Towards a holistic assessment of landslide susceptibility models: insights from the Central Eastern Alps

IF 2.8 4区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES

Environmental Earth Sciences Pub Date : 2025-02-11 DOI:10.1007/s12665-024-12041-y

Matthias Schlögl, Raphael Spiekermann, Stefan Steger

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引用次数: 0

Abstract

Statistical landslide susceptibility modelling is commonly used for identifying areas with an increased likelihood of landslide occurrence, given evidence of historic events and a potentially arbitrary number of explanatory features. Despite its widespread use, the actual utility and plausibility of the resulting models and maps is sometimes neglected at the expense of model performance. Here we present a landslide susceptibility map for the northern part of Carinthia, Austria, using random forest models within an extensive ensemble modelling and hyperparameter tuning framework. We discuss the importance and effects of the most relevant features retained after feature selection through a geomorphic lens. These results form the basis on a discussion of integrating considerations of geomorphic plausibility, model interpretability and reproducibility next to quantitative model performance metrics for assessing model utility. Including these aspects enhances the applicability of the results for decision-making in landslide risk management, thereby also increasing their reliability under scientific scrutiny.

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统计山体滑坡易发性建模通常用于根据历史事件的证据和潜在的任意数量的解释性特征，确定发生山体滑坡可能性增加的地区。尽管这种方法被广泛使用，但有时会以牺牲模型的性能为代价，而忽略了模型和地图的实际效用和可信度。在此，我们在广泛的集合建模和超参数调整框架内使用随机森林模型，为奥地利卡林西亚州北部地区绘制了滑坡易发性地图。我们通过地貌视角讨论了特征选择后保留的最相关特征的重要性和影响。这些结果是讨论将地貌可信度、模型可解释性和可重复性等因素与评估模型效用的定量模型性能指标相结合的基础。将这些方面包括在内，可增强结果在滑坡风险管理决策中的适用性，从而提高其在科学审查下的可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Environmental Earth Sciences 环境科学-地球科学综合

CiteScore

5.10

自引率

3.60%

发文量

494

审稿时长

8.3 months

期刊介绍： Environmental Earth Sciences is an international multidisciplinary journal concerned with all aspects of interaction between humans, natural resources, ecosystems, special climates or unique geographic zones, and the earth: Water and soil contamination caused by waste management and disposal practices Environmental problems associated with transportation by land, air, or water Geological processes that may impact biosystems or humans Man-made or naturally occurring geological or hydrological hazards Environmental problems associated with the recovery of materials from the earth Environmental problems caused by extraction of minerals, coal, and ores, as well as oil and gas, water and alternative energy sources Environmental impacts of exploration and recultivation – Environmental impacts of hazardous materials Management of environmental data and information in data banks and information systems Dissemination of knowledge on techniques, methods, approaches and experiences to improve and remediate the environment In pursuit of these topics, the geoscientific disciplines are invited to contribute their knowledge and experience. Major disciplines include: hydrogeology, hydrochemistry, geochemistry, geophysics, engineering geology, remediation science, natural resources management, environmental climatology and biota, environmental geography, soil science and geomicrobiology.