Cascading land surface hazards as a nexus in the Earth system

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 A. Leshchinsky; H. Benjamin Mason; Seulgi Moon; Katherine R. Barnhart; Adam Booth; Jonathan A. Czuba; Scott McCoy; Luke McGuire; Allison Pfeiffer; Jennifer Pierce

doi:10.1126/scsience.adp9559

Cascading land surface hazards as a nexus in the Earth system

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 A. Leshchinsky
, H. Benjamin Mason
, Seulgi Moon
, Katherine R. Barnhart
, Adam Booth
, Jonathan A. Czuba
, Scott McCoy
, Luke McGuire
, Allison Pfeiffer
, Jennifer Pierce

Geosciences

Research output: Contribution to journal › Review article › peer-review

9 Scopus citations

Abstract

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.

Original language	English (US)
Article number	eadp9559
Journal	Science
Volume	388
Issue number	6754
DOIs	https://doi.org/10.1126/scsience.adp9559
State	Published - Jun 26 2025

All Science Journal Classification (ASJC) codes

General

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1126/scsience.adp9559

Cite this

Yanites, B. J., Clark, M. K., Roering, J. J., West, A. J., Zekkos, D., Baldwin, J. W., Cerovski-Darriau, C., Gallen, S. F., Horton, D. E., Kirby, E., Leshchinsky, B. A., Mason, H. B., Moon, S., Barnhart, K. R., Booth, A., Czuba, J. A., McCoy, S., McGuire, L., Pfeiffer, A., & Pierce, J. (2025). Cascading land surface hazards as a nexus in the Earth system. Science, 388(6754), Article eadp9559. https://doi.org/10.1126/scsience.adp9559

@article{be724cdcd17f462b9dd2bf869136cd2a,

title = "Cascading land surface hazards as a nexus in the Earth system",

abstract = "This Review synthesizes progress and outlines a new framework for understanding how land surface hazards interact and propagate as sediment cascades across earth{\textquoteright}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.",

author = "Yanites, \{Brian J.\} and Clark, \{Marin K.\} and Roering, \{Joshua J.\} and West, \{A. Joshua\} and Dimitrios Zekkos and Baldwin, \{Jane W.\} and Corina Cerovski-Darriau and Gallen, \{Sean F.\} and Horton, \{Daniel E.\} and Eric Kirby and Leshchinsky, \{Ben A.\} and Mason, \{H. Benjamin\} and Seulgi Moon and Barnhart, \{Katherine R.\} and Adam Booth and Czuba, \{Jonathan A.\} and Scott McCoy and Luke McGuire and Allison Pfeiffer and Jennifer Pierce",

year = "2025",

month = jun,

day = "26",

doi = "10.1126/scsience.adp9559",

language = "English (US)",

volume = "388",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6754",

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Yanites, BJ, Clark, MK, Roering, JJ, West, AJ, Zekkos, D, Baldwin, JW, Cerovski-Darriau, C, Gallen, SF, Horton, DE, Kirby, E, Leshchinsky, BA, Mason, HB, Moon, S, Barnhart, KR, Booth, A, Czuba, JA, McCoy, S, McGuire, L, Pfeiffer, A & Pierce, J 2025, 'Cascading land surface hazards as a nexus in the Earth system', Science, vol. 388, no. 6754, eadp9559. https://doi.org/10.1126/scsience.adp9559

TY - JOUR

T1 - Cascading land surface hazards as a nexus in the Earth system

AU - Yanites, Brian J.

AU - Clark, Marin K.

AU - Roering, Joshua J.

AU - West, A. Joshua

AU - Zekkos, Dimitrios

AU - Baldwin, Jane W.

AU - Cerovski-Darriau, Corina

AU - Gallen, Sean F.

AU - Horton, Daniel E.

AU - Kirby, Eric

AU - Leshchinsky, Ben A.

AU - Mason, H. Benjamin

AU - Moon, Seulgi

AU - Barnhart, Katherine R.

AU - Booth, Adam

AU - Czuba, Jonathan A.

AU - McCoy, Scott

AU - McGuire, Luke

AU - Pfeiffer, Allison

AU - Pierce, Jennifer

PY - 2025/6/26

Y1 - 2025/6/26

N2 - 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.

AB - 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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UR - https://www.scopus.com/pages/publications/105009371940#tab=citedBy

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DO - 10.1126/scsience.adp9559

M3 - Review article

C2 - 40570111

AN - SCOPUS:105009371940

SN - 0036-8075

VL - 388

JO - Science

JF - Science

IS - 6754

M1 - eadp9559

ER -

Cascading land surface hazards as a nexus in the Earth system

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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