基于GIS的通用水土流失方程(USLE)在克什米尔流域水土流失评价中的应用

Journal of Remote Sensing & GIS Pub Date : 2018-01-02 DOI:10.37591/.V8I3.2

Z. Hassan, M. I. Malik, T. A. Kanth

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引用次数: 0

摘要

本文利用遥感和地理信息系统对通用土壤流失方程(USLE)进行了评估，以估计小流域的潜在土壤流失量。乌拉集水区面积1200.36 km2，位于北纬34 ~ 12′24″~ 34 ~ 36′26″，东经74 ~ 26′41″~ 74 ~ 56′02″之间。它的海拔范围从乌拉尔湖附近的1580米到哈穆克山脉的4500米左右。R、K、LS、C和P因子分别由降水数据、土壤图、数字高程模型(DEM)、土地利用和野外调查得到。研究表明，约6%的地区遭受严重侵蚀，土壤流失量超过900吨/年。侵蚀严重的1EE2a、1EM2a和1EE1c流域所占比例最高，分别为19.91%、17.30%和14.88%。这是最容易受到土壤侵蚀的地区，主要是由于非常陡峭的坡度和斜坡长度。该研究清楚地证明了植被覆盖对流域管理的重要性。研究根据流域水土流失的空间分布，提出了水土保持措施。关键词:USLE;土壤流失;乌拉尔湖流域;土壤侵蚀;降雨;Zahoor-ul-Hassan, M. Imran Malik, T.A. Kanth。基于GIS的通用水土流失方程(USLE)在克什米尔流域水土流失评价中的应用。遥感与地理信息系统学报。2017;8 (3): 56 - 66 p。

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GIS Based Assessment of Soil Erosion Using Universal Soil Loss Equation (USLE) in Wular Catchment of Kashmir

The Universal Soil Loss Equation (USLE) has been assessed in the present study using Remote Sensing and GIS in order to estimate the potential Soil Loss at watershed level in Wular Catchment. Wular Catchment has an area of 1200.36 km 2 and lies between 34 o 12′24″ and 34 o 36′26″ N latitude and 74 o 26′41″ and 74 o 56′02″E longitude. Its altitudinal range is from 1580 meters near Wular Lake to about 4500 meters in Harmukh range. Maps of the R, K, LS, C and P factors were derived from the precipitation data, soil map, digital elevation model (DEM), land use and field survey respectively. It emerges from the study that about 6% of the area has severe erosion with a soil loss more than 900 t ha −1 yr −1 . The watersheds of 1EE2a, 1EM2a and 1EE1c have the highest percentage share of 19.91%, 17.30% and 14.88% respectively under severe erosion. This is the most susceptible zone to soil erosion primarily due to very steep slope gradient and slope length. The study clearly demonstrates the importance of vegetation cover for watershed management. The Study has proposed soil and water conservation measures in accordance with the spatial distribution of soil loss in the Catchment. Keywords: USLE; Soil Loss; Wular Catchment; Soil Erosion; Rainfall; Erosivity Cite this Article Zahoor-ul-Hassan, M. Imran Malik, T.A. Kanth. GIS Based Assessment of Soil Erosion Using Universal Soil Loss Equation (USLE) in Wular Catchment of Kashmir. Journal of Remote Sensing & GIS . 2017; 8(3): 56–66p.

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Journal of Remote Sensing & GIS

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