{"title":"基于RUSLE模型的土壤侵蚀防护年流失量量化——以埃塞俄比亚Fincha流域为例","authors":"Meseret Wagari, Habtamu Tamiru","doi":"10.1177/11786221211046234","DOIUrl":null,"url":null,"abstract":"In this study, Revised Universal Soil Loss Equation (RUSLE) model and Geographic Information System (GIS) platforms were successfully applied to quantify the annual soil loss for the protection of soil erosion in Fincha catchment, Ethiopia. The key physical factors such as rainfall erosivity (R-factor), soil erodibility (K-factor), topographic condition (LS-factor), cover management (C-factor), and support practice (P-factor) were prepared in GIS environment from rainfall, soil, Digital Elevation Model (DEM), Land use/Land cover (LULC) respectively. The RUSLE equation was used in raster calculator of ArcGIS spatial tool analyst. The individual map of the derived factors was multiplied in the raster calculator and an average annual soil loss ranges from 0.0 to 76.5 t ha−1 yr−1 was estimated. The estimated annual soil loss was categorized based on the qualitative and quantitative classifications as Very Low (0–15 t ha−1 yr−1), Low (15–45 t ha−1 yr−1), Moderate (45–75 t ha−1 yr−1), and High (>75 t ha−1 yr−1). It was found from the generated soil erosion severity map that about 45% of the catchment area was vulnerable to the erosion with an annual soil loss of (>75 t ha−1 yr−1), and this demonstrates that the erosion reduction actions are immediately required to ensure the sustainable soil resources in the study area. The soil erosion severity map generated based on RUSLE model and GIS platforms have a paramount role to alert all stakeholders in controlling the effects of the erosion. 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引用次数: 12
摘要
本文应用修正通用水土流失方程(RUSLE)模型和地理信息系统(GIS)平台,对埃塞俄比亚Fincha流域的年土壤流失量进行了量化,以保护土壤侵蚀。在GIS环境下,从降雨、土壤、数字高程模型(DEM)、土地利用/土地覆盖(LULC)等方面,分别制备了降雨侵蚀力(r -因子)、土壤可蚀性(k -因子)、地形条件(ls -因子)、覆盖管理(c -因子)和支持措施(p -因子)等关键物理因子。RUSLE方程应用于ArcGIS空间工具分析的栅格计算器中。在栅格计算器中乘以所得因子的单个图,估计年平均土壤流失量在0.0 ~ 76.5 t / h - 1年- 1年之间。估计的年土壤流失量根据定性和定量分为极低(0 ~ 15 t / h−1年−1)、低(15 ~ 45 t / h−1年−1)、中(45 ~ 75 t / h−1年−1)和高(50 ~ 75 t / h−1年−1)。从生成的土壤侵蚀严重程度图中可以发现,约45%的集水区易受侵蚀,年土壤流失量为(bbb75 t / ha - 1 yr - 1),这表明研究区需要立即采取减少侵蚀的行动,以确保土壤资源的可持续发展。基于RUSLE模型和GIS平台生成的土壤侵蚀严重程度图在控制侵蚀影响方面具有重要的警示作用。RUSLE模型的结果也可以与流域一起进一步考虑,用于实际的水土流失保护措施。
RUSLE Model Based Annual Soil Loss Quantification for Soil Erosion Protection: A Case of Fincha Catchment, Ethiopia
In this study, Revised Universal Soil Loss Equation (RUSLE) model and Geographic Information System (GIS) platforms were successfully applied to quantify the annual soil loss for the protection of soil erosion in Fincha catchment, Ethiopia. The key physical factors such as rainfall erosivity (R-factor), soil erodibility (K-factor), topographic condition (LS-factor), cover management (C-factor), and support practice (P-factor) were prepared in GIS environment from rainfall, soil, Digital Elevation Model (DEM), Land use/Land cover (LULC) respectively. The RUSLE equation was used in raster calculator of ArcGIS spatial tool analyst. The individual map of the derived factors was multiplied in the raster calculator and an average annual soil loss ranges from 0.0 to 76.5 t ha−1 yr−1 was estimated. The estimated annual soil loss was categorized based on the qualitative and quantitative classifications as Very Low (0–15 t ha−1 yr−1), Low (15–45 t ha−1 yr−1), Moderate (45–75 t ha−1 yr−1), and High (>75 t ha−1 yr−1). It was found from the generated soil erosion severity map that about 45% of the catchment area was vulnerable to the erosion with an annual soil loss of (>75 t ha−1 yr−1), and this demonstrates that the erosion reduction actions are immediately required to ensure the sustainable soil resources in the study area. The soil erosion severity map generated based on RUSLE model and GIS platforms have a paramount role to alert all stakeholders in controlling the effects of the erosion. The results of the RUSLE model can also be further considered along with the catchment for practical soil loss protection practices.
期刊介绍:
Air, Soil & Water Research is an open access, peer reviewed international journal covering all areas of research into soil, air and water. The journal looks at each aspect individually, as well as how they interact, with each other and different components of the environment. This includes properties (including physical, chemical, biochemical and biological), analysis, microbiology, chemicals and pollution, consequences for plants and crops, soil hydrology, changes and consequences of change, social issues, and more. The journal welcomes readerships from all fields, but hopes to be particularly profitable to analytical and water chemists and geologists as well as chemical, environmental, petrochemical, water treatment, geophysics and geological engineers. The journal has a multi-disciplinary approach and includes research, results, theory, models, analysis, applications and reviews. Work in lab or field is applicable. Of particular interest are manuscripts relating to environmental concerns. Other possible topics include, but are not limited to: Properties and analysis covering all areas of research into soil, air and water individually as well as how they interact with each other and different components of the environment Soil hydrology and microbiology Changes and consequences of environmental change, chemicals and pollution.