典型荒漠植被根系对塔里木河岸坡冲刷过程影响试验研究

陈志康; 宗全利; 蔡杭兵

doi:10.11988/ckyyb.20200861

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长江科学院院报 ›› 2022, Vol. 39 ›› Issue (1) : 56-62. DOI: 10.11988/ckyyb.20200861

水土保持与生态修复

典型荒漠植被根系对塔里木河岸坡冲刷过程影响试验研究

陈志康^1,2, 宗全利¹, 蔡杭兵²

作者信息 +

Experimental Study on the Influence of Typical Desert Vegetation Roots on Erosion Process of Tarim River Bank Slope

CHEN Zhi-kang^1,2, ZONG Quan-li¹, CAI Hang-bing²

Author information +

文章历史 +

摘要

为探讨植被根系对河岸冲刷过程的影响作用,取新疆塔里木河岸坡原状土,选取当地优势灌木红柳、乔木胡杨根系,通过室内水槽试验,分析不同植被根系对河岸冲刷起防护作用的贡献率。结果表明:①无根系河岸水下淘刷形式主要为圆弧状,下部抗冲能力差;有根系河岸的淘刷形式主要为三角形,下部抗冲能力强,上部悬空层的稳定性好。②根系的网络固土作用使河岸的抗冲能力提高12%~42%;相同植被根系河岸,根系的布置方式对河岸的固土能力有显著差异,V型根系的固土作用优于竖直型;不同植被根系河岸,红柳根系的固土能力大于胡杨根系,平均提高27%。③根土胶结崩塌体堆积形式主要为三角形,且堆积体的占比大于无根系崩塌体;红柳根系胶结崩塌体的分解速率最慢;根系牵拉系数可作为反应根系对河床防护作用贡献的参数,实际计算中可按1.15~2.52进行估算。研究结果可为塔里木河河道岸坡防护提供理论参考。

Abstract

In the purpose of exploring the effect of vegetation roots on riverbank erosion process, the contribution rate of different vegetation roots to riverbank erosion protection was examined via indoor flume experiments. The undisturbed soil samples were taken from the banks of the Tarim River in Xinjiang, and the roots of local dominant shrubs Tamarix ramosissima and Populus arbores were selected as research objects. Results demonstrated that: (1) Rootless river bank mainly suffered from arc-shaped erosion with insufficient anti-scouring ability in the lower part, while rooted river bank mainly saw triangular erosion with strong anti-scouring ability in the lower part and good stability in the upper suspended layer. (2) The soil-fixing effect of the root system enhanced the impact resistance of river bank by 12%-42%. Given the root system of the same vegetation, the soil-fixing ability of the river bank differed remarkably with the arrangement of the root system: V-shaped root system had a superior soil-fixing effect than vertical system. Tamarix ramosissima root system had a better soil-fixing ability than Populus euphratica by 27% on average. (3) Root-soil cemented collapse body accumulated mainly in a triangular shape, and the proportion of accumulation is larger than that of non-rooted collapse; Tamarix ramosissima root cement collapse decomposed in a smallest rate. In addition, the root traction coefficient can be used to reflect the contribution of roots to riverbed protection, and can be estimated as 1.15~2.52 in calculation. The research findings offer theoretical basis for the slope protection of the Tarim River.

导出引用

陈志康, 宗全利, 蔡杭兵. 典型荒漠植被根系对塔里木河岸坡冲刷过程影响试验研究[J]. 长江科学院院报. 2022, 39(1): 56-62 https://doi.org/10.11988/ckyyb.20200861

CHEN Zhi-kang, ZONG Quan-li, CAI Hang-bing. Experimental Study on the Influence of Typical Desert Vegetation Roots on Erosion Process of Tarim River Bank Slope[J]. Journal of Changjiang River Scientific Research Institute. 2022, 39(1): 56-62 https://doi.org/10.11988/ckyyb.20200861

中图分类号： TV149.2 S157.2

参考文献

[1] 刘加珍,陈亚宁,陈永金,等.荒漠河岸生态系统退化机理的定量分析[J].生态环境学报,2010,19(1):131-139.
[2] 赵清贺,冀晓玉,徐珊珊,等.河岸植被对坡面径流侵蚀产沙的阻控效果[J].农业工程学报,2018,34(13):170-178.
[3] 刘定辉,李勇.植物根系提高土壤抗侵蚀性机理研究[J].水土保持学报,2003(3):34-37,117.
[4] CROSATO A,SALEH M S. Numerical Study on the Effects of Floodplain Vegetation on Riverplanform Style[J].Earth Surface Processes and Landforms,2011,36(6):711-720.
[5] LI Z, YU G, BRIERLEY G, et al. Vegetative Impacts upon Bedload Transport Capacity and Channel Stability for Differing Alluvial Planforms in the Yellow River Source Zone[J]. Hydrology and Earth System Sciences, 2016, 20(7): 3013-3025.
[6] 杨春霞,姚文艺,肖培青,等.植被覆盖结构对坡面产流产沙的影响及调控机制分析[J].水利学报,2019,50(9):1078-1085.
[7] ALLMENDINGER N E, PIZZUTO J E, POTTER J N, et al. The Influence of Riparian Vegetation on Stream Width, Eastern Pennsylvania, USA[J]. Geological Society of America Bulletin, 2005, 117(1/2):229-243.
[8] 肖毅,邵学军,周刚,等.考虑河岸植被影响及变形的河流形态数值模拟研究[J].水力发电学报,2012,31(6):149-153,159.
[9] 郭辉,沈育民,李飞,等.土石坝背坡植被抗冲蚀能力试验研究[J].长江科学院院报,2013,30(8):122-126.
[10] 王志刚,杨海龙,刘慧博,等.河岸边坡草被减流减沙效应及其坡面流水动力学特征[J].水土保持学报,2016,30(2):8-13.
[11] 陈潮,张俊云,赵晓黎,等.植物根系生长形态对边坡浅层稳定性影响数值研究[J].长江科学院院报,2017,34(4):126-130,135.
[12] CHARLTON F G, BROWN P M, BENSON K W. The Hydraulic Geometry of Some Gravel Rivers in Britain[R]. Wallingford: Hydraulics Research Station, 1978.
[13] 郭二辉,方晓,胡婵娟,等.城市河岸带改造类型对土壤保持的影响研究[J].西北林学院学报,2017,32(5):18-22.
[14] 李强,刘国彬,张正,等.黄土风沙区根系强化抗冲性土体构型的定量化研究[J].中国水土保持科学,2017,15(3):99-104.
[15] 白玉川,杨树青,徐海珏.不同河岸植被种植密度情况下河流演化试验分析[J].水力发电学报,2018,37(11):107-120.
[16] 宗全利,冯博,蔡杭兵,等.塔里木河流域河岸植被根系护坡的力学机制[J].岩石力学与工程学报,2018,37(5):1290-1300.
[17] YU Guo-an, LI Zhi-wei, YANG Han-yuan, et al. Effects of Riparian Plant Roots on the Unconsolidated Bank Stability of Meandering Channels in the Tarim River, China [J]. Geomorphology, 2020, 351: 958-970.
[18] 杨涵苑,李志威,余国安.塔里木河干流弯曲河段维持蜿蜒的必要条件[J].泥沙研究,2018,43(2):47-54.
[19] YEN C P.Tree Root Patterns and Erosion Control[C]//Proceedings of the International Workshop on Soil Erosion and its Countermeasures. Soil and Water Conservation Society of Thailand. Bangkok, 1987: 92-111.
[20] 韩路.塔里木河上游荒漠河岸林植物群落动态与优势种群生态特征研究[D].北京:中国农业大学,2014.
[21] FUKUOKA S.Erosion Processes of Natural Riverbank[C]//Proceedings of the 1st International Symposium on Hydraulic Measurement. Beijing:CHES & IAHR,1994:222-229.
[22] 陈志康.植被根系影响下河岸冲刷过程的定量研究[D].石河子:石河子大学,2020.
[23] 陈志康,宗全利,蔡杭兵.基于红柳根系影响的塔里木河岸坡冲刷试验[J].人民黄河,2020,42(1):37-41,52.