Decoding vegetation's role in landslide susceptibility mapping: An integrated review of techniques and future directions

Yangyang Li , Wenhui Duan
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Abstract

Rainfall-induced landslides, exacerbated by climate change, require urgent attention to identify vulnerable regions and propose effective risk mitigation measures. Extensive research underscores the significant impact of vegetation on soil properties and slope stability, emphasizing the necessity to incorporate vegetation effects into regional landslide susceptibility mapping. This review thoroughly examines research integrating vegetation into landslide susceptibility mapping, encompassing qualitative, semi-quantitative, and quantitative forecasting methods. It highlights the importance of incorporating vegetation aspects into these methods for comprehensive and accurate landslide susceptibility assessment. This review explores the diverse roles of vegetation in slope stability, covering both aggregated impacts and individual influences, including mechanical and hydrological effects on soil properties, as well as the implications of evapotranspiration and rainwater interception on slope stability. While aggregated roles are integrated into non-deterministic methods as input layers, individual roles are considered in deterministic methods. In the application of deterministic methods, it is noteworthy that a considerable number of studies primarily concentrate on the mechanical impact, particularly the reinforcement provided by root cohesion. The review also explores limitations and highlights future research prospects. In the context of mapping landslide susceptibility amid changing climatic conditions, data-driven techniques encounter challenges, while deterministic methods present their advantages. Stressing the significance of hydrological impacts, the paper recommends incorporating vegetation influences on unsaturated soil properties, including the soil water characteristic curve and soil permeability, along with pre-wetting suction due to evapotranspiration and potential rainwater interception.

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解码植被在滑坡易发性绘图中的作用:技术综合评述与未来方向
降雨引发的山体滑坡因气候变化而加剧,亟需关注,以确定易受影响的地区,并提出有效的风险缓解措施。大量研究强调了植被对土壤特性和边坡稳定性的重要影响,强调了将植被影响纳入区域滑坡易发性绘图的必要性。本综述全面考察了将植被纳入滑坡易发性绘图的研究,包括定性、半定量和定量预测方法。综述强调了将植被因素纳入这些方法对于全面、准确地评估滑坡易发性的重要性。这篇综述探讨了植被在边坡稳定性方面的各种作用,包括总体影响和个体影响,包括对土壤特性的机械和水文影响,以及蒸散和雨水截流对边坡稳定性的影响。总体作用作为输入层被纳入非确定性方法,而个体作用则在确定性方法中加以考虑。值得注意的是,在确定性方法的应用中,相当多的研究主要集中在机械影响上,特别是根系内聚力提供的加固作用。综述还探讨了局限性,并强调了未来的研究前景。在绘制不断变化的气候条件下的滑坡易发性地图方面,数据驱动技术遇到了挑战,而确定性方法则具有优势。论文强调了水文影响的重要性,建议纳入植被对非饱和土壤特性的影响,包括土壤水特征曲线和土壤渗透性,以及蒸散和潜在雨水截流造成的预湿吸力。
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