Elementary processes of soil–water interaction and thresholds in soil surface dynamics: a review
- 20 August 2004
- journal article
- review article
- Published by Wiley in Earth Surface Processes and Landforms
- Vol. 29 (9), 1077-1091
- https://doi.org/10.1002/esp.1103
Abstract
Elementary processes of soil–water interaction and the thresholds to these processes are important to understand as they control a range of phenomena that occur at the soil surface. In particular processes involved with wetting by rainfall that lead to particle breakdown are critical. This breakdown causes soil detachment and crust formation, which are both key elements in erosion. This paper reviews the range of approaches that have been taken in describing the processes associated with the wetting of a soil surface by rainfall. It assembles the studies that emphasize soil physics, soil chemistry, and erosion mechanics in a framework to enable a balanced consideration of important processes and management strategies to control erosion for a particular situation. In particular it discusses the factors associated with the two basic processes of soil structural breakdown, i.e. slaking and dispersion, and how these processes are critical in particle detachment, transport and surface crust formation. Besides the balance between the exchangeable cation composition and electrolyte concentration (measured as the sodium adsorption ratio (SAR) and total cation concentration (TCC) respectively) of the soil, the importance of energy input and soil organic matter content in controlling clay dispersion is emphasized. Based on the balance between these factors, the soil can be in one of three different regions, i.e. a dispersed region, a flocculated region and one where the resilience of the soil is variable. The implications of each of these regions to soil erosion management are briefly outlined, as are the critical roles that soil cover levels and organic matter have in controlling erosion. Finally, the relationship between various laboratory measures of aggregate stability, and corresponding field erosion characteristics, is discussed. Copyright © 2004 John Wiley & Sons, Ltd.Keywords
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