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Anti-erosion performance of microbial combined fiber reinforced loess slope

Baoquan WANG1Jiaheng XIE1Liang GUO1( )Fengwei LIU2Jia WANG1
College of Earth Science and Technology, Southwest Petroleum University, Chengdu 610500, P. R. China
China Railway Fourth Bureau Group Investment and Operation Co., Ltd., Hefei 230041, P. R. China
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Abstract

Rainfall erosion seriously threatens the stability of soil slopes and even induces failure. In this study, jute fiber and the microbial-induced calcium carbonate precipitation technique were combined to carry out ecological reinforcement of loess slopes. A simulated rainfall test was used to analyze the improvement effect and influencing factors of slope erosion resistance. Scanning electron microscope and energy dispersive X-ray spectrometer were used to analyze the mechanism of mitigating rainfall erosion on loess slope from a micro perspective, and to explore the feasible means of mitigating rainfall erosion on loess slope. The results show that: the addition of jute fiber can help to improve the rainfall erosion resistance of microbial-mineralized loess, especially for the medium and high content of medium and long size fibers; the fiber-reinforced loess treated by biomineralization can significantly resist the erosion of weak rainfall (6 mm/h) and short-term heavy rainfall (45 mm/h); under heavy rainfall conditions, the erosion resistance increases with the increase of fiber content, but the increase range gradually decreases, and the highest erosion resistance increases to 64.2%; with the increase of fiber length and fiber content, the thickness difference between C2L5 and C8L25 is 2.86 times. There are two cementation modes in the surface layer of fiber-reinforced microbial mineralized loess: the “intergranular filling” mode formed by the precipitation of calcium carbonate crystals in intergranular pores, and the “wrapped cementation” mode of calcium carbonate formed by wrapping soil particles through fiber connection.

CLC number: TU444 Document code: A Article ID: 2096-6717(2026)02-0019-11

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Journal of Civil and Environmental Engineering
Pages 19-29

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Cite this article:
WANG B, XIE J, GUO L, et al. Anti-erosion performance of microbial combined fiber reinforced loess slope. Journal of Civil and Environmental Engineering, 2026, 48(2): 19-29. https://doi.org/10.11835/j.issn.2096-6717.2024.012

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Received: 28 September 2023
Published: 01 April 2026
© Journal of Civil and Environmental Engineering