How to account for particle size effects in a landscape evolution model when there is a wide range of particle sizes

Hancock, G. R.; Saynor, M.; Lowry, J. B. C.; Erskine, W. D.

Title: How to account for particle size effects in a landscape evolution model when there is a wide range of particle sizes
Creator: Hancock, G. R.; Saynor, M.; Lowry, J. B. C.; Erskine, W. D.
Relation: Environmental Modelling & Software Vol. 124, Issue February 2020, no. 104582
Publisher Link: http://dx.doi.org/10.1016/j.envsoft.2019.104582
Publisher: Elsevier
Resource Type: journal article
Date: 2020
Description: Surface mining irreversibly disturbs the landscape. A first order priority is to establish an erosionally stable landscape. Soil and surface material particle size has a strong influence on soil erosion and a number of erosion models have been developed based on the relationship with particle size. Here we highlight the practicalities of assessing material particle size for a post-mining landscape. In particular, the CAESAR-Lisflood landscape evolution model (the focus here) requires a defined material particle size as input. A key feature which differentiates CAESAR-Lisflood is the ability to apply particle size data at the same resolution as the digital elevation model (DEM) representing the landform surface. Here we develop particle size distributions and demonstrate how they influence erosion for a potential post-mining landform. Field data from the site demonstrates that material particle size distribution changes little over a ten year period and yet a strong influence on erosion rates.
Subject: soil particle size; sediment transport; landscape evolution; mine rehabilitation; soil erosion modelling
Identifier: http://hdl.handle.net/1959.13/1435940
Identifier: uon:39869
Identifier: ISSN:1364-8152
Language: eng
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