Seismic Monitoring of Mass Movements and Cascading Surface Hazards in Mountain Regions
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更新:2026-07-16 10:09:54 浏览:0次
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摘要
Surface mass movements such as debris flows, landslides, and outburst floods often initiate hazard cascades that amplify impacts far beyond their source regions, yet their dynamics and evolution remain difficult to observe in real time. Recent advances show that seismic signals provide a unifying, non-invasive tool to investigate these processes across scales. We demonstrate that high-frequency seismic radiation from debris flows can be physically linked to basal force fluctuations generated by both random single-particle impacts and collective multi-particle force chains. Accounting for these mechanisms explains observed non-linear relations between flow depth and seismic amplitude, and enables improved constraints on bulk flow properties.
Seismic observations further illuminate complex hazard cascades involving landslide damming, dam breach, and downstream flooding. We show that different stages of these cascades radiate seismic energy in distinct ways, with some flood processes weakly detectable at distance due to channel stability, while dam-breach dynamics can generate clear seismic precursors well before hazardous discharge levels are reached. Incorporating seismic constraints into numerical models improves the reconstruction of poorly instrumented events and enhances early-warning potential. Finally, we show that scalable seismic monitoring strategies can extend effective coverage to remote, under-instrumented mountain regions at a fraction of the cost of conventional networks. Together, these results establish seismic monitoring as an integrated framework linking particle-scale physics and cascading hazards, with important implications for real-time warning and long-term risk management in mountainous environments.
关键词
Mass movement,Environtal seismology,Early warning
稿件作者
Zhen Zhang
The Chinese University of Hong Kong
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