Emplacement of pyroclastic deposits offshore Montserrat from 3D seismic data
Emplacement of pyroclastic deposits offshore Montserrat from 3D seismic data
During the current (1995–present) eruptive phase of the Soufrière Hills volcano on Montserrat, voluminous pyroclastic flows entered the sea off the eastern flank of the island, resulting in the deposition of well-defined submarine pyroclastic lobes. Previously reported bathymetric surveys documented the sequential construction of these deposits, but could not image their internal structure, the morphology or extent of their base, or interaction with the underlying sediments. We show, by combining these bathymetric data with new high-resolution three dimensional (3D) seismic data, that the sequence of previously detected pyroclastic deposits from different phases of the ongoing eruptive activity is still well preserved. A detailed interpretation of the 3D seismic data reveals the absence of significant (>3 m) basal erosion in the distal extent of submarine pyroclastic deposits. We also identify a previously unrecognized seismic unit directly beneath the stack of recent lobes. We propose three hypotheses for the origin of this seismic unit, but prefer an interpretation that the deposit is the result of the subaerial flank collapse that formed the English's Crater scarp on the Soufrière Hills volcano. The 1995–recent volcanic activity on Montserrat accounts for a significant portion of the sediments on the southeast slope of Montserrat, in places forming deposits that are more than 60m thick, which implies that the potential for pyroclastic flows to build volcanic island edifices is significant.
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Karstens, Jens
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Crutchley, Gareth
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Berndt, Christian
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Talling, P.J.
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Watt, Sebastian F.L.
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Huhnerbach, Veit
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Le Friant, Anne
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Lebas, Elodie
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Trofimovs, Jessica
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1 May 2013
Karstens, Jens
ffdc8de3-f74f-4ff0-91b0-fe02fdf6f12e
Crutchley, Gareth
36aeffb1-989b-4d7e-b872-b32de59c1c41
Berndt, Christian
29364362-5d52-4b1b-82b9-e799fcc4d7ed
Talling, P.J.
1cbac5ec-a9f8-4868-94fe-6203f30b47cf
Watt, Sebastian F.L.
8cde9189-35d1-450c-bff8-f7c9107eb635
Huhnerbach, Veit
1ea7cdde-a6fd-4749-b880-504c958c588c
Le Friant, Anne
cfb10a7b-5725-4c9e-a3b1-1ad6211c1bb9
Lebas, Elodie
11d2e4c2-6875-4ec7-ac4d-086d918eb9a2
Trofimovs, Jessica
f77f3f44-6fbd-4efb-ba3a-d4818b229b10
Karstens, Jens, Crutchley, Gareth, Berndt, Christian, Talling, P.J., Watt, Sebastian F.L., Huhnerbach, Veit, Le Friant, Anne, Lebas, Elodie and Trofimovs, Jessica
(2013)
Emplacement of pyroclastic deposits offshore Montserrat from 3D seismic data.
Journal of Volcanology and Geothermal Research, 257, .
(doi:10.1016/j.jvolgeores.2013.03.004).
Abstract
During the current (1995–present) eruptive phase of the Soufrière Hills volcano on Montserrat, voluminous pyroclastic flows entered the sea off the eastern flank of the island, resulting in the deposition of well-defined submarine pyroclastic lobes. Previously reported bathymetric surveys documented the sequential construction of these deposits, but could not image their internal structure, the morphology or extent of their base, or interaction with the underlying sediments. We show, by combining these bathymetric data with new high-resolution three dimensional (3D) seismic data, that the sequence of previously detected pyroclastic deposits from different phases of the ongoing eruptive activity is still well preserved. A detailed interpretation of the 3D seismic data reveals the absence of significant (>3 m) basal erosion in the distal extent of submarine pyroclastic deposits. We also identify a previously unrecognized seismic unit directly beneath the stack of recent lobes. We propose three hypotheses for the origin of this seismic unit, but prefer an interpretation that the deposit is the result of the subaerial flank collapse that formed the English's Crater scarp on the Soufrière Hills volcano. The 1995–recent volcanic activity on Montserrat accounts for a significant portion of the sediments on the southeast slope of Montserrat, in places forming deposits that are more than 60m thick, which implies that the potential for pyroclastic flows to build volcanic island edifices is significant.
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Published date: 1 May 2013
Organisations:
Geology & Geophysics, Marine Geoscience
Identifiers
Local EPrints ID: 352920
URI: http://eprints.soton.ac.uk/id/eprint/352920
ISSN: 0377-0273
PURE UUID: 6d1b35c7-fd9d-4f09-ac75-deb90f0aa4fd
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Date deposited: 21 May 2013 08:29
Last modified: 14 Mar 2024 13:58
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Contributors
Author:
Jens Karstens
Author:
Gareth Crutchley
Author:
Christian Berndt
Author:
P.J. Talling
Author:
Sebastian F.L. Watt
Author:
Veit Huhnerbach
Author:
Anne Le Friant
Author:
Elodie Lebas
Author:
Jessica Trofimovs
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