水土保持研究2026,Vol.33Issue(2):24-34,11.DOI:10.13869/j.cnki.rswc.2026.02.045
基于UAV数据的黄河中游多沙粗沙区小流域水土保持措施空间优化配置及减沙潜力研究
Spatial optimization of soil and water conservation measures and sediment reduction potential in small watersheds of rich and coarse sediment area in middle reaches of Yellow River based on UAV data
摘要
Abstract
[Objective]This study aims to investigate the soil erosion conditions in small watersheds of rich and coarse sediment area in the middle reaches of the Yellow River using high-precision data,and to propose a spatial optimization scheme for soil and water conservation measures,providing theoretical references for the comprehensive management of small watersheds.[Methods]Three typical small watersheds(Hailesitaigou,Liudaogou,and Yangjiagou)in the rich and coarse sediment area of the middle reaches of the Yellow River were selected as the study area.Based on 2023 UAV orthophotos,multispectral data,DSM data,and field soil sampling data of the small watersheds,the Revised Universal Soil Loss Equation(RUSLE)model,optimal parameters-based geodetector,and GIS techniques were used to analyze the spatial variation characteristics of soil erosion and its key driving factors in the three small watersheds.Schemes for the improvement of fractional vegetation cover(FVC)by 10%~35%within a sustainable threshold(<65%)and for the spatial optimization of terraces and check dams were proposed.Subsequently,sediment reduction potential under scenarios of single and multiple soil and water conservation measures was evaluated.[Results](1)In 2023,soil erosion in the three small watersheds was predominantly very slight and slight erosion,while the proportion of areas with intense or higher erosion reached 11.69%~15.65%.The soil and water conservation rate ranged from 45.83%to 65.32%.(2)Slope,land use,and FVC were the dominant drivers of the spatial variation of soil erosion,and the nonlinear enhancement effect of the interaction between slope and land use was the most significant.(3)The soil and water conservation measures in the small watersheds ranked in terms of sediment reduction benefits as follows:FVC increase+terraces+check dams>FVC increase+terraces>FVC increase+check dams>FVC increase>single engineering measures.When FVC was increased by 35%within the sustainable threshold,the sediment reduction potential of the three small watersheds was 23.74%~30.97%.Under the scenario of 35%FVC increase+terraces+check dams,the sediment reduction potential in the three small watersheds was 26.37%~35.71%.[Conclusion]UAV data significantly enhance the accuracy of soil erosion intensity identification and the spatial optimization of soil and water conservation measures.The valley slopes and bare land areas in the three small watersheds are the key areas for erosion control.The optimization of multiple measures in the watersheds demonstrates significant sediment reduction effects,but vegetation restoration should be taken as the core,with engineering measures serving as a supplement.关键词
UAV数据/RUSLE模型/土壤侵蚀/驱动因素探测/水土保持措施优化配置/减沙潜力Key words
UAV data/RUSLE model/soil erosion/detection of driving factors/optimization of soil and water conservation measures/sediment reduction potential分类
农业科技引用本文复制引用
陈新佳,付金霞,吴楚瑜,韩颖,王文静,杨芷茵..基于UAV数据的黄河中游多沙粗沙区小流域水土保持措施空间优化配置及减沙潜力研究[J].水土保持研究,2026,33(2):24-34,11.基金项目
国家重点研发计划项目课题(2022YFF1300805) (2022YFF1300805)
国家自然科学基金黄河水科学研究联合基金(U2243210) (U2243210)
