Highly vesicular pumice generated by buoyant detachment of magma in subaqueous volcanism
Highly vesicular pumice generated by buoyant detachment of magma in subaqueous volcanism
Many submarine caldera volcanoes are blanketed with deposits of highly vesicular pumice, typically attributed to vigorous explosive activity1, 2, 3, 4. However, it is challenging to relate volcanic products to specific eruptive styles in submarine volcanism5, 6. Here we document vesicularity and textural characteristics of pumice clasts dredged from the submarine Macauley volcano in the Kermadec arc, southwest Pacific Ocean. We find that clasts show a bimodal distribution, with corresponding differences in vesicle abundances and shapes. Specifically, we find a sharp mode at 91% vesicularity and a broad mode at 65–80%. Subordinate clasts show gradients in vesicularity. We attribute the bimodality to a previously undocumented eruptive style that is neither effusive nor explosive. The eruption rate is insufficient to cause magma to fragment explosively, yet too high to passively feed a lava dome. Instead, the magma foam buoyantly detaches at the vent and rises as discrete magma parcels, or blebs, while continuing to vesiculate internally. The blebs are widely distributed by ocean currents before they disintegrate or become waterlogged. This disintegration creates individual clasts from interior and rim fragments, yielding the bimodal vesicularity characteristics. We conclude that the generation and widespread dispersal of highly vesicular pumice in the marine environment does not require highly explosive activity.
129-132
Rotella, Melissa D.
be18845a-aaf1-4f05-ae92-55447b6774e8
Wilson, Colin J.N.
5953011a-09ee-47de-a41d-b1e81eaf1037
Barker, Simon J.
27644ab9-faf3-4043-ab4a-9220f23196f7
Wright, Ian C.
be2a8931-3932-4f1e-b387-43e3652bf3fc
January 2013
Rotella, Melissa D.
be18845a-aaf1-4f05-ae92-55447b6774e8
Wilson, Colin J.N.
5953011a-09ee-47de-a41d-b1e81eaf1037
Barker, Simon J.
27644ab9-faf3-4043-ab4a-9220f23196f7
Wright, Ian C.
be2a8931-3932-4f1e-b387-43e3652bf3fc
Rotella, Melissa D., Wilson, Colin J.N., Barker, Simon J. and Wright, Ian C.
(2013)
Highly vesicular pumice generated by buoyant detachment of magma in subaqueous volcanism.
Nature Geoscience, 6, .
(doi:10.1038/ngeo1709).
Abstract
Many submarine caldera volcanoes are blanketed with deposits of highly vesicular pumice, typically attributed to vigorous explosive activity1, 2, 3, 4. However, it is challenging to relate volcanic products to specific eruptive styles in submarine volcanism5, 6. Here we document vesicularity and textural characteristics of pumice clasts dredged from the submarine Macauley volcano in the Kermadec arc, southwest Pacific Ocean. We find that clasts show a bimodal distribution, with corresponding differences in vesicle abundances and shapes. Specifically, we find a sharp mode at 91% vesicularity and a broad mode at 65–80%. Subordinate clasts show gradients in vesicularity. We attribute the bimodality to a previously undocumented eruptive style that is neither effusive nor explosive. The eruption rate is insufficient to cause magma to fragment explosively, yet too high to passively feed a lava dome. Instead, the magma foam buoyantly detaches at the vent and rises as discrete magma parcels, or blebs, while continuing to vesiculate internally. The blebs are widely distributed by ocean currents before they disintegrate or become waterlogged. This disintegration creates individual clasts from interior and rim fragments, yielding the bimodal vesicularity characteristics. We conclude that the generation and widespread dispersal of highly vesicular pumice in the marine environment does not require highly explosive activity.
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Published date: January 2013
Organisations:
Marine Geoscience
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Local EPrints ID: 347377
URI: http://eprints.soton.ac.uk/id/eprint/347377
ISSN: 1752-0894
PURE UUID: 3be54576-d888-4825-9dab-0e76ad9d025e
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Date deposited: 21 Jan 2013 10:33
Last modified: 14 Mar 2024 12:47
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Author:
Melissa D. Rotella
Author:
Colin J.N. Wilson
Author:
Simon J. Barker
Author:
Ian C. Wright
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