Hidden cascades of seismic ice stream deformation

Andreas Fichtner; Coen Hofstede; Brian L.N. Kennett; Anders Svensson; Julien Westhoff; Fabian Walter; Jean Paul Ampuero; Eliza Cook; Dimitri Zigone; Daniela Jansen; Olaf Eisen

doi:10.1126/science.adp8094

Hidden cascades of seismic ice stream deformation

Andreas Fichtner, Coen Hofstede, Brian L.N. Kennett, Anders Svensson, Julien Westhoff, Fabian Walter, Jean Paul Ampuero, Eliza Cook, Dimitri Zigone, Daniela Jansen, Olaf Eisen

Research School of Earth Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Ice streams are major regulators of sea level change. However, standard viscous flow simulations of their evolution have limited predictive power owing to incomplete understanding of involved processes. On the Greenland ice sheet, borehole fiber-optic observations revealed a brittle deformation mode that is incompatible with viscous flow, over length scales similar to the resolution of modern ice sheet models: englacial ice quake cascades that are unobservable at the surface. Nucleating near volcanism-related impurities that promote grain boundary cracking, the ice quake cascades appear as a macroscopic form of crystal-scale wild plasticity. A conservative estimate indicates that seismic cascades are likely to produce strain rates that are comparable in amplitude with those measured geodetically, providing a plausible missing link between current ice sheet models and observations.

Original language	English
Pages (from-to)	858-864
Number of pages	7
Journal	Science (New York, N.Y.)
Volume	387
Issue number	6736
DOIs	https://doi.org/10.1126/science.adp8094
Publication status	Published - Feb 2025

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title = "Hidden cascades of seismic ice stream deformation",

abstract = "Ice streams are major regulators of sea level change. However, standard viscous flow simulations of their evolution have limited predictive power owing to incomplete understanding of involved processes. On the Greenland ice sheet, borehole fiber-optic observations revealed a brittle deformation mode that is incompatible with viscous flow, over length scales similar to the resolution of modern ice sheet models: englacial ice quake cascades that are unobservable at the surface. Nucleating near volcanism-related impurities that promote grain boundary cracking, the ice quake cascades appear as a macroscopic form of crystal-scale wild plasticity. A conservative estimate indicates that seismic cascades are likely to produce strain rates that are comparable in amplitude with those measured geodetically, providing a plausible missing link between current ice sheet models and observations.",

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T1 - Hidden cascades of seismic ice stream deformation

AU - Fichtner, Andreas

AU - Hofstede, Coen

AU - Kennett, Brian L.N.

AU - Svensson, Anders

AU - Westhoff, Julien

AU - Walter, Fabian

AU - Ampuero, Jean Paul

AU - Cook, Eliza

AU - Zigone, Dimitri

AU - Jansen, Daniela

AU - Eisen, Olaf

PY - 2025/2

Y1 - 2025/2

N2 - Ice streams are major regulators of sea level change. However, standard viscous flow simulations of their evolution have limited predictive power owing to incomplete understanding of involved processes. On the Greenland ice sheet, borehole fiber-optic observations revealed a brittle deformation mode that is incompatible with viscous flow, over length scales similar to the resolution of modern ice sheet models: englacial ice quake cascades that are unobservable at the surface. Nucleating near volcanism-related impurities that promote grain boundary cracking, the ice quake cascades appear as a macroscopic form of crystal-scale wild plasticity. A conservative estimate indicates that seismic cascades are likely to produce strain rates that are comparable in amplitude with those measured geodetically, providing a plausible missing link between current ice sheet models and observations.

AB - Ice streams are major regulators of sea level change. However, standard viscous flow simulations of their evolution have limited predictive power owing to incomplete understanding of involved processes. On the Greenland ice sheet, borehole fiber-optic observations revealed a brittle deformation mode that is incompatible with viscous flow, over length scales similar to the resolution of modern ice sheet models: englacial ice quake cascades that are unobservable at the surface. Nucleating near volcanism-related impurities that promote grain boundary cracking, the ice quake cascades appear as a macroscopic form of crystal-scale wild plasticity. A conservative estimate indicates that seismic cascades are likely to produce strain rates that are comparable in amplitude with those measured geodetically, providing a plausible missing link between current ice sheet models and observations.

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JF - Science (New York, N.Y.)

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Hidden cascades of seismic ice stream deformation

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