水圈
生物圈
地球系统科学
危害
地球科学
Nexus(标准)
环境资源管理
山崩
弹性(材料科学)
自然灾害
气候变化
环境科学
地质学
计算机科学
地理
气象学
生态学
地貌学
海洋学
物理
嵌入式系统
生物
热力学
作者
Brian J. Yanites,Marin K. Clark,Joshua J. Roering,A. Joshua West,Dimitrios Zekkos,Jane W. Baldwin,Corina Cerovski‐Darriau,Sean F. Gallen,Daniel E. Horton,Eric Kirby,Ben Leshchinsky,H. Benjamin Mason,Seulgi Moon,Katherine R. Barnhart,Adam M. Booth,Jonathan A. Czuba,Scott McCoy,Luke A. McGuire,Allison Pfeiffer,Jennifer Pierce
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2025-06-26
卷期号:388 (6754)
被引量:5
标识
DOI:10.1126/science.adp9559
摘要
This Review synthesizes progress and outlines a new framework for understanding how land surface hazards interact and propagate as sediment cascades across Earth’s surface, influenced by interactions among the atmosphere, biosphere, hydrosphere, and solid Earth. Recent research highlights a gap in understanding these interactions on human timescales, given rapid climatic change and urban expansion into hazard-prone zones. We review how surface processes such as coseismic landslides and post-fire debris flows form a complex sequence of events that exacerbate hazard susceptibility. Moreover, innovations in modeling, remote sensing, and critical zone science can offer new opportunities for quantifying cascading hazards. Looking forward, societal resilience can increase by transforming our understanding of cascading hazards through advances in integrating data into comprehensive models that link across Earth systems.
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