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贵州喀斯特地区侵蚀性次降雨产流产沙特征研究
引用本文:杜波, 唐丽霞, 潘佑静, 杨智, 谭顺菊, 高蜻. 贵州喀斯特地区侵蚀性次降雨产流产沙特征研究[J]. 西南林业大学学报, 2016, 36(5): 111-117.doi:10.11929/j.issn.2095-1914.2016.05.019
作者姓名:杜波  唐丽霞  潘佑静  杨智  谭顺菊  高蜻
作者单位:1. 贵州大学林学院,贵州 贵阳 550025;;2. 贵州省瓮安县水务局,贵州 瓮安 550400;;3. 贵州省水土保持技术咨询研究中心,贵州 贵阳 550002
基金项目:贵州省水利厅科研项目 (KT201312) 资助;贵州省水利厅科研项目 (KT201311) 资助。
摘要:为研究喀斯特地区侵蚀性次降雨与产流产沙特征,选取贵州省关岭县蚂蝗田小流域坡面径流小区监测资料,采用经验频率统计法、快速聚类和判别聚类法、降雨侵蚀力简易计算法进行研究。结果表明:5—9月为侵蚀降雨主要集中月份,占侵蚀降雨总量9808%,占降雨总量4883%,6月是侵蚀降雨最多的月份;喀斯特地区侵蚀性次降雨雨量和雨强标准为1449mm和151mm/h;侵蚀性次降雨划分为A (大雨量、长历时、小雨强、低频率)、B (小雨量、短历时、大雨强、高频率)、C (中雨量、中历时、中雨强、高频率) 3种降雨类型;B类型的产流产沙能力远大于A、C,是喀斯特地区最易产流产沙的降雨类型;次降雨侵蚀力R的计算公式中将PI30替换为PI后,更能反映喀斯特地区侵蚀性次降雨产沙的变化特征。
摘    要:为研究喀斯特地区侵蚀性次降雨与产流产沙特征,选取贵州省关岭县蚂蝗田小流域坡面径流小区监测资料,采用经验频率统计法、快速聚类和判别聚类法、降雨侵蚀力简易计算法进行研究。结果表明:5—9月为侵蚀降雨主要集中月份,占侵蚀降雨总量9808%,占降雨总量4883%,6月是侵蚀降雨最多的月份;喀斯特地区侵蚀性次降雨雨量和雨强标准为1449mm和151mm/h;侵蚀性次降雨划分为A (大雨量、长历时、小雨强、低频率)、B (小雨量、短历时、大雨强、高频率)、C (中雨量、中历时、中雨强、高频率) 3种降雨类型;B类型的产流产沙能力远大于A、C,是喀斯特地区最易产流产沙的降雨类型;次降雨侵蚀力R的计算公式中将PI30替换为PI后,更能反映喀斯特地区侵蚀性次降雨产沙的变化特征。

关 键 词:喀斯特   降雨类型   侵蚀力   产流   产沙
收稿时间:2016-04-09

Study on the Characteristics of Single Erosive Rainfall and Runoff and Sediment Yield in Karst Area of Guizhou
Du Bo1, Tang Lixia1, Pan Youjing1, 2, Yang Zhi3 and Tan Shunju1. Study on the Characteristics of Single Erosive Rainfall and Runoff and Sediment Yield in Karst Area of Guizhou[J]. Journal of Southwest Forestry University, 2016, 36(5): 111-117.doi:10.11929/j.issn.2095-1914.2016.05.019
Authors:Du Bo1   Tang Lixia1   Pan Youjing1  2   Yang Zhi3   Tan Shunju1
Affiliation:1. College of Forestry, Guizhou University, Guiyang Guizhou 550025, China; ;2. Water Authority of Wengan County, Wengan Guizhou 550400, China;;3. Technical Consulting Research Center of Soil and Water Conservation, Guiyang Guizhou 550002, China
Abstract:The objective of this study was to study the characteristics of erosive rainfall and runoff and sediment yield in Karst area. Data were collected in a soil and water loss monitoring station in Mahuangtian of Guanling County, Guizhou province. Analyzing the data by using the empirical frequency statistics, fast clustering and discriminant clustering method, and the simple calculation method of rainfall erosivity. Results showed that erosion rainfall mainly concentrated from May to September, accounted for 9808% of the total erosive rainfall and 4883% of the total rainfall. Erosive rainfall occurred most in June. The standard of single erosive rainfall and rainfall intensity in Karst area was 1449 mm and 151 mm/h. Single erosive rainfall was divided into the following three types of rainfall, A (strong rainfall, long duration, light rain and low frequency), B (little rainfall, short duration, high rainfall intensity and high frequency) and C (medium rainfall, medium duration, medium rainfall intensity and high frequency). The runoff and sediment yield of B type was much larger than that of A and C, and also was the easiest type produced runoff and sediment in the karst area. The erosivity R of single erosive rainfall was better reflected the variation characteristics of sediment erosion in Karst area when the PI30 replaced by PI in the R calculation formula.
Keywords:Karst   rainfall type   erosivity   runoff yield   sediment yield
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