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Calving seismicity form iceberg-sea surface interactions

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Full Publication:

Product Type: Journal Article

Year: 2012

Authors: Bartholomaus, T. C., C. F. Larsen, S. R. O'Neel, and M. E. West

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icon Icefields to Oceans (Ice2O)

Suggested Citation:
Bartholomaus, T. C., C. F. Larsen, S. R. O'Neel, and M. E. West. 2012. Calving seismicity form iceberg-sea surface interactions. Journal of Geophysical Research 117(F4):F04029. doi:10.1029/2012JF002513


Iceberg calving is known to release substantial seismic energy, but little is known about the specific mechanisms that produce calving icequakes. At Yahtse Glacier, a tidewater glacier on the Gulf of Alaska, we draw upon a local network of seismometers and focus on 80 hours of concurrent, direct observation of the terminus to show that calving is the dominant source of seismicity. To elucidate seismogenic mechanisms, we synchronized video and seismograms to reveal that the majority of seismic energy is produced during iceberg interactions with the sea surface. Icequake peak amplitudes coincide with the emergence of high velocity jets of water and ice from the fjord after the complete submergence of falling icebergs below sea level. These icequakes have dominant frequencies between 1 and 3 Hz. Detachment of an iceberg from the terminus produces comparatively weak seismic waves at frequencies between 5 and 20 Hz. Our observations allow us to suggest that the most powerful sources of calving icequakes at Yahtse Glacier include iceberg-sea surface impact, deceleration under the influence of drag and buoyancy, and cavitation. Numerical simulations of seismogenesis during iceberg-sea surface interactions support our observational evidence. Our new understanding of iceberg-sea surface interactions allows us to reattribute the sources of calving seismicity identified in earlier studies and offer guidance for the future use of seismology in monitoring iceberg calving.

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