Glacial Earthquakes and Precursory Seismicity Associated With Thwaites Glacier Calving

We observe two (~MS 3) long‐period (10–30 s) seismic events that originate from the terminus of Thwaites Glacier, Antarctica. Serendipitous acquisition of satellite images confirm that the seismic events were glacial earthquakes generated during the capsizing of icebergs. The glacial earthquakes wer...

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Bibliographic Details
Main Authors: Winberry, J. Paul, Huerta, Audrey D., Anandakrishnan, Sridhar, Aster, Richhard C., Nyblade, Andrew A., Wiens, Douglas A.
Format: Text
Language:unknown
Published: ScholarWorks@CWU 2020
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Online Access:https://digitalcommons.cwu.edu/cotsfac/231
https://digitalcommons.cwu.edu/cgi/viewcontent.cgi?article=1231&context=cotsfac
Description
Summary:We observe two (~MS 3) long‐period (10–30 s) seismic events that originate from the terminus of Thwaites Glacier, Antarctica. Serendipitous acquisition of satellite images confirm that the seismic events were glacial earthquakes generated during the capsizing of icebergs. The glacial earthquakes were preceded by 6 days of discrete high‐frequency seismic events that can be observed at distances exceeding 250 km. The high‐frequency seismicity displays an increasing rate of occurrence, culminating in several hours of sustained tremor coeval with the long‐period events. A series of satellite images collected during this precursory time period show that the high‐frequency events and tremor are the result of accelerating growth of ancillary fractures prior to the culminating calving event. This study indicates that seismic data have the potential to elucidate the processes by which Thwaites Glacier discharges into the ocean, thus improving our ability to constrain future sea level rise.