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Physiology of atmospheric methane-oxidizing bacteria

Physiology of atmospheric methane-oxidizing bacteria
Physiology of atmospheric methane-oxidizing bacteria
The biological sink for atmospheric methane consists of atmospheric methane-oxidizing bacteria (atmMOB) that persistently oxidize atmospheric methane as carbon and energy source and conventional methanotrophs that transiently oxidize atmospheric methane after exposure to elevated methane concentrations. The ecology and environmental activity of atmMOB have been studied for several decades, but until the first detailed characterization in 2019 of an atmMOB in pure culture that can grow with air as the sole energy (methane, carbon monoxide and molecular hydrogen) and carbon (methane and carbon dioxide) source, their physiology was mostly unexplored. Here we summarize the available knowledge about atmMOB physiology, including the kinetics of atmospheric methane oxidation, energy yields during growth on methane and other trace gases from air, carbon assimilation and physiological diversity. We use this background to identify knowledge gaps that should be targeted to support future research on atmMOB.
1369-5274
1-9
Tøsdal Tveit, Alexander
7b5e7dc7-05ae-4d2f-83c6-921680135dd5
Dumont, Marc
afd9f08f-bdbb-4cee-b792-1a7f000ee511
Schmider, Tilman
362f1aab-82d1-4ffc-82fd-f584d3358df9
Tøsdal Tveit, Alexander
7b5e7dc7-05ae-4d2f-83c6-921680135dd5
Dumont, Marc
afd9f08f-bdbb-4cee-b792-1a7f000ee511
Schmider, Tilman
362f1aab-82d1-4ffc-82fd-f584d3358df9

Tøsdal Tveit, Alexander, Dumont, Marc and Schmider, Tilman (2025) Physiology of atmospheric methane-oxidizing bacteria. Current Opinion in Microbiology, 88, 1-9, [102656].

Record type: Review

Abstract

The biological sink for atmospheric methane consists of atmospheric methane-oxidizing bacteria (atmMOB) that persistently oxidize atmospheric methane as carbon and energy source and conventional methanotrophs that transiently oxidize atmospheric methane after exposure to elevated methane concentrations. The ecology and environmental activity of atmMOB have been studied for several decades, but until the first detailed characterization in 2019 of an atmMOB in pure culture that can grow with air as the sole energy (methane, carbon monoxide and molecular hydrogen) and carbon (methane and carbon dioxide) source, their physiology was mostly unexplored. Here we summarize the available knowledge about atmMOB physiology, including the kinetics of atmospheric methane oxidation, energy yields during growth on methane and other trace gases from air, carbon assimilation and physiological diversity. We use this background to identify knowledge gaps that should be targeted to support future research on atmMOB.

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e-pub ahead of print date: 30 August 2025
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Identifiers

Local EPrints ID: 506191
URI: http://eprints.soton.ac.uk/id/eprint/506191
ISSN: 1369-5274
PURE UUID: 7b4162ed-aa1d-471b-a460-fe9ef6f93b25
ORCID for Marc Dumont: ORCID iD orcid.org/0000-0002-7347-8668

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Date deposited: 29 Oct 2025 17:48
Last modified: 30 Oct 2025 02:45

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Contributors

Author: Alexander Tøsdal Tveit
Author: Marc Dumont ORCID iD
Author: Tilman Schmider

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