Highly variable friction and slip observed at Antarctic ice stream bed

The slip of glaciers over the underlying bed is the dominant mechanism governing the migration of ice from land into the oceans, with accelerating slip contributing to sea-level rise. Yet glacier slip remains poorly understood, and observational constraints are sparse. Here we use passive seismic ob...

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Veröffentlicht in:Nature geoscience 2023-07, Vol.16 (7), p.612-618
Hauptverfasser: Hudson, T. S., Kufner, S. K., Brisbourne, A. M., Kendall, J. M., Smith, A. M., Alley, R. B., Arthern, R. J., Murray, T.
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Sprache:eng
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Zusammenfassung:The slip of glaciers over the underlying bed is the dominant mechanism governing the migration of ice from land into the oceans, with accelerating slip contributing to sea-level rise. Yet glacier slip remains poorly understood, and observational constraints are sparse. Here we use passive seismic observations to measure both frictional shear stress and slip at the bed of the Rutford Ice Stream in Antarctica using 100,000 repetitive stick-slip icequakes. We find that basal shear stresses and slip rates vary from 10 4 to 10 7  Pa and 0.2 to 1.5 m per day, respectively. Friction and slip vary temporally over the order of hours, and spatially over 10s of metres, due to corresponding variations in effective normal stress and ice–bed interface material. Our findings suggest that the bed is substantially more complex than currently assumed in ice stream models and that basal effective normal stresses may be significantly higher than previously thought. Our observations can provide constraints on the basal boundary conditions for ice-dynamics models. This is critical for constraining the primary contribution of ice mass loss in Antarctica and hence for reducing uncertainty in sea-level rise projections. Passive seismic observations from the Rutford Ice Stream in Antarctica reveal a highly complex bed and substantial variability in friction and slip rates at the ice–bed interface.
ISSN:1752-0894
1752-0908
DOI:10.1038/s41561-023-01204-4