Hydraulic characteristics at the threshold moment of rill erosion occurring on the slope of granite red soil in western Fujian under simulated rainfall
GU Jingyao1,2, LI Mengyu3, WEI Yujie1,2, CAI Chongfa1,2
1. College of Resources and Environment, Huazhong Agricultural University, 430070, Wuhan, China; 2. Key Laboratory of Cultivated Land Conservation in the Middle and Lower Reaches of the Yangtze River, 430070, Wuhan, China; 3. Central South China Electric Power Design Institute Co. Ltd. of China Power Engineering Consulting Group, 430071, Wuhan, China
Abstract:[Background] Soil erosion on the red soil area derived from granite in southern China leads to serious soil quality degradation and environmental problems. Rill erosion is the beginning of increasing soil erosion and demonstrates significant contributions to slope soil erosion of runoff and sediment yields. The aim of this study is to explore the hydraulic characteristics and dynamic mechanisms at the threshold moment of rill erosion occurring on the slope of granite red soil by simulating rainfall. [Methods] Topsoil of typical granite red soil from western Fujian was selected as an experimental object. A steel channel soil could be filled in the slope was subjected to indoor simulated rainfall experiment under two rainfall intensities (70 and 100 mm/h) and three slope gradients (10, 15 and 20°). During rainfall, time of slope runoff, yielding time and position of falling were recorded. The runoff flow velocity on the slope was measured by the dyeing method. Within a set time interval, runoff and sediment yield were calculated by a water bottle used to collect runoff samples from the bottom of the tank. Reynolds number, Froude number, and other related hydrodynamic parameters were calculated accordingly. [Results] 1) When the rainfall intensity is relatively large, the red soil area derived from granite is easier from surface erosion to gully erosion. The velocity range while rill erosion occurring is 0.074-0.103 m/s. 2) When rill erosion occurs, most of the flow pattern of slope runoff present "mixed flow-slow flow". The average velocity, shear stress, Darcy-Weisbach resistance, stream power, Reynolds number, and unit energy of water-carrying section increase with the increase of rain intensity and slope. However, the variation law of unit water power is not obvious. Meanwhile, from the perspective of runoff or sediment, the Reynolds number and the composite hydrodynamic characteristic parameter μ (the geometric square root of the Reynolds number and the Froude number) composed of the Reynolds number and the Froude number can be used as the hydrodynamic parameters to characterize the erosion of the red soil slope developed by granite in the west of Fujian province under rainfall conditions when rill erosion occurs. [Conclusions] The experimental results show that at the moment of rill erosion occurring, rainfall intensity has a greater impact on it, and the hydrodynamic parameters can well represent the erosion characteristics of the red soil area derived from granite. The results of the study have great significance for elucidating the hydrodynamic characteristics of soil erosion, obtaining the evolution process of erosion patterns, controlling soil erosion and restoring the ecological environment in the south of China.
辜婧瑶, 李梦雨, 魏玉杰, 蔡崇法. 降雨条件下闽西花岗岩红壤坡面细沟发生临界水动力学特性[J]. 中国水土保持科学, 2020, 18(4): 62-72.
GU Jingyao, LI Mengyu, WEI Yujie, CAI Chongfa. Hydraulic characteristics at the threshold moment of rill erosion occurring on the slope of granite red soil in western Fujian under simulated rainfall. SSWC, 2020, 18(4): 62-72.
林敬兰,黄炎和. 崩岗侵蚀的成因机理研究与问题[J]. 水土保持研究,2010,17(2):41. LIN Jinglan,HUANG Yanhe. Review of study on formation mechanism of slope disintegration erosion and its problems[J]. Research of Soil and Water Conservation, 2010,17(2):41.
[2]
牛德奎. 华南红壤丘陵区崩岗发育的环境背景与侵蚀机理研究[D]. 南京:南京林业大学,2009:7. NIU Dekui. Study on the environmental background and erosion mechanism of the collapsing hill development in red soil region in southern China[D]. Nanjing: Nanjing Forestry University,2009:7.
[3]
张婧,查轩,申更强. 南方花岗岩红壤典型区土壤有机质的空间变异特征[J]. 中国水土保持科学, 2011,9(1): 50. ZHANG Jing, ZHA Xuan, SHEN Gengqiang. Spatial variability of soil organic matter content in a typical granite red soil region of Southern China[J].Science of Soil and Water Conservation, 2011,9(1): 50.
[4]
王庚. 花岗岩红壤区坡面浅沟侵蚀分异特征研究[D]. 福州:福建师范大学,2017:1. WANG Geng. Study on different characteristics of slope ephemeral gully erosion in granite red soil region[D]. Fuzhou: Fujian Normal University,2017:1.
[5]
吴淑芳,刘政鸿,霍云云,等.黄土坡面细沟侵蚀发育过程与模拟[J]. 土壤学报,2015,52(1):48. WU Shufang, LIU Zhenghong, HUO Yunyun, et al. Development of rill erosion on loess slope and its simulation[J]. Acta Pedologica Sinica, 2015,52(1):48.
[6]
张永东,吴淑芳,冯浩,等.土壤侵蚀过程中坡面流水力学特性及侵蚀动力研究评述[J].土壤,2013,45(1):26. ZHANG Yongdong, WU Shufang, FENG Hao. Review on hydraulic characteristics and erosion dynamics of overland flow in soil erosion process[J].Soils, 2013,45(1):26.
[7]
王龙生,蔡强国,蔡崇法,等.黄土坡面细沟形态变化及其与流速之间的关系[J]. 农业工程学报,2014,30(11): 110. WANG Longsheng,CAI Qiangguo,CAI Chongfa,et a1.Morphological changes of rill on loess slope and its relationship with flow velocity[J].Transactions of the CSAE,2014,30(11):110.
[8]
陈晓安. 黄土丘陵沟壑区坡面土壤侵蚀规律与坡面侵蚀经验模型的研究[D]. 武汉:华中农业大学,2010:54. CHEN Xiaoan. Study on soil erosion and erosion empirical model in hilly loess region on the Loess Plateau: As an example to Chabagou[D].Wuhan: Huazhong Agricultural University,2010:54.
[9]
郭忠录,马美景,蔡崇法,等. 模拟降雨径流作用下红壤坡面侵蚀水动力学机制[J]. 长江流域资源与环境,2017,26(1): 150. GUO Zhonglu, MA Meijing, CAI Chongfa, et al. Soil erosion and flow hydraulics on red soil slope under simulated rainfall/runoff[J].Resources and Environment in the Yangtze Basin,2017,26(1): 150.
[10]
吴淑芳,张永东,卜崇峰. 黄土细沟侵蚀演化过程及其水力学特性试验研究[J]. 泥沙研究, 2015,40(6): 72. WU Shufang, ZHANG Yongdong, BU Chongfeng. Experimental study on rill erosion processes and flow hydraulic characteristics on loess gentle slope[J]. Journal of Sediment Research, 2015,40(6): 72.
[11]
王健,李鹤,孟秦峰,等. 黄土坡面细沟横断面形态及其水流动力学与挟沙特性[J]. 水土保持学报, 2015,29(3):32. WANG Jian, LI He, MENG Qingfeng,et al. Characteristics of rill cross section morphology, hydrodynamics and sediment-carrying capacity on loess slopes[J]. Journal of Soil and Water Conservation, 2015,29(3):32.
[12]
倪世民,冯舒悦,王军光,等.不同质地重塑土坡面细沟侵蚀形态与水力特性及产沙的关系[J]. 农业工程学报,2018,34(15):149. NI Shimin, FENG Shuyue, WANG Junguang, et al. Relationship between rill erosion morphology and hydraulic characteristics and sediment yield on artificial soils slope with different textures[J]. Transactions of the CSAE, 2018,34(15):149.
[13]
蔡强国,吴淑安,马绍嘉,等. 花岗岩发育红壤坡地侵蚀产沙规律试验研究[J].泥沙研究, 1996,21(1): 89. CAI Qiangguo, WU Shu'an, MA shaojia, et al. Experimental study of soil erosion and sediment yield on slopeland of red soil derived from granite[J]. Journal of Sediment Research, 1996,21(1):89.
[14]
蒋芳市,黄炎和,林金石,等.坡度和雨强对花岗岩崩岗崩积体细沟侵蚀的影响[J]. 水土保持研究, 2014,21(1):1. JIANG Fangshi, HUANG Yanhe, LIN Jinshi, et al. Effects of different rainfall intensities and slope gradients on rill erosion of coluvial deposits in granite benggang[J]. Research of Soil and Water Conservation, 2014,21(1):1.
[15]
赵辉,郭索彦,解明曙,等. 南方花岗岩红壤区不同土地利用类型坡地产流与侵蚀产沙研究[J]. 水土保持通报, 2008,28(2): 6. ZHAO Hui, GUO Suoyan, XIE Mingshu, et al. Runoff,soil erosion and sediment yield on sloping land of red soils derived from granite on slopes with different land uses in South China[J]. Bulletin of Soll and Water Conservation, 2008,28(2): 6.
[16]
耿晓东. 主要水蚀区坡面土壤侵蚀过程与机理对比研究[D]. 陕西杨凌:中国科学院研究生院(教育部水土保持与生态环境研究中心), 2010:108. GENG Xiaodong. Comparative study among the processes and mechanism of hillslope soil erosion in main water erosion region in China [D]. Yangling, Shaanxi:Graduate University of Chinese Academy of Sciences(Research Center of Soil and Water Conservation and Ecological Environment of the Ministry of Education),2010:108.
[17]
中国科学院南京土壤研究所土壤物理研究室.土壤物理性质测定法[M].北京:科学出版社,1978:11. Laboratory of Soil Physics, Institute of Soil Science,Chinese Academy of Sciences. Determination of physical properties of soil [M]. Beijing: Science Press, 1978:11.
[18]
张宽地,王光谦,孙晓敏,等. 坡面薄层水流水动力学特性试验[J]. 农业工程学报, 2014,30 (15):182. ZHANG Kuandi,WANG Guangqian,SUN Xiaomin,et a1.Experiment on hydraulic characteristics of shallow open channel flow on slope[J]. Transactions of the CSAE,2014,30(15):l82.
[19]
郝好鑫,杜一凡,曹丹妮,等.红壤缓坡水流动力学特性及其对侵蚀影响的试验研究[J].中国水土保持科学,2018,16(2):1. HAO Haoxin,DU Yifan,CAO Danni,et al. Experimental study of flow hydraulic characteristics and soil erosion on red soil hilly-slope[J].Science of Soil and Water Conservation,2019,16(2):1.
[20]
董旭,张宽地,杨明义,等.黄土坡面细沟流水动力学特性[J].中国水土保持科学,2016,14(3):45. DONG Xu,ZHANG Kuandi,YANG Mingyi,et al. Dynamics characteristics of rill flow on loess slope[J].Science of Soil and Water Conservation, 2016,14(3):45.
[21]
李兆松,王兵,汪建芳,等.铁杆蒿与白羊草枯落物覆盖量对黄土坡面流水动力特性的影响[J].农业工程学报,2018,34(17):151. LI Zhaosong, WANG Bing, WANG Jianfang, et al. Effects of Artemisia gmelinii and Bothriochloa ischcemum litter mass coverage on hydrodynamic characteristics of loess overland flow[J]. Transactions of the CSAE, 2018, 34(17): 151.
[22]
罗帮林. 紫色土细沟侵蚀水动力学特征及与黄绵土对比研究[D].昆明:西南大学,2016:13. LUO Banglin. Hydrodynamic characteristics in eroding rill of purple soil and comparison study with loess soil[D].Kunming: Southwest University,2016:13.
[23]
张永东,吴淑芳,冯浩,等.黄土陡坡细沟侵蚀动态发育过程及其发生临界动力条件试验研究[J].泥沙研究,2013,38(2):25. ZHANG Yongdong,WU Shufang,FENG Hao,et a1.Experimental study of rill dynamic development process and its critical dynamic conditions on loess slope[J].Journal of Sediment Research,2013,38(2):25.
[24]
徐锡蒙. 基于不同侵蚀动力因子的浅沟侵蚀过程与浅沟水流数值模拟[D].陕西杨凌:西北农林科技大学,2018:119. XU Ximeng. Ephemeral gully erosion processes based on different erosion force factors and numerical simulation of ephemeral gully flow[D]. Yangling, Shaanxi: Northwest A&F University,2018:119.
[25]
GUO Tailong, WANG Quanjiu, LI Dingqiang, et al. Sediment and solute transport on soil slope under simultaneous influence of rainfall impact and scouring flow[J]. Hydrological Processes, 2010, 24(11): 1446.
[26]
张乐涛,高照良,田红卫. 工程堆积体陡坡坡面土壤侵蚀水动力学过程[J]. 农业工程学报,2013,29(24):94. ZHANG Letao, GAO Zhaoliang,TIAN Hongwei. Hydrodynamic process of soil erosion in steep slope of engineering accumulation[J]. Transactions of the CSAE,2013,29(24):94.
[27]
鲁克新, 李占斌. 黄土坡面细沟侵蚀发生初期跌坎形成机理的理论探讨[J]. 水土保持学报, 2002,16(1):35. LU Kexin, LI Zhanbin. Theoretical study on formation mechanism of erosion holes at beginning of rill erosion development on loess slope[J].Journal of Soil and Water Conservation, 2002,16(1):35.
[28]
陆兆熊,Merz W.应用盐液示踪技术测定表面水流流速 //王福堂. 晋西黄土高原土壤侵蚀管理与地理信息系统应用研究[M]. 北京: 科学出版社, 1992:47. LU Zhaoxiong, MERZ W. Application of salt tracing technique to determine surface water flow velocity//WANG Futang. Soil erosion management and application of geographical information system in the Loess Plateau region, western Shanxi[M].Beijing: Science Press,1992:47.
[29]
李君兰,蔡强国,孙莉英,等.细沟侵蚀影响因素和临界条件研究进展[J].地理科学进展,2010,29(11):1319. LI Junlan, CAI Qiangguo, SUN Liying, et al. Reviewing on factors and critical conditions of rill erosion[J].Progress in Geography, 2010, 29(11): 1319.
[30]
雷廷武,NEARING M A. 侵蚀细沟水力学特性及细沟侵蚀与形态特征的试验研究[J]. 水利学报, 2000,31(11): 49. LEI Tingwu, NEARING M A. Flume experiments for determining rill hydraulic characteristic erosion and rill patterns[J]. Journal of Hydraulic Engineering, 2000, 31(11): 49.
[31]
张科利,唐克丽. 黄土坡面细沟侵蚀能力的水动力学试验研究[J]. 土壤学报, 2000,37(1): 9. ZHANG Keli,TANG Keli.A study on hydraulic characteristic of flow for prediction of rill detachment capacity on loess slope[J].Acta Pedologica Sinica,2000,37(1):9.
[32]
张科利,秋吉康宏. 坡面细沟侵蚀发生的临界水力条件研究[J]. 土壤侵蚀与水土保持学报, 1998(1): 43. ZHANG Keli, AKIYOSHI Yasuhiro. Critical hydraulic condition of rill erosion on sloping surface[J].Journal of Soil Erosion and Soil and Water Conservation,1998(1):43.
[33]
张光辉, 卫海燕. 刘宝元. 坡面流水动力学特性研究[J]. 水土保持学报, 2001, 15(1): 58. ZHANG Guanghui,WEI Haiyan, LIU Baoyuan. Study on hydro-dynamic properties of overland flow[J].Journal of Soil and Water Conservation, 2001, 15(1): 58.
[34]
GUO Tailong, WANG Quanjiu, LI Dongqiang, et al. Flow hydraulic characteristic effect on sediment and solute transport on slope erosion [J]. Catena, 2013, 107(8): 145.
[35]
郭太龙,卓慕宁,李定强,等.华南红壤坡面侵蚀水动力学机制试验研究[J].生态环境学报,2013,22(9):1556. GUO Tailong,ZHUO Muning,LI Dingqiang,et al.Experimental study on soil erosion and flow hydraulics on red soil slope[J].Ecology and Environmental Sciences,2013,22(9):1556.