A physical statistical approach to erosion |
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Authors: | S Hergarten H J Neugebauer |
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Institution: | (1) Geodynamics-Physics of the Lithosphere, Bonn University, Nussallee 8, D-53115 Bonn, Germany |
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Abstract: | Erosion is a complex process consisting of many components such as surface runoff, impact of raindrops, wind forces, soil and rock mechanics, etc. Trying to integrate all these processes into a physical model seems to be hopeless. In order to understand the variety of natural shapes and patterns produced by erosion we present an integrated statistical approach. Our model is based on simple physical constraints for the separation of amalgamated particles (abrasion) and for the movement of loose particles (denudation) and on the laws of statistics. After some simplifications, we obtain a nonlinear system of partial differential equations which is solved using finite volume techniques. The model is suitable for the formation of different types of rill systems and the episodic behaviour of erosion processes, a kind of self-organized criticality. Besides effects of inhomogeneities, e.g. the formation of terraces can be investigated. |
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Keywords: | Erosion Abrasion Denudation Rill systems Self-organized criticality Statistical models |
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