%0 Journal Article %A WANG Jun,ZHOU Ping,GONG Qinghua,YANG Long,WEN Meili and FU Shuqing %T Study on the Soil Erosion Sensitivity in the Nanling Mountains, Guangdong, Using the RUSLE Model %D 2018 %R 10.13284/j.cnki.rddl.003046 %J Tropical Geography %P 347-355 %V 38 %N 3 %X In recent years, due to the intense human activities, the ecological environment of the Nanling National Nature Reserve, Guangdong Province, China, has been severely damaged and the soil erosion has been exacerbated. The sensitivity and spatial differentiation characteristics of the soil erosion in this area are urgently needed to be studied so that providing a reasonable scientific basis for local formulation of water and soil conservation measures, eco-environment conservation, and economic and social sustainable development. In this paper, based on the modified universal soil erosion equation (RUSLE) and Geographic Information System (GIS), factors affecting the sensitivity of soil erosion, such as rainfall erosion factor, soil erosion factor, slope length and steepness factor, and vegetation and management factor, were analyzed, and a single factor sensitivity assessment map was generated. On this basis, the comprehensive evaluation of the soil erosion sensitivity in the study area was achieved. The distribution of different soil erosion sensitivity and the spatial differentiation characteristics of the dominant factor were discussed finally. The results showed that the range of variation of rainfall erosion was from 8 181.52 to 14 621.56 MJ·mm/(hm2·h·a), the range of soil erosion was from 0.146 to 0.238 t·h/(MJ·mm), the slope length and steepness factor was ranging from 0 to 612.615 and the vegetation and management factor C was ranging from 0.101 to 1.183. The maximum and average values of soil erosion were 7 016.44 and 137.69 t/(km2·a), respectively. The sensitivity of soil erosion in the study area was mainly low sensitivity and lower sensitivity, whose areas accounted for about 90.44% of the total of the study site. The area above moderate sensitivity was 55.81 km2, accounting for about 9.56% of the total. The area of high sensitivity and higher sensitivity was about 6.45 km2, which only accounted for 1.10% of the total area and mainly distributed on both sides of mountain ridges and human activities in steep terrain. The comparison results between analysis of the soil erosion sensitivity and interpretation of remote sensing images showed that the RUSLE model was in good agreement with natural erosion, and there was more difference between the model result and the accelerated erosion induced by the human activity. It is necessary to further study the type and main controlling factors of soil erosion in the study area, and then revise the RUSLE model to highlight the accelerating effect of human activities on soil erosion so that making the model more realistic and reasonable. Different impact factors have different ranges of sensitivity in different zoning areas. Topographic factors and vegetation cover and management factors are the most sensitive to soil erosion in the study area, which can be adapted to local conditions and targeted soil erosion control measures can be adopted to prevent soil erosion. In particular, attention should be paid to control of the intensity of human activities for maintaining the ecological landscape and preventing the occurrence of secondary disasters such as collapses, landslides, and mudslides. The study results could be applied to the planning of soil and water conservation, land resources management in the Nanling National Nature Reserve, Guangdong Province, China. %U https://www.rddl.com.cn/EN/10.13284/j.cnki.rddl.003046