Monitoring the risk of a tailings dam collapse through spectral analysis of satellite InSAR time-series data

IF 3.9 3区 环境科学与生态学 Q1 ENGINEERING, CIVIL Stochastic Environmental Research and Risk Assessment Pub Date : 2024-07-01 DOI:10.1007/s00477-024-02713-3
Sourav Das, Anuradha Priyadarshana, Stephen Grebby
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Abstract

Slope failures possess destructive power that can cause significant damage to both life and infrastructure. Monitoring slopes prone to instabilities is therefore critical in mitigating the risk posed by their failure. The purpose of slope monitoring is to detect precursory signs of stability issues, such as changes in the rate of displacement with which a slope is deforming. This information can then be used to predict the timing or probability of an imminent failure in order to provide an early warning. Most approaches to predicting slope failures, such as the inverse velocity method, focus on predicting the timing of a potential failure. However, such approaches are deterministic and require some subjective analysis of displacement monitoring data to generate reliable timing predictions. In this study, a more objective, probabilistic-learning algorithm is proposed to detect and characterise the risk of a slope failure, based on spectral analysis of serially correlated displacement time-series data. The algorithm is applied to satellite-based interferometric synthetic radar (InSAR) displacement time-series data to retrospectively analyse the risk of the 2019 Brumadinho tailings dam collapse in Brazil. Two potential risk milestones are identified and signs of a definitive but emergent risk (27 February 2018-26 August 2018) and imminent risk of collapse of the tailings dam (27 June 2018-24 December 2018) are detected by the algorithm as the empirical points of inflection and maximum on a risk trajectory, respectively. Importantly, this precursory indication of risk of failure is detected as early as at least five months prior to the dam collapse on 25 January 2019. The results of this study demonstrate that the combination of spectral methods and second order statistical properties of InSAR displacement time-series data can reveal signs of a transition into an unstable deformation regime, and that this algorithm can provide sufficient early-warning that could help mitigate catastrophic slope failures.

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通过卫星 InSAR 时间序列数据的光谱分析监测尾矿坝溃坝风险
斜坡崩塌具有强大的破坏力,可对生命和基础设施造成重大损害。因此,对容易失稳的斜坡进行监测对于降低其崩塌带来的风险至关重要。斜坡监测的目的是检测稳定性问题的前兆,如斜坡变形时位移速率的变化。这些信息可用于预测即将发生崩塌的时间或概率,以便发出预警。大多数预测斜坡坍塌的方法,如反速度法,都侧重于预测潜在坍塌的时间。然而,这些方法都是确定性的,需要对位移监测数据进行一些主观分析,才能得出可靠的时间预测。本研究提出了一种更客观的概率学习算法,基于对序列相关位移时间序列数据的频谱分析,来检测和描述斜坡崩塌的风险。该算法应用于基于卫星的干涉合成雷达(InSAR)位移时间序列数据,以回顾性分析 2019 年巴西布鲁马迪尼奥尾矿坝溃坝的风险。该算法识别了两个潜在的风险里程碑,并将确定但正在出现的风险迹象(2018 年 2 月 27 日至 2018 年 8 月 26 日)和即将发生的尾矿坝溃坝风险迹象(2018 年 6 月 27 日至 2018 年 12 月 24 日)分别检测为风险轨迹上的经验拐点和最大值。重要的是,早在 2019 年 1 月 25 日溃坝前至少 5 个月,这种溃坝风险的先兆迹象就已被检测到。这项研究的结果表明,InSAR 位移时间序列数据的频谱方法和二阶统计特性相结合,可以揭示向不稳定变形机制过渡的迹象,而且这种算法可以提供充分的预警,有助于减轻灾难性斜坡垮塌。
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来源期刊
CiteScore
7.10
自引率
9.50%
发文量
189
审稿时长
3.8 months
期刊介绍: Stochastic Environmental Research and Risk Assessment (SERRA) will publish research papers, reviews and technical notes on stochastic and probabilistic approaches to environmental sciences and engineering, including interactions of earth and atmospheric environments with people and ecosystems. The basic idea is to bring together research papers on stochastic modelling in various fields of environmental sciences and to provide an interdisciplinary forum for the exchange of ideas, for communicating on issues that cut across disciplinary barriers, and for the dissemination of stochastic techniques used in different fields to the community of interested researchers. Original contributions will be considered dealing with modelling (theoretical and computational), measurements and instrumentation in one or more of the following topical areas: - Spatiotemporal analysis and mapping of natural processes. - Enviroinformatics. - Environmental risk assessment, reliability analysis and decision making. - Surface and subsurface hydrology and hydraulics. - Multiphase porous media domains and contaminant transport modelling. - Hazardous waste site characterization. - Stochastic turbulence and random hydrodynamic fields. - Chaotic and fractal systems. - Random waves and seafloor morphology. - Stochastic atmospheric and climate processes. - Air pollution and quality assessment research. - Modern geostatistics. - Mechanisms of pollutant formation, emission, exposure and absorption. - Physical, chemical and biological analysis of human exposure from single and multiple media and routes; control and protection. - Bioinformatics. - Probabilistic methods in ecology and population biology. - Epidemiological investigations. - Models using stochastic differential equations stochastic or partial differential equations. - Hazardous waste site characterization.
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