Complex precursory activity prior to the c.7600 yr BP Mazama (Crater Lake, USA) eruption
Complex precursory activity prior to the c.7600 yr BP Mazama (Crater Lake, USA) eruption
Large magnitude explosive volcanic eruptions occur globally at a rate of 1–2 per 1000 years and can cause devastating global impacts. Despite the risk these eruptions pose, we have no reliable method to forecast whether lower magnitude eruptions are precursory to a larger event. Here we ask whether we can identify unique precursors to a large eruption using data from the runup to the ~7.6 ka eruption of Mount Mazama (Crater Lake, Oregon). We present new compositional and textural data that suggest the precursory sequence involved at least three distinct eruptions. In this way, the climactic Mazama eruptive sequence resembles the four-month build-up to the 1883 Krakatau eruption. We highlight the distinct properties of the lowermost unit that suggests at least one precursory eruption tapped a distinct magma reservoir supporting the idea that to evacuate large magma volumes you require the pre- or syn-eruptive amalgamation of multiple melt lenses.
853-869
Rawlings, Jessica J.
d697a57f-a698-4b11-be2a-107e50fd05d9
3 December 2024
Rawlings, Jessica J.
d697a57f-a698-4b11-be2a-107e50fd05d9
Buckland, Hannah M., Cashman, Katharine V., Rawlings, Jessica J., Day, Lilli and Young, Simon
(2024)
Complex precursory activity prior to the c.7600 yr BP Mazama (Crater Lake, USA) eruption.
Volcanica, 7 (2), .
(doi:10.30909/vol.07.02.853869).
Abstract
Large magnitude explosive volcanic eruptions occur globally at a rate of 1–2 per 1000 years and can cause devastating global impacts. Despite the risk these eruptions pose, we have no reliable method to forecast whether lower magnitude eruptions are precursory to a larger event. Here we ask whether we can identify unique precursors to a large eruption using data from the runup to the ~7.6 ka eruption of Mount Mazama (Crater Lake, Oregon). We present new compositional and textural data that suggest the precursory sequence involved at least three distinct eruptions. In this way, the climactic Mazama eruptive sequence resembles the four-month build-up to the 1883 Krakatau eruption. We highlight the distinct properties of the lowermost unit that suggests at least one precursory eruption tapped a distinct magma reservoir supporting the idea that to evacuate large magma volumes you require the pre- or syn-eruptive amalgamation of multiple melt lenses.
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Buckland-et-al_2024_Volcanica
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Accepted/In Press date: 30 July 2024
Published date: 3 December 2024
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Local EPrints ID: 507705
URI: http://eprints.soton.ac.uk/id/eprint/507705
PURE UUID: bd305424-77b0-434a-b7e4-fa5f8ca05ad2
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Date deposited: 19 Dec 2025 17:33
Last modified: 20 Dec 2025 03:31
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Contributors
Author:
Hannah M. Buckland
Author:
Katharine V. Cashman
Author:
Jessica J. Rawlings
Author:
Lilli Day
Author:
Simon Young
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