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Inferring Magma Dynamics at Veniaminof Volcano Via Application of Ambient Noise
Author(s) -
Bennington N.,
Haney M.,
Thurber C.,
Zeng X.
Publication year - 2018
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2018gl079909
Subject(s) - volcano , geology , seismometer , seismology , magma , ambient noise level , intrusion , lateral eruption , seismic noise , noise (video) , magma chamber , petrology , geophysics , explosive eruption , geochemistry , geomorphology , sound (geography) , artificial intelligence , computer science , image (mathematics)
Ambient noise interferometry has become an increasingly popular tool for monitoring active volcanoes. We apply this method to investigate seven past eruptive periods at Veniaminof volcano, Alaska. Two of the largest eruptions studied show seismic velocity changes associated with preeruptive , coeruptive, and posteruptive volcanic processes. We develop and implement new analysis techniques to determine how seismic velocity changes at Veniaminof are distributed with depth. Spatiotemporal examination of these seismic velocity changes reveals evidence for the distribution of magma storage and the timescale at which magmatic fluids intrude into and reside within these storage regions in the months preceding eruption. We conduct the depth analysis using data recorded on a single seismometer. The same analysis could be applied to any volcano monitored by at least one seismometer in order to detect magmatic activity indicative of impending eruption, specifically the intrusion and migration of magmatic fluids into the volcanic system.