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Bubble growth and rise in soft sediments

Bubble growth and rise in soft sediments
Bubble growth and rise in soft sediments
The mechanics of uncemented soft sediments during bubble growth are not widely understood and no rheological model has found wide acceptance. We offer definitive evidence on the mode of bubble formation in the form of X-ray computed tomographic images and comparison with theory. Natural and injected bubbles in muddy cohesive sediments are shown to be highly eccentric oblate spheroids (disks) that grow either by fracturing the sediment or by reopening preexisting fractures. In contrast, bubbles in soft sandy sediment tend to be spherical, suggesting that sand acts fluidly or plastically in response to growth stresses. We also present bubble-rise results from gelatin, a mechanically similar but transparent medium, that suggest that initial rise is also accomplished by fracture. Given that muddy sediments are elastic and yield by fracture, it becomes much easier to explain physically related phenomena such as seafloor pockmark formation, animal burrowing, and gas buildup during methane hydrate melting.
bubbles, mud, fracture, methane
0091-7613
517-520
Boudreau, Bernard P.
4aa9f80d-9714-4bbd-9481-e7b7346dafd6
Algar, Chris
4f00890e-0f81-40c5-96fe-a2daec68089a
Johnson, Bruce D.
e2764c7d-0f44-42c6-83e5-9ada6325b3bb
Croudace, Ian
24deb068-d096-485e-8a23-a32b7a68afaf
Reed, Allen
6dd080a8-b14f-4ca5-990d-8480c781ba03
Furukawa, Yoko
e0434b4c-7e78-4bfa-882d-f48749ef225d
Dorgan, Kelley M.
167230a7-be92-4c59-9e37-e48c50b3274f
Jumars, Peter A.
ceb5c56d-5a5a-4add-a37b-8d8558add564
Grader, Abraham S.
99121cef-9b79-441f-8c82-d63130b341ec
Gardiner, Bruce S.
4eecaaa4-ee4d-4962-a315-669efaee6368
Boudreau, Bernard P.
4aa9f80d-9714-4bbd-9481-e7b7346dafd6
Algar, Chris
4f00890e-0f81-40c5-96fe-a2daec68089a
Johnson, Bruce D.
e2764c7d-0f44-42c6-83e5-9ada6325b3bb
Croudace, Ian
24deb068-d096-485e-8a23-a32b7a68afaf
Reed, Allen
6dd080a8-b14f-4ca5-990d-8480c781ba03
Furukawa, Yoko
e0434b4c-7e78-4bfa-882d-f48749ef225d
Dorgan, Kelley M.
167230a7-be92-4c59-9e37-e48c50b3274f
Jumars, Peter A.
ceb5c56d-5a5a-4add-a37b-8d8558add564
Grader, Abraham S.
99121cef-9b79-441f-8c82-d63130b341ec
Gardiner, Bruce S.
4eecaaa4-ee4d-4962-a315-669efaee6368

Boudreau, Bernard P., Algar, Chris, Johnson, Bruce D., Croudace, Ian, Reed, Allen, Furukawa, Yoko, Dorgan, Kelley M., Jumars, Peter A., Grader, Abraham S. and Gardiner, Bruce S. (2005) Bubble growth and rise in soft sediments. Geology, 33 (6), 517-520. (doi:10.1130/G21259.1).

Record type: Article

Abstract

The mechanics of uncemented soft sediments during bubble growth are not widely understood and no rheological model has found wide acceptance. We offer definitive evidence on the mode of bubble formation in the form of X-ray computed tomographic images and comparison with theory. Natural and injected bubbles in muddy cohesive sediments are shown to be highly eccentric oblate spheroids (disks) that grow either by fracturing the sediment or by reopening preexisting fractures. In contrast, bubbles in soft sandy sediment tend to be spherical, suggesting that sand acts fluidly or plastically in response to growth stresses. We also present bubble-rise results from gelatin, a mechanically similar but transparent medium, that suggest that initial rise is also accomplished by fracture. Given that muddy sediments are elastic and yield by fracture, it becomes much easier to explain physically related phenomena such as seafloor pockmark formation, animal burrowing, and gas buildup during methane hydrate melting.

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Published date: 2005
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Keywords: bubbles, mud, fracture, methane
Learn more about Ocean and Earth Science research

Identifiers

Local EPrints ID: 16338
URI: http://eprints.soton.ac.uk/id/eprint/16338
DOI: doi:10.1130/G21259.1
ISSN: 0091-7613
PURE UUID: 3dc72e53-f7c6-4d57-ab3d-1d8e49f4e659

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Date deposited: 27 Jul 2005
Last modified: 15 Mar 2024 05:47

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Contributors

Author: Bernard P. Boudreau
Author: Chris Algar
Author: Bruce D. Johnson
Author: Ian Croudace
Author: Allen Reed
Author: Yoko Furukawa
Author: Kelley M. Dorgan
Author: Peter A. Jumars
Author: Abraham S. Grader
Author: Bruce S. Gardiner

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