Prodigious submarine landslides during the inception and early growth of volcanic islands
Prodigious submarine landslides during the inception and early growth of volcanic islands
Volcanic island inception applies large stresses as the ocean crust domes in response to magma ascension and is loaded by eruption of lavas. There is currently limited information on when volcanic islands are initiated on the seafloor, and no information regarding the seafloor instabilities island inception may cause. The deep sea Madeira Abyssal Plain contains a 43 million year history of turbidites among which many originate from mass movements in the Canary Islands. Here, we investigate the composition and timing of a distinctive group of turbidites that we suggest represent a new unique record of large-volume submarine landslides triggered during the inception, submarine shield growth, and final subaerial emergence of the Canary Islands. These slides are predominantly multi-stage and yet represent among the largest mass movements on the Earth’s surface up to three or more-times larger than subaerial Canary Islands flank collapses. Thus whilst these deposits provide invaluable information on ocean island geodynamics they also represent a significant, and as yet unaccounted, marine geohazard.
Hunt, James E.
2e95b3c8-734f-4ade-8010-8ed32fe4fe5e
Jarvis, Ian
ce42268d-7217-42c9-8fdc-e11f74c504f6
December 2017
Hunt, James E.
2e95b3c8-734f-4ade-8010-8ed32fe4fe5e
Jarvis, Ian
ce42268d-7217-42c9-8fdc-e11f74c504f6
Hunt, James E. and Jarvis, Ian
(2017)
Prodigious submarine landslides during the inception and early growth of volcanic islands.
Nature Communications, 8 (1), [2061].
(doi:10.1038/s41467-017-02100-3).
Abstract
Volcanic island inception applies large stresses as the ocean crust domes in response to magma ascension and is loaded by eruption of lavas. There is currently limited information on when volcanic islands are initiated on the seafloor, and no information regarding the seafloor instabilities island inception may cause. The deep sea Madeira Abyssal Plain contains a 43 million year history of turbidites among which many originate from mass movements in the Canary Islands. Here, we investigate the composition and timing of a distinctive group of turbidites that we suggest represent a new unique record of large-volume submarine landslides triggered during the inception, submarine shield growth, and final subaerial emergence of the Canary Islands. These slides are predominantly multi-stage and yet represent among the largest mass movements on the Earth’s surface up to three or more-times larger than subaerial Canary Islands flank collapses. Thus whilst these deposits provide invaluable information on ocean island geodynamics they also represent a significant, and as yet unaccounted, marine geohazard.
Text
s41467-017-02100-3
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Accepted/In Press date: 7 November 2017
e-pub ahead of print date: 12 December 2017
Published date: December 2017
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Local EPrints ID: 416910
URI: http://eprints.soton.ac.uk/id/eprint/416910
PURE UUID: ebbfbd5d-2793-40b9-9274-b8b760804c63
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Date deposited: 15 Jan 2018 17:30
Last modified: 15 Mar 2024 17:58
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Author:
James E. Hunt
Author:
Ian Jarvis
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