A Review of Soil Erosion Models with Special Reference to the needs of Humid Tropical Mountainous Environments

Augustine Avwunudiogba, Paul Franklin Hudson

Abstract


Humid tropical mountainous environments (HTMEs) are generally considered sensitive ecological regions because anthropogenic disturbance often accelerate hillslope processes such as runoff, erosion, and sediment flux. Reducing accelerated erosion is necessary for the maintenance of the integrity, stability and sustainability of HTMEs. Soil erosion models (SOMs) are potential tools for predicting soil erosion, sediment flux, and the
design and assessment of effectiveness of conservation management practices in HTMEs. Within this context, this study provides a critical review of the available SOMs with a
focus on their applicability in HTMEs. The review indicates that because most SOMs have been developed for “flat agricultural lands” in temperate regions, to be useful in
conservation planning in HTMEs models should be calibrated for local conditions. For humid tropical mountainous regions, lumped parameter models (LPMs) linked to
Geographical Information Systems (GIS) are more practicable for conservation planning than sophisticated distributed parameter models (DPMs). This is due to the less stringent data requirements and ease to which land managers can implement LPMs, an essential consideration within the physical and socioeconomic context of HTMEs.

Keywords:Soil erosion models; Humid tropics, Mountainous environments; Conservation planning


Full Text:

PDF


DOI: http://dx.doi.org/10.14207/ejsd.2014.v3n4p299

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported License.

© European Journal of Sustainable Development

ISSN 2239-5938 (print)
ISSN 2239-6101 (online)