Seismic Response of the Katmai Volcanoes to the December 6, 1999 Magnitude 7.0 Karluk Lake Earthquake, Alaska

A sudden increase in earthquake activity was observed beneath volcanoes in the Katmai area on the Alaska Peninsula immediately following the 6 December 1999 magnitude (MW) 7.0 Karluk Lake earthquake beneath southern Kodiak Island, Alaska. The observed increase in earthquake activity consisted of sma...

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Bibliographic Details
Published in:Bulletin of the Seismological Society of America
Main Authors: Power, J. A., Moran, S. C., McNutt, Stephen R., Stihler, S. D., Sanchez, J. J.
Format: Article in Journal/Newspaper
Language:unknown
Published: Digital Commons @ University of South Florida 2001
Subjects:
Earth Sciences
Martin Mount
Mount Martin
Trident
Kodiak
Alaska
Online Access:https://digitalcommons.usf.edu/geo_facpub/290
https://doi.org/10.1785/0120000054
Description
Summary:A sudden increase in earthquake activity was observed beneath volcanoes in the Katmai area on the Alaska Peninsula immediately following the 6 December 1999 magnitude (MW) 7.0 Karluk Lake earthquake beneath southern Kodiak Island, Alaska. The observed increase in earthquake activity consisted of small (ML < 1.3), shallow (Z < 5.0 km) events. These earthquakes were located beneath Mount Martin, Mount Mageik, Trident Volcano, and the Katmai caldera and began within the coda of the Karluk Lake mainshock. All of these earthquakes occurred in areas and magnitude ranges that are typical for the background seismicity observed in the Katmai area. Seismicity rates returned to background levels 8 to 13 hours after the Karluk Lake mainshock. The close temporal relationship with the Karluk Lake mainshock, the onset of activity within the mainshock coda, and the simultaneous increase beneath four separate volcanic centers all suggest these earthquakes were remotely triggered. Modeling of the Coulomb stress changes from the mainshock for optimally oriented faults suggests negligible change in static stress beneath the Katmai volcanoes. This result favors models that involve dynamic stresses as the mechanism for triggered seismicity at Katmai.

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