Flow-to-fracture transition in a volcanic mush plug may govern normal eruptions at Stromboli
Flow-to-fracture transition in a volcanic mush plug may govern normal eruptions at Stromboli
Stromboli is a model volcano for studying eruptions driven by degassing. The current paradigm posits that Strombolian eruptions represent the bursting of gas slugs ascending through melt-filled conduits, but petrological observations show that magma at shallow depth is crystalline enough to form a three-phase plug consisting of crystals, bubbles, and melt. We combine a 1-D model of gas flushing a crystalline mush with a 3-D stress model. Our results suggest that localized gas segregation establishes hot conduits of mobile magma within a stagnant plug. The plug is prone to tensile failure controlled by gas overpressure and tectonic stress, with failure most likely beneath the observed vent locations. We hence argue that Strombolian eruptions are related to plug failure rather than flow. Our proposed three-phase model of the shallow plumbing system may provide a promising framework for integrating geophysical, petrological, and morphological observations at Stromboli and in open-system volcanism more generally.
12071-12081
Suckale, J.
2f422629-845e-4186-bf3a-c00dd1a417d6
Keller, T.
d8dfcfa5-89d1-4203-aa2d-8c142c00a169
Cashman, K.V.
62c3c865-291a-482f-9231-7f098dbf94f7
Persson, P.-O.
94b0349d-c7d6-4996-9cd2-61bbcd965f1c
15 December 2016
Suckale, J.
2f422629-845e-4186-bf3a-c00dd1a417d6
Keller, T.
d8dfcfa5-89d1-4203-aa2d-8c142c00a169
Cashman, K.V.
62c3c865-291a-482f-9231-7f098dbf94f7
Persson, P.-O.
94b0349d-c7d6-4996-9cd2-61bbcd965f1c
Suckale, J., Keller, T., Cashman, K.V. and Persson, P.-O.
(2016)
Flow-to-fracture transition in a volcanic mush plug may govern normal eruptions at Stromboli.
Geophysical Research Letters, 43 (23), .
(doi:10.1002/2016GL071501).
Abstract
Stromboli is a model volcano for studying eruptions driven by degassing. The current paradigm posits that Strombolian eruptions represent the bursting of gas slugs ascending through melt-filled conduits, but petrological observations show that magma at shallow depth is crystalline enough to form a three-phase plug consisting of crystals, bubbles, and melt. We combine a 1-D model of gas flushing a crystalline mush with a 3-D stress model. Our results suggest that localized gas segregation establishes hot conduits of mobile magma within a stagnant plug. The plug is prone to tensile failure controlled by gas overpressure and tectonic stress, with failure most likely beneath the observed vent locations. We hence argue that Strombolian eruptions are related to plug failure rather than flow. Our proposed three-phase model of the shallow plumbing system may provide a promising framework for integrating geophysical, petrological, and morphological observations at Stromboli and in open-system volcanism more generally.
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Accepted/In Press date: 17 November 2016
e-pub ahead of print date: 19 November 2016
Published date: 15 December 2016
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Local EPrints ID: 488367
URI: http://eprints.soton.ac.uk/id/eprint/488367
ISSN: 0094-8276
PURE UUID: b636913b-ec18-44f5-b2de-da26525a20f4
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Date deposited: 21 Mar 2024 17:32
Last modified: 22 Mar 2024 03:09
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Author:
J. Suckale
Author:
T. Keller
Author:
K.V. Cashman
Author:
P.-O. Persson
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