石漠化区多花木蓝和双荚决明根土复合体抗剪特性研究

Shearing Characteristics of Root-soil Compisite of Indigofera amblyanthy and Cassia bicapsularis in Rocky Desertification Area

  • 摘要: 石漠化地区土壤易流失,植被恢复难度大。选取贵州石漠化区有代表性的灌木树种多花木蓝和双荚决明为研究对象,采用四联直剪仪对多花木蓝和双荚决明根-石灰土重塑试样进行直剪试验,主要分析了根径、法向压力和含水率对根土复合体抗剪特性的影响。结果表明:植物根系的存在对土体抗剪强度有积极作用,主要以加筋的形式增强土体的抗剪强度,以根径2~3 mm对石漠化地区固坡护坡效果较好。法向压力对复合体抗剪特性的影响最显著,因其影响复合体的密实性来间接影响抗剪强度,表现为法向压力越大,土体密实性越好,根土复合体抗剪强度越大。根土复合体的抗剪强度随含水率的增加呈先增加后减小的趋势,在含水率14.3%时,根土复合体抗剪强度最大,固土效果最佳。2种植物中,多花木蓝总体上较双荚决明更能增强土体抗剪强度。本研究可为石漠化地区边坡绿化和水土保持树种的筛选及根径大小的控制提供参考。

     

    Abstract: Soil is easily lost in rocky desertification areas, and vegetation restoration is difficult. Selecting representative shrub species, Indigofera amblyanthy and Cassia bicapsularis, in the rocky desertification area of Guizhou as research object. Direct shear test on I. amblyanthy and C. bicapsularis root-lime soil remolded specimens using a quadruple direct shear. The effects of root diameter, normal pressure and water content on the shear properties of root-soil composites were analyzed. Results show that the existence of plant roots has a positive effect on the shear strength of the soil. The shear strength of the soil is mainly strengthened in the form of reinforcement. The effect of slope protection is 2−3 mm on the slope protection in rocky desertification areas. The normal pressure has the most significant effect on the shear properties of the composite. It affects the shear strength indirectly due to its influence on the compactness of the composite. The greater the normal pressure, the better the soil compaction and the shear resistance of the root-soil composite. The shear strength of the root-soil composite increases first and then decreases with the increase of water content. At the moisture content of 14.3%, the root-soil composite has the highest shear strength and the best soil-fixing effect. Among the 2 plants, I. amblyanthy is more able to enhance the shear strength of the soil than C. bicapsularis. This study can provide reference for the screening of slope greening and soil and water conservation tree species and the control of root diameter in rocky desertification areas.

     

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