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Simulation of Soil Erosion Responses to Land Use Changes at a Catchment Scale

Author(s): Lala Mariam Dabo; Ching-Nuo Chen; Samkele Tfwala

Linked Author(s): Lala Mariam Dabo, Samkele Tfwala

Keywords: Land use changes; Soil erosion; Physiographic soil erosion–deposition model (PSED); GIS

Abstract: Soil erosion is a major environmental threat to ecosystem functions, especially to the sustainability and productive capacity of land such as agriculture. Land-use change on one hand is among the key influential factors of soil erosion. Therefore, modelling the impact of land-use changes on soil erosion in watersheds is crucial in soil and water resource planning and management. In this study, a physiographic soil erosion–deposition model (PSED), which integrates Geographic Information System (GIS) with rainfall-runoff model and erosion-deposition model is applied to simulate the response of soil erosion to land-use changes. Being paired with GIS, the model can evaluate huge hydrologic and physiographic datasets without the need for simplification. Land-use changes from 1995 to 2011 in Laonung watershed, Southern Taiwan were used for the analysis. It was observed that agricultural land, grassland, bare land, built-up areas, unoccupied land expanded, at the expense of forest land. Consequently, resulting in a substantial amount of soil loss in the study area. Five typhoon events from 2002 to 2019 were used to simulate the effect of land-use changes on soil erosion. The results show that even the slightest changes in land use had a significant impact on the regional soil erosion with increasing rates ranging from 59–555%, 43–546%, 52–608%, 48–609%, 51–601% for 1995 – 2011 land-use changes during 2002, 2009, 2011, 2017, 2019 typhoon events, respectively. The proposed approach can be applied in similar watersheds as an effective tool to enhance land-use monitoring and management of watersheds.

DOI: https://doi.org/10.3850/IAHR-39WC252171192022892

Year: 2022

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