• 全国中文核心期刊
  • 中国科技核心期刊
  • 美国工程索引(EI)收录期刊
  • Scopus数据库收录期刊
倪静, 王子腾, 耿雪玉. 植物-生物聚合物联合法固土的试验研究[J]. 岩土工程学报, 2020, 42(11): 2131-2137. DOI: 10.11779/CJGE202011019
引用本文: 倪静, 王子腾, 耿雪玉. 植物-生物聚合物联合法固土的试验研究[J]. 岩土工程学报, 2020, 42(11): 2131-2137. DOI: 10.11779/CJGE202011019
NI Jing, WANG Zi-teng, GENG Xue-yu. Experimental study on combined plant-biopolymer method for soil stabilization[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(11): 2131-2137. DOI: 10.11779/CJGE202011019
Citation: NI Jing, WANG Zi-teng, GENG Xue-yu. Experimental study on combined plant-biopolymer method for soil stabilization[J]. Chinese Journal of Geotechnical Engineering, 2020, 42(11): 2131-2137. DOI: 10.11779/CJGE202011019

植物-生物聚合物联合法固土的试验研究

Experimental study on combined plant-biopolymer method for soil stabilization

  • 摘要: 植物固土法易于兼顾土壤圈及生态系统功能稳定,但在植物生长初期(根系数量及长度不足)较难达到理想效果。因而提出植物-生物聚合物联合法,生物聚合物黏性溶液既可改善植物生长初期土体的强度,又可提供植物生长所需的碳、氮等元素。为此,设计两阶段的燕麦-β葡聚糖联合法固土试验,分别讨论燕麦根系及β葡聚糖在植物生长初期及后期所起的固土作用,并与燕麦根系、β葡聚糖分别加固的土及纯土进行比较。结果表明:植物生长摄取水分及根系挤土引起土体裂缝,使燕麦根系加固土的含水率低于纯土,但联合法中添加的β葡聚糖可提高土壤的保水性,另外,β葡聚糖可提高土壤电导率(即肥力),有利于植物的生长;无论在植物生长初期还是后期,联合法固土试样的抗剪强度均最高,一方面β葡聚糖能在植物生长初期,通过加强土颗粒间的黏结效应改善土体强度,另一方面燕麦根系对植物生长后期的土体强度起了较大的改善作用(此时,由于β葡聚糖分解被植物根系摄取及被土壤微生物吸收利用,固土效果已减弱)。论文研究成果将有助于进一步推进绿色土壤加固技术、扩展植物护坡工程的适用性。

     

    Abstract: The ground improvement using plants is prone to take into account the stability of the soil and ecosystem functions, however, it is difficult to achieve an ideal effect at the initial stage of plant growth when both the number of roots and the length are not sufficient. Therefore, a combined plant-biopolymer reinforcing method is proposed. The viscous solution of biopolymers can improve the soil strength at the initial stage of plant growth, and meanwhile provide carbon, nitrogen and other nutrients needed for plant growth. To this end, a two-stage experiment is designed to investigate the effects of oat roots and β-glucan on strengthening soil at the early and late stages of plant growth. The soils improved by the oat roots or β-glucan only, and untreated soil samples are also prepared for comparison. The results show that the water content of oat root-treated soils is lower than that of untreated soils due to water absorption and soil cracks caused by root squeezing. The β-glucan can improve soil electrical conductivity (fertility) and reserve water by its biopolymer hydrogels, which is conducive to plant growth. Furthermore, at both stages of plant growth, the soil treated by the combined method has the highest shear strength. On the one hand, the β-glucan can improve the soil strength by improving the bond between the soil particles at the initial stage. On the other hand, the oat roots play an important role in improving the soil strength at the late stage, while the β-glucan is decomposed and taken up by plant roots and absorbed by soil microorganisms, providing limited strengthening effect. The above results will further promote the green soil reinforcement technology and expand the applicability of plant to slope protection.

     

/

返回文章
返回