknowledgments

Development of LWFBrook90.jl builds on the following works:

• BROOK90 (v4.8) by C. Anthony Federer, Licensed under CC0 1.0, http://www.ecoshift.net/brook/brook90.htm
• LWFBrook90R (v0.4.3) by Paul Schmidt-Walter, Volodymyr Trotsiuk, Klaus Hammel, Martin Kennel, Anthony Federer, Robert Nuske, Licensed under GPL-3.0, https://github.com/pschmidtwalter/LWFBrook90R

Matthias Häni, Katrin Meusburger, Peter Waldner, Lorenz Walthert, Stephan Zimmermann of WSL and its Long-term Forest Ecosystem Research (LWF) project gratefully acknowledged for providing example data files located in examples/BEA2016*.

References

Federer, C. A., Vörösmarty, C., & Fekete, B. (2003). Sensitivity of Annual Evaporation to Soil and Root Properties in Two Models of Contrasting Complexity. Journal of Hydrometeorology, 4(6), 1276–1290. https://doi.org/10.1175/1525-7541(2003)004<1276:SOAETS>2.0.CO;2

Federer, C. A. (2002). BROOK 90: A simulation model output for evaporation, soil water, and streamflow. http://www.ecoshift.net/brook/brook90.htm

Hammel, K., & Kennel, M. (2001). Charakterisierung und Analyse der Wasserverfügbarkeit und des Wasserhaushalts von Waldstandorten in Bayern mit dem Simulationsmodell BROOK90 (No. 185; Forstliche Forschungsberichte München, p. 135). Technische Uni München Wissenschaftszentrum Weihenstephan. ISBN 3-933506-16-6

Schmidt-Walter, P., Trotsiuk, V., Meusburger, K., Zacios, M., & Meesenburg, H. (2020). Advancing simulations of water fluxes, soil moisture and drought stress by using the LWF-Brook90 hydrological model in R. Agricultural and Forest Meteorology, 291, 108023. https://doi.org/10.1016/j.agrformet.2020.108023