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Approaches to modelling land erodibility by wind

Centre for Remote Sensing and Spatial Information Science, School of Geography, Planning and Environmental Management, The University of Queensland, St Lucia, Brisbane, Queensland 4072, Australia, nicholas.webb{at}csiro.au, Desert Knowledge Cooperative Research Centre, PO Box 3971, Alice Springs, Northern Territory, Australia

Hamish A. McGowan

School of Geography, Planning and Environmental Management, The University of Queensland, St Lucia, Brisbane, Queensland 4072, Australia

Land susceptibility to wind erosion is governed by complex multiscale interactions between soil erodibility and non-erodible roughness elements populating the land surface. Numerous wind erosion modelling systems have been developed to quantify soil loss and dust emissions at the field, regional and global scales. All of these models require some component that defines the susceptibility of the land surface to erosion, ie, land erodibility. The approaches taken to characterizing land erodibility have advanced through time, following developments in empirical and process-based research into erosion mechanics, and the growing availability of moderate to high-resolution spatial data that can be used as model inputs. Most importantly, the performance of individual models is highly dependent on the means by which soil erodibility and surface roughness effects are represented in their land erodibility characterizations. This paper presents a systematic review of a selection of wind erosion models developed over the last 50 years. The review evaluates how land erodibility has been modelled at different spatial and temporal scales, and in doing this the paper identifies concepts behind parameterizations of land erodibility, trends in model development, and recent progress in the representation of soil, vegetation and land management effects on the susceptibility of landscapes to wind erosion. The paper provides a synthesis of the capabilities of the models in assessing dynamic patterns of land erodibility change, and concludes by identifying key areas that require research attention to enhance our capacity to achieve this task.

Key Words: aeolian • land erodibility • model • review • wind erosion.

This version was published on October 1, 2009

Progress in Physical Geography, Vol. 33, No. 5, 587-613 (2009)
DOI: 10.1177/0309133309341604


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