基于GIS和修正通用水土流失方程(RUSLE)的Bonsa河流域土壤侵蚀产沙量测定

A. Asare, C. B. Boye
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摘要

邦萨河是加纳西部地区安科布拉河的一条重要支流。由于农业、非法采矿、人口增长等人类活动,Bonsa河流域的土地覆盖正在迅速变化,这些活动可能会促进河流流域的土壤侵蚀和沉积物产生。为了估计Bonsa河流域一段时间内的土壤侵蚀量和随后的产沙量,将修订通用土壤流失方程(RUSLE)与地理信息系统(GIS)相结合,模拟了流域内土壤侵蚀和产沙的空间分布格局。使用的数据包括年降雨量记录、土壤图、数字高程模型(DEM)和研究区土地利用图。利用ArcMap中的栅格计算器工具确定模型参数并转换为栅格层,生成土壤侵蚀图。采用输沙比(SDR)概念,将栅格SDR层与土壤侵蚀图相结合,确定年输沙量。预测的土壤流失量和产沙量较低。这可能是由于植被提供的高土壤保护覆盖以及流域地形起伏较小。虽然发现造成流域土壤侵蚀和产沙的主要因素和过程较低,但由于土壤侵蚀是一个自然渐进的缓慢过程,如果不检查主要条件,随着时间的推移可能会出现不利情况。如果采取措施控制人类活动,特别是在该流域非法采矿(galamsey)、不分青红皂白地砍伐树木和沿班萨河流域的农业活动,就可以维持所取得的成果。这项研究将支持水资源的监测和规划,并有助于改善可持续的水质。
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Determination of Soil Erosion and Sediment Yield in the Bonsa River Basin Using GIS and Revised Universal Soil Loss Equation (RUSLE)
The Bonsa river is an important tributary of the Ankobra river in the Western Region of Ghana. The catchment of the Bonsa river has been undergoing rapid land cover changes due to human activities such as farming, illegal mining, population growth, among others which are likely to promote soil erosion and sediment yield in the river basin. To estimate the amount of soil eroded over a period and subsequent sediment yielded along the Bonsa river basin, the Revised Universal Soil Loss Equation (RUSLE) was integrated with Geographic Information System (GIS) to model the spatial distribution patterns in soil erosion and sediment yield within the catchment. Data used included annual rainfall records, soil map, Digital Elevation Model (DEM) and land-use map of the study area. Parameters of the model were determined and converted into raster layers using the raster calculator tool in ArcMap to produce a soil erosion map. The concept of Sediment Delivery Ratio (SDR) was applied to determine the annual sediment yield by combining a raster SDR layer with soil erosion map. The predicted soil loss and sediment yield values were found to be low. This may be due to high soil protective cover provided by vegetation as well as low topographic relief in the river basin. Though, the elements and processes responsible for soil erosion and sediment yield prevailing in the basin was found to be low, adverse situations could be developed with time if the prevailing conditions are not checked, as soil erosion is a natural gradual slow process. The gains made could be sustained by putting measures in place to control human activities, particularly, illegal mining (galamsey) in the basin, indiscriminate cutting down of trees and farmining activities along the Bansa river basin. This study will support monitoring, planning of water resources and help to improve sustainable water quality.
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