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New observations of gas bubble behavior across the seabed

New observations of gas bubble behavior across the seabed
New observations of gas bubble behavior across the seabed
Understanding the movement of free gas across the seabed is important for understanding the importance of methane and carbon dioxide seeps in the carbon cycle as well as in developing monitoring methodologies above marine carbon capture and storage complexes. We document new observations of gas bubble behaviour across the seabed from laboratory and field data using passive acoustic and high-speed optical imaging. Our observations show four distinct phases of gas release: fracture propagation, sediment displacement, surface breakthrough and dual-bubble oscillation. We show that each individual gas release event at the seabed comprises a larger bubble that oscillates in the water column and a smaller oscillating bubble that remains within the seabed. Both of these oscillating bubbles contribute to the sound generated by each gas release event. Our results show that this dual-source phenomenon produces a composite acoustic signature, potentially leading to a 5–15% overestimation in gas flux when using current inversion models. Beyond implications for acoustic flux estimation, the recognition of retained, oscillating gas bubbles reshapes our understanding of near-seabed gas dynamics. These findings suggest that sediment structure and bubble–sediment interactions play a more active role in controlling release behaviour than previously thought.
Bubble, hydroacoustics, seabed emissions, DEGASSING
2675-2824
Roche, Ben
2746ee9e-1b87-4d2f-b4e1-dcdc0ca7a719
White, Paul
2dd2477b-5aa9-42e2-9d19-0806d994eaba
Bull, Jonathan
974037fd-544b-458f-98cc-ce8eca89e3c8
Leighton, Timothy
3e5262ce-1d7d-42eb-b013-fcc5c286bbae
Bayrakci, Gaye
0f436a50-6297-4ed1-9c12-797f16cbc9c4
Roche, Ben
2746ee9e-1b87-4d2f-b4e1-dcdc0ca7a719
White, Paul
2dd2477b-5aa9-42e2-9d19-0806d994eaba
Bull, Jonathan
974037fd-544b-458f-98cc-ce8eca89e3c8
Leighton, Timothy
3e5262ce-1d7d-42eb-b013-fcc5c286bbae
Bayrakci, Gaye
0f436a50-6297-4ed1-9c12-797f16cbc9c4

Roche, Ben, White, Paul, Bull, Jonathan, Leighton, Timothy and Bayrakci, Gaye (2026) New observations of gas bubble behavior across the seabed. Ocean and Coastal Research. (In Press)

Record type: Article

Abstract

Understanding the movement of free gas across the seabed is important for understanding the importance of methane and carbon dioxide seeps in the carbon cycle as well as in developing monitoring methodologies above marine carbon capture and storage complexes. We document new observations of gas bubble behaviour across the seabed from laboratory and field data using passive acoustic and high-speed optical imaging. Our observations show four distinct phases of gas release: fracture propagation, sediment displacement, surface breakthrough and dual-bubble oscillation. We show that each individual gas release event at the seabed comprises a larger bubble that oscillates in the water column and a smaller oscillating bubble that remains within the seabed. Both of these oscillating bubbles contribute to the sound generated by each gas release event. Our results show that this dual-source phenomenon produces a composite acoustic signature, potentially leading to a 5–15% overestimation in gas flux when using current inversion models. Beyond implications for acoustic flux estimation, the recognition of retained, oscillating gas bubbles reshapes our understanding of near-seabed gas dynamics. These findings suggest that sediment structure and bubble–sediment interactions play a more active role in controlling release behaviour than previously thought.

Text
OCR Burried Bubble Submitted Manuscript - Accepted Manuscript
Restricted to Repository staff only until 11 May 2026.
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 10 April 2026
Keywords: Bubble, hydroacoustics, seabed emissions, DEGASSING
Learn more about the Southampton Marine and Maritime Institute Learn more about the School of Ocean and Earth Science Learn more about the School of Engineering

Identifiers

Local EPrints ID: 510522
URI: http://eprints.soton.ac.uk/id/eprint/510522
ISSN: 2675-2824
PURE UUID: 4d899ab9-c11e-4a8a-9d00-2a7cc4f304d5
ORCID for Paul White: ORCID iD orcid.org/0000-0002-4787-8713
ORCID for Jonathan Bull: ORCID iD orcid.org/0000-0003-3373-5807
ORCID for Timothy Leighton: ORCID iD orcid.org/0000-0002-1649-8750

Catalogue record

Date deposited: 13 Apr 2026 16:28
Last modified: 14 Apr 2026 01:33

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Contributors

Author: Ben Roche
Author: Paul White ORCID iD
Author: Jonathan Bull ORCID iD
Author: Timothy Leighton ORCID iD
Author: Gaye Bayrakci

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