李姜瑶, 余冬梅, 张西营, 等. 2022. 西宁盆地黄土区边坡土体含水量对植物根-土复合体抗剪强度影响的试验研究[J]. 工程地质学报, 30(2): 281-292. doi: 10.13544/j.cnki.jeg.2020-006.
    引用本文: 李姜瑶, 余冬梅, 张西营, 等. 2022. 西宁盆地黄土区边坡土体含水量对植物根-土复合体抗剪强度影响的试验研究[J]. 工程地质学报, 30(2): 281-292. doi: 10.13544/j.cnki.jeg.2020-006.
    Li Jiangyao, Yu Dongmei, Zhang Xiying, et al. 2022. Effect of soil moisture content on shear strength of rooted soil in loess regions of Xining Basin[J]. Journal of Engineering Geology, 30(2): 281-292. doi: 10.13544/j.cnki.jeg.2020-006.
    Citation: Li Jiangyao, Yu Dongmei, Zhang Xiying, et al. 2022. Effect of soil moisture content on shear strength of rooted soil in loess regions of Xining Basin[J]. Journal of Engineering Geology, 30(2): 281-292. doi: 10.13544/j.cnki.jeg.2020-006.

    西宁盆地黄土区边坡土体含水量对植物根-土复合体抗剪强度影响的试验研究

    EFFECT OF SOIL MOISTURE CONTENT ON SHEAR STRENGTH OF ROOTED SOIL IN LOESS REGIONS OF XINING BASIN

    • 摘要: 为进一步研究植物根系的固土护坡力学效应,探讨边坡土体含水量对植物根系增强土体抗剪强度的影响,以西宁盆地长岭沟流域作为研究区,选取两种优势灌木植物柠条锦鸡儿(Caragana korshinskii Kom.)、白刺(Nitraria sphaerocarpa Maxim.)和两种优势草本植物芨芨草(Achnatherum splendens(Trin.)Nevski)、细茎冰草(Agropyron trachycaulum Linn. Gaertn.)作为供试种,设置土体含水量分别为6%、10%、14%、18%、22% 5种不同梯度条件,制备根-土复合体和不含根系素土扰动试样,并在室内分别进行直剪试验,分析5种含水量条件下根-土复合体抗剪强度指标的变化规律。试验结果表明:4种草本和灌木植物根系具有显著提高边坡土体抗剪切变形的能力,随着含水量梯度的增加,素土与根-土复合体抗剪切变形能力减弱;当土体含水量相同时,与不含根系素土试样相比,根-土复合体的黏聚力普遍大于素土,而其内摩擦角变化相对较小,其中根-土复合体黏聚力的增长量为1.94~12.17 kPa,增长幅度为34.50% ~360.69%;素土与根-土复合体的黏聚力随土体含水量的增加呈二次多项式函数关系递减,且其内摩擦角亦随着含水量增加而降低,当土体含水量由6%增加至22%时,黏聚力降低幅度为28.50% ~61.78%,内摩擦角降幅为38.73%。本项研究成果对于进一步探讨高寒干旱环境草本和灌木根-土复合体抗剪强度的影响因素,以及利用乡土优势植物开展植被护坡具有重要理论研究价值和实际指导意义。

       

      Abstract: This paper aims to deeply investigate the role of vegetation roots in faxing soil and increasing soil strength and probe into the influence of soil moisture content on soil strength. It selects Changlinggou catchment in Xining Basin as the tested site. Four types of local vegetation were chosen as the tested species. They are Caragana korshinskii Kom., Nitraria sphaerocarpa Maxim., Achnatherum splendens(Trin.)Nevski, and Agropyron trachycaulum Linn. Gaertn. Five sets of undisturbed and remolded rooted soil with soil moisture contents increasing from 6% to 22% were prepared for indoor direct shear tests. The results show that all of the vegetation roots possess a capacity of significantly resisting deformation of rooted soil, but as moisture contents increase, the root role in resisting soil deformation is reduced. At the same moisture content, the cohesion of rooted soil is generally larger than that of non-rooted soil. The growth rate of cohesion is 1.94~12.17 kPa and the growth amplitude is 34.50% ~360.69% in comparison to the non-rooted soil. However, the same trend did not occur in the internal friction angle. A binomial function can describe the relation of soil moisture content with its cohesion for all of the soil. Moreover, as the moisture content increases from 6% to 22%, the cohesion declines from 28.50% to 61.78% and the internal friction angle declines by 38.73%. The works possess theoretical and practical significance on further exploring the factors influencing the shear strength of herb and shrub root-soil composite systems, adopting dominant local plants to carry out slope protection, and effectively preventing and controlling regional soil erosion, shallow landslide and other geological disasters.

       

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