Carbon mass balance methodology to characterize the growth of pigmented marine bacteria under conditions of light cycling

Johnston, Wayne, Cooney, Michael, Schorlemmer, Anita, Pohl, Silke, Karl, David M., & Bidigare, Robert (2005) Carbon mass balance methodology to characterize the growth of pigmented marine bacteria under conditions of light cycling. Bioprocess and Biosystems Engineering, 27(3), pp. 163-174.

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Description

A carbon mass balance methodology employing minimal measurements was applied to heterotrophic and photoheterotrophic marine bacteria grown under constant dilution and exposed to 12-h intervals of light or darkness. Carbon mass balance calculations using measurements taken every 3 h closed to within 93-103% using dissolved organic carbon, biomass carbon and CO₂ production data only, indicating that background interference from dissolved inorganic carbon variations in the amended seawater medium was not significant. Neither strain was observed to sustain a net CO₂ fixation using paramagnetic measurement of oxygen uptake rates (OUR), indicating a need for more sensitive on-line measurement techniques for OUR. Photoheterotrophic growth demonstrated lower carbon-mole biomass yields (0.41±0.026 vs. 0.64±0.013 mol mol^-1) despite higher specific glucose uptake rates (0.025 vs. 0.02 mol mol^-1 h^-1), suggesting that bioreactor-based study of marine bacteria can present growth modes that are different from those encountered in the marine environment.

Impact and interest:

4 citations in Scopus

4 citations in Web of Science®

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ID Code:

241643

Item Type:

Contribution to Journal (Journal Article)

Refereed:

Yes

ORCID iD:

Johnston, Wayne	orcid.org/0000-0002-7485-8363

Additional Information:

Acknowledgements: This work was partially supported by the ERC Program of the National Science Foundation under Award Number EED-9731725. The authors wish to acknowledge the contributions of Paul Falkowski in providing strain NJ3Y and experimental advice, and Stephanie Christensen for technical help with analyses.

Measurements or Duration:

12 pages

Keywords:

Carbon mass balance, Marine bacteria, Photoheterotrophy

DOI:

10.1007/s00449-004-0395-8

ISSN:

1615-7591

Pure ID:

139970015

Funding Information:

Acknowledgements This work was partially supported by the ERC Program of the National Science Foundation under Award Number EED-9731725. The authors wish to acknowledge the contributions of Paul Falkowski in providing strain NJ3Y and experimental advice, and Stephanie Christensen for technical help with analyses.

Springer-Verlag 2005

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Deposited On:

18 Jul 2023 05:38

Last Modified:

03 Mar 2024 19:32

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