T. G. Wilkinson scite author profile

SummaryThe growth of a mixed methane-utilizing culture in a continuous flow fermenter has been studied under both methane and oxygen limitation. Small additions of methanol have been shown to inhibit the methane-utilizing moiety in the culture and it has been shown that the Hyphomicrobium sp. in the mixed culture removes any inhibitory methanol. The interaction between the methane-utilizing Pseudomonas sp., and the Hyphomicrobium sp. has been explained and a model of the continuous mixed culture under oxygen limitation has been formulated. Qualitative predictions of transient phenomena by the model have been verified experimentally.

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Environmental effects of the use of oil-based drilling muds in the North Sea

Davies

Addy²,

Blackman³

et al. 1984

Marine Pollution Bulletin

173

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Environmental effect of produced water from North Sea oil operations

Somerville

Bennett

Davenport

et al. 1987

Marine Pollution Bulletin

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The Affinity for Methane and Methanol of Mixed Cultures Grown on Methane in Continuous Culture

Wilkinson

Harrison

1973

Journal of Applied Bacteriology

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ABSTRACT. Pure cultures of Hyphomicrobium sp. had a high affinity for methanol (Km= 8·33 × 10−6 M) and the maximum respiration rate was c. 5 times higher than that of a mixed culture in which a methane‐utilizing pseudomonad predominated (Km= 2·94 × 10−2 M). From a comparison of the substrate affinities, a culture of the methane‐utilizing organism would be expected to produce levels of methanol high enough to inhibit methane oxidation and the Hyphomicrobium sp. would be able to scavenge this methanol.

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Wall growth in mixed bacterial cultures growing on methane

Wilkinson

Hamer

1974

Biotech & Bioengineering

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T. G. Wilkinson

Interactions in a mixed bacterial population growing on methane in continuous culture

Environmental effects of the use of oil-based drilling muds in the North Sea

Environmental effect of produced water from North Sea oil operations

The Affinity for Methane and Methanol of Mixed Cultures Grown on Methane in Continuous Culture

Wall growth in mixed bacterial cultures growing on methane

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