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Sudden aseismic fault slip on the south flank of Kilauea volcano

Peter Cervelli (), Paul Segall, Kaj Johnson, Michael Lisowski and Asta Miklius
Additional contact information
Peter Cervelli: Mitchell Building, Stanford University
Paul Segall: Mitchell Building, Stanford University
Kaj Johnson: Mitchell Building, Stanford University
Michael Lisowski: US Geological Survey, Cascades Volcano Observatory
Asta Miklius: US Geological Survey, Hawaiian Volcano Observatory, Hawaii National Park

Nature, 2002, vol. 415, issue 6875, 1014-1018

Abstract: Abstract One of the greatest hazards associated with oceanic volcanoes is not volcanic in nature, but lies with the potential for catastrophic flank failure1,2. Such flank failure can result in devastating tsunamis and threaten not only the immediate vicinity, but coastal cities along the entire rim of an ocean basin3. Kilauea volcano on the island of Hawaii, USA, is a potential source of such flank failures3,4 and has therefore been monitored by a network of continuously recording geodetic instruments, including global positioning system (GPS) receivers, tilt meters and strain meters. Here we report that, in early November 2000, this network recorded transient southeastward displacements, which we interpret as an episode of aseismic fault slip. The duration of the event was about 36 hours, it had an equivalent moment magnitude of 5.7 and a maximum slip velocity of about 6 cm per day. Inversion of the GPS data reveals a shallow-dipping thrust fault at a depth of 4.5 km that we interpret as the down-dip extension of the Hilina Pali–Holei Pali normal fault system. This demonstrates that continuously recording geodetic networks can detect accelerating slip, potentially leading to warnings of volcanic flank collapse.

Date: 2002
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DOI: 10.1038/4151014a

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