Responses of flood peaks to land use and landscape patterns under extreme rainstorms in small catchments-A case study of the rainstorm of Typhoon Lekima in Shandong,China  被引量：2

作　　者：Yuanhao Liu Jianqiao Han Juying Jiao Baoyuan Liu Wenyan Ge Qingbin Pan Fei Wang 

机构地区：[1]Institute of Soil and Water Conservation,Northwest A&F University,Yangling,712100,Shaanxi Province,China [2]Key Laboratory of the Loess Plateau Soil Erosion and Water Loss Process and Control,Ministry of Water Resources,Zhengzhou,450003,Henan Province,China [3]Institute of Soil and Water Conservation,Chinese Academy of Sciences and Ministry of Water Resources,Yangling,712100,Shaanxi Province,China [4]China Institute of Water Resources and Hydropower Resea

出　　处：《International Soil and Water Conservation Research》2022年第2期228-239,共12页国际水土保持研究（英文）

基　　金：the National Natural Science Foundation of China[No.41807067,No.41771558];the Youth Talent Lift Project of China Association for Science and Technology[No.2019-2021QNRC001];the open Project Fund of Key Laboratory of the Loess Plateau Soil Erosion and Water Loss Process and Con-trol,Ministry of Water Resources[No.HTGY202004].

摘　　要：Investigations of the formation mechanisms of flood peaks in small catchments facilitate flood prediction and disaster prevention under extreme rainstorms.However,there have been few studies on the re-sponses of flood peaks to land use landscape patterns using field surveys during extreme rainstorm events.Based on field data from 17 small catchments near the rainstorm center of Typhoon Lekima,7 landscape indices were chosen.The flood peak and its sensitivity to the land use landscape were investigated by combining remote sensing interpretation and related analysis.The conclusions are as follows:(1)The peak discharge of the small catchment was 2.36e56.50 m3/s,the peak modulus was 8.00 e48.89 m3/(s$km2),and the flood index K ranged from 3.61 to 4.55.(2)Under similar rainfall conditions,the flood peak modulus,K and the proportion of sloping cropland had significantly positive correlations(p<0.05).The flood peak modulus was significantly negatively correlated with the proportion of forest-grassland and terrace(p<0.05),and K and the proportion of forest-grassland and terraced land exhibited a negative correlation.(3)The flood peak modulus and K were positively correlated with the landscape fragmentation.(4)The sensitivities of small catchments to floods were evaluated to be moderate compared to K values from other studies.The ability of small catchments to cope with extreme rain-storms can be improved by increasing the areas of forest-grassland,and terraces and reducing landscape fragmentation.Our results could be applied to provide a basis for land use planning and support for the response against disasters caused by extreme floods.

关 键 词：Extreme rainstorm Flood peak intensity Flood peak sensitivity Land use Landscape pattern 

分 类 号：S157[农业科学—土壤学]