EGU21-5513
https://doi.org/10.5194/egusphere-egu21-5513
EGU General Assembly 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Erosion and sediment transport models with reference to the needs of small scale

Ahsan Raza1, Thomas Gaiser2, Muhammad Habib-Ur-Rahman3, and Hella Ahrends4
Ahsan Raza et al.
  • 1University of Bonn, The Institute for Crop Science and Resource Conservation, Crop Science Group, Germany (araza@uni-bonn.de)
  • 2University of Bonn, The Institute for Crop Science and Resource Conservation, Crop Science Group, Germany (tgaiser@uni-bonn.de)
  • 3University of Bonn, The Institute for Crop Science and Resource Conservation, Crop Science Group, Germany (mhabibur@uni-bonn.de)
  • 4University of Bonn, The Institute for Crop Science and Resource Conservation, Crop Science Group, Germany (hahrends@uni-bonn.de)

Information on field scale soil erosion and related sedimentation process is very important for natural resource management and sustainable farming. Plenty of models are available for study of these processes but only a few are suitable for dynamic small scale soil erosion assessments. The available models vary greatly in terms of their input requirements, analysis capabilities, process [t1] complexities, spatial and temporal scale of their intended use, practicality, the manner they represent the processes, and the type of output information they provide. The study aims in examining, theoretically, 51 models classified as physical, conceptual, and empirical based on their representation of the processes of soil erosion. The literature review shows that there is no specific model available for soil erosion prediction under agroforestry systems.   It is further suggested that models like EPIC, PERFECT, GUEST, EPM, TCRP, SLEMSA, APSIM, RillGrow, and CREAMS can be potentially used for soil erosion assessment at plot/field scale at daily time steps. Most of these models are capable to simulate the soil erosion process at small scale; further model development is needed regarding their limitations with respect to components interaction i.e., rainfall intensity, overland flow, crop cover, and their difficulties in upscaling. The research suggested that SIMPLACE network can provide modules with LintulBiomass, HillFlow, Runoff to develop new dynamic components to simulate overland flow and soil erosion incorporating improved upscaling capabilities

How to cite: Raza, A., Gaiser, T., Habib-Ur-Rahman, M., and Ahrends, H.: Erosion and sediment transport models with reference to the needs of small scale, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-5513, https://doi.org/10.5194/egusphere-egu21-5513, 2021.

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