State-of-the-art review on plant-based solutions for soil improvement

Shanshan Li, Ziteng Wang, Hans Henning Stutz
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引用次数: 2

Abstract

Vegetation has been used as a means in geotechnical engineering for soil improvement and erosion control. This paper aims to present a state-of-the-art review and future prospective on soil improvement and reinforcement with plants, mainly from a perspective of plant mechanical effects. The mechanics of roots and root-soil composite are reviewed with regard to experiments, including root mechanical tests, direct shear tests, pullout tests and triaxial tests. Various factors influencing root reinforcement are characterized and discussed to explain root-soil interactions and related soil strengthening mechanisms. Considering cost and efficiency, extreme climates, and the conflicting mechanisms of plant growth and soil improvement, researchers have introduced nature-based water-soluble polymers (WSPs) into soil improvement to promote vegetation establishment and provide additional binding strength between soil particles. Despite the benefits, existing related researches and concepts are scarce, and there is still a significant knowledge gap in the coupling effect of WSP and plants for soil improvement. The review indicates that the combination of vegetation and WSP has the potential to create “trade-off” and “complementarity” for progressive soil improvement. Finally, new research topics in the field of soil improvement with plants are identified in the review.

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基于植物的土壤改良解决方案的最新进展综述
植被已被用作岩土工程中土壤改良和侵蚀控制的一种手段。本文主要从植物力学效应的角度,对植物改良和加固土壤的最新进展和未来前景进行了综述。从根系力学试验、直剪试验、拔出试验和三轴试验等方面综述了根系与根土复合材料的力学性能。对影响根系加固的各种因素进行了表征和讨论,以解释根土相互作用和相关的土壤加固机制。考虑到成本和效率、极端气候以及植物生长和土壤改良的相互冲突的机制,研究人员将基于自然的水溶性聚合物(WSP)引入土壤改良中,以促进植被的建立,并在土壤颗粒之间提供额外的结合强度。尽管有这些好处,但现有的相关研究和概念很少,而且在WSP和植物对土壤改良的耦合效应方面仍存在显著的知识差距。综述表明,植被和WSP的结合有可能为渐进式土壤改良创造“权衡”和“互补”。最后,综述了植物土壤改良领域的新研究课题。
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