山前洪积扇坡面细沟侵蚀跌坑特征的试验研究

Abstract

Abstract: The appearance of drop pit is an important phenomenon in the process of slope erosion, which indicates that the rill erosion is developing gradually; the rill formation is marked by the connectivity of the drop pit. The development characteristics and distribution of the pit were investigated by the soil flume flushing model test with orthogonal design of flow, slope gradient, scouring time and slope morphology. From primary to secondary, the order of the factors influencing the development of drop pit ranked as: scouring time, flow, slope morphology, and slope gradient. The drop pit was continuously distributed along the slope and the its depth was volatility. The trend of the pit depth firstly increased and then decreased with the downward trend of slope, and its maximum value was generally in the middle of the slope. According to the characteristics of the development of the pit, the rill erosion of the slope was divided into four stages: sheet erosion, rill prototype, rill development and rill adjustment. There was a significant linear relationship between the product of depth and width of the rill erosion and the soil erosion amount. This result had a certain reference value for researching oil vapor pipeline flood damage and controlling water soil erosion.

Key words: alluvial fan, rill erosion, orthogonal experiment, drop pit

CLC Number:

P931.1

ZHAO Ben-shan, WANG Sheng-xin, XU Kui, XU Zhen, WANG Peng-fei. Experimental study of drop pit characteristics of rill erosion on foreland pluvial fan slopeland[J]., 2017, 40(2): 348-354.

References

[1] 刘俊体, 孙莉英, 张学培, 等. 黄土坡面细沟发育过程侵蚀产沙特征研究[J]. 水土保持通报, 2013, 33(3):18-23.[LIU Junti, SUN Liying, ZHANG Xuepei, et al. A study of rill evolution process and sediment yield characteristics on loess slope[J].Bulletin of Soil andWater Conservation, 2013, 33(3):18-23.

[2] 唐政洪, 蔡强国, 许峰, 等. 不同尺度条件下的土壤侵蚀试验监测及模型研究[J]. 水科学进展, 2002, 13(6):781-787.[TANG Zhenghong, CAI Qiangguo, XU Feng, et al. Study on soil erosion experiment, monitoring and modeling of various scale conditions[J]. Advances inWater Science, 2002, 13(6):781-787.

[3] 赵晓光, 时辉. 水蚀作用下土壤抗蚀能力的表征[J]. 干旱区地理, 2003, 26(1):12-16.[ZHAO Xiaoguang, SHI Hui. Prescription of soil anti-erosion capability under water erosion[J].Arid Land Geography, 2003, 26(1):12-16.

[4] 吴普特, 汪有科, 冯浩, 等. 21 世纪中国水土保持科学的创新与发展[J]. 中国水土保持科学, 2003, 1(2):84-87.[WU Pute, WANG Youke, et al. Innovation and development of soil and water conservation science of China in 21^st century[J]. Science of Soil andWater Conservation, 2003, 1(2):84-87.

[5] 胡世雄. 坡面流与坡面侵蚀动力过程研究的最新进展[J]. 地理研究, 1998, 17(7):326-333.[HU Shixiong. The recent development of the study on overland flow and hill slope processes[J]. Geographical Research, 1998, 17(7):326-333.]

[6] AUERSWALD K, FIENER P, DIKAU R. Rates of sheet and rill erosion in Germany:a meta Analysis[J]. Geomorphology, 2009, 111:183-192.

[7] 严冬春, 王一峰, 文安邦, 等. 紫色土坡耕地细沟发育的形态演变[J]. 山地学报, 2011, 29(4):469-473.[YAN Dongchun, WANG Yifeng, WEN Anbang, et al. Configuration evolvement of rill development on purple slope land[J]. Journal of Mountain Science, 2011, 29(4):469-473.]

[8] 郑粉莉, 唐克丽, 周佩华, 等.坡耕地细沟侵蚀的发生、发展和防治途径的探讨[J]. 水土保持学报, 1987, 1(1):36-48.[ZHENG Fenli, TANG Keli, ZHOU Peihua, et al. Approach to the gennsis and development of rill erosion on slope land and the way to control[J]. Science of Soil andWater Conservation, 1987, 1(1): 36-48.

[9] 陈永忠. 黄土高原现代侵蚀[M]. 北京:科学出版社, 1998.[CHEN Yongzhong. Recent erosion of Loess Plateau[M]. Beijing: Science Press, 1998.

[10] 鲁克新. 陡坡薄层水流侵蚀动力过程试验研究[D]. 西安:西安理工大学, 2001:59-69.[LU Kexin. Experimental study on erosion dynamic of sheet flow on steep slope[D]. Xi'an:Xi'an University of Technology, 2001:59-69.]

[11] 白清俊, 马树升. 细沟侵蚀过程中水流跌坎的发生机理探讨[J]. 水土保持学报, 2001, (6):62-65.[BAI Qingjun, MA Shusheng, et al. A discuss on mechanism of drop-pit taken place in the process of rill erosion[J]. Journal of Soil and Water Conservation, 2001, (6):62-65.]

[12] 严冬春, 文安邦, 史忠林, 等. 紫色土坡面水流跌坑形态特征及其成因[J]. 山地学报, 2012, 1(1):30-35.[YAN Dongchun, WEN Anbang, SHI Zhonglin, et al. Configuration characteristic and cause of drop-pit development on purple slopeland[J]. Journal of Mountain Science, 2012, 1(1):30-35.]

[13] 李有利, 谭利华, 段烽军. 甘肃酒泉盆地河流地貌与新构造运动[J]. 干旱区地理, 2000, 23(4):304-309.[LI Youli, TAN Lihua, DUAN Fengjun, et al. Response of alluvial landforms to neotectonics in the Jiuquan Basin, Gansu, Northwest China[J]. Arid Land Geography, 2000, 23(4):304-309.]

[14] 王瑄, 李占斌, 鲁克新, 等. 坡面水蚀动力因子与土壤剥蚀率灰色关联分析[J]. 水力学报, 2005, (5):525-530.[WANG Xuan, LI Zhanbin, LU Kexin, et al. Grey correlation analysis on relationship between soil detachment rate and hydrodynamic erosion factors[J]. Journal of Hydraulic Engineering, 2005, (5): 525-530.]

[15] 刘瑞江, 张业旺, 闻崇炜, 等. 正交试验设计和分析方法研究[J]. 实验技术与管理, 2010, (9):52-55.[LIU Ruijiang, ZHANG Yewang, WEN Chongwei, et al. Study on the design and analysis methods of orthogonal experiment[J]. Experiment ental Technology and Management, 2010, (9):52-55.]

[16] 唐益群, 袁斌, 李君鹏, 等. 基于正交试验的黄土泥流运动分析[J]. 水利学报, 2015, (2):183-189.[TANG Yiqun, YUAN Bin, LI Junpeng, et al. Movement analysis of loess mud flow based on orthogonal experiment[J]. Journal of Hydraulic Engineering, 2015, (2):183-189.]

Experimental study of drop pit characteristics of rill erosion on foreland pluvial fan slopeland

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