Ash production and dispersal from sustained low-intensity Mono-Inyo eruptions

Ash production and dispersal from sustained low-intensity Mono-Inyo eruptions

Recent rhyolitic volcanism has demonstrated that prolonged low-intensity ash venting may accompany effusive dome formation. We examine the possibility and some consequences of episodes of extended, weak ash venting at the rhyolitic Mono-Inyo chain in Eastern California. We describe ash-filled cracks...

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Bibliographic Details
Published in:Bulletin of volcanology 2016-08, Vol.78 (8), p.1-13, Article 57
Main Authors: Black, Benjamin A., Manga, Michael, Andrews, Benjamin
Format: Article
Language:eng
Subjects:
Ash venting
Ash3d
Dispersal
Earth and Environmental Science
Earth Sciences
ENVIRONMENTAL SCIENCES
Geology
Geophysics/Geodesy
GEOSCIENCES
Mineralogy
Mono-Inyo eruptions
Research Article
Rhyolitic volcanism
Sedimentology
Volcanoes
Volcanology
X-ray computed tomography
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Summary:Recent rhyolitic volcanism has demonstrated that prolonged low-intensity ash venting may accompany effusive dome formation. We examine the possibility and some consequences of episodes of extended, weak ash venting at the rhyolitic Mono-Inyo chain in Eastern California. We describe ash-filled cracks within one of the youngest domes, Panum Crater, which provide a textural record of ash venting during dome effusion. We use synchrotron-based X-ray computed tomography to characterize the particles in these tuffisites. Particle sizes in well-sorted tuffisite layers agree well with grain size distributions observed during weak ash venting at Soufrière Hills Volcano, Montserrat, and yield approximate upper and lower bounds on gas velocity and mass flux during the formation of those layers. We simulate ash dispersal with Ash3d to assess the consequences of long-lived Mono-Inyo ash venting for ash deposition and the accompanying volcanic hazards. Our results highlight the sensitivity of large-scale outcomes of volcanic eruptions to small-scale processes.
ISSN:0258-8900
1432-0819