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Efficient CO2 fixation by surface Prochlorococcus in the Atlantic Ocean

Efficient CO2 fixation by surface Prochlorococcus in the Atlantic Ocean
Efficient CO2 fixation by surface Prochlorococcus in the Atlantic Ocean
Nearly half of the Earth’s surface is covered by the ocean populated by the most abundant photosynthetic organisms on the planet—Prochlorococcus cyanobacteria. However, in the oligotrophic open ocean, the majority of their cells in the top half of the photic layer have levels of photosynthetic pigmentation barely detectable by flow cytometry, suggesting low efficiency of CO2 fixation compared with other phytoplankton living in the same waters. To test the latter assumption, CO2 fixation rates of flow cytometrically sorted 14C-labelled phytoplankton cells were directly compared in surface waters of the open Atlantic Ocean (30°S to 30°N). CO2 fixation rates of Prochlorococcus are at least 1.5–2.0 times higher than CO2 fixation rates of the smallest plastidic protists and Synechococcus cyanobacteria when normalised to photosynthetic pigmentation assessed using cellular red autofluorescence. Therefore, our data indicate that in oligotrophic oceanic surface waters, pigment minimisation allows Prochlorococcus cells to harvest plentiful sunlight more effectively than other phytoplankton.
primary production, chlorophyll autofluorescence, flow cytometric cell sorting, 14C radiolabelling
1751-7362
2280-2289
Hartmann, Manuela
5b175765-fde7-40dc-bcd6-83248285ef86
Gomez-Pereira, Paola
952f5c5f-594a-49f3-abfb-8f4fe173a9fc
Grob, Carolina
fa3203be-7eb7-4f75-8fb9-9d9492f6f320
Ostrowski, Martin
faffaad6-2f86-4de4-9c20-2718de2cff67
Scanlan, David J.
748c7970-2e58-4a46-82ad-0138f41bd713
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Hartmann, Manuela
5b175765-fde7-40dc-bcd6-83248285ef86
Gomez-Pereira, Paola
952f5c5f-594a-49f3-abfb-8f4fe173a9fc
Grob, Carolina
fa3203be-7eb7-4f75-8fb9-9d9492f6f320
Ostrowski, Martin
faffaad6-2f86-4de4-9c20-2718de2cff67
Scanlan, David J.
748c7970-2e58-4a46-82ad-0138f41bd713
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743

Hartmann, Manuela, Gomez-Pereira, Paola, Grob, Carolina, Ostrowski, Martin, Scanlan, David J. and Zubkov, Mikhail V. (2014) Efficient CO2 fixation by surface Prochlorococcus in the Atlantic Ocean. The ISME Journal, 8, 2280-2289. (doi:10.1038/ismej.2014.56).

Record type: Article

Abstract

Nearly half of the Earth’s surface is covered by the ocean populated by the most abundant photosynthetic organisms on the planet—Prochlorococcus cyanobacteria. However, in the oligotrophic open ocean, the majority of their cells in the top half of the photic layer have levels of photosynthetic pigmentation barely detectable by flow cytometry, suggesting low efficiency of CO2 fixation compared with other phytoplankton living in the same waters. To test the latter assumption, CO2 fixation rates of flow cytometrically sorted 14C-labelled phytoplankton cells were directly compared in surface waters of the open Atlantic Ocean (30°S to 30°N). CO2 fixation rates of Prochlorococcus are at least 1.5–2.0 times higher than CO2 fixation rates of the smallest plastidic protists and Synechococcus cyanobacteria when normalised to photosynthetic pigmentation assessed using cellular red autofluorescence. Therefore, our data indicate that in oligotrophic oceanic surface waters, pigment minimisation allows Prochlorococcus cells to harvest plentiful sunlight more effectively than other phytoplankton.

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Accepted/In Press date: March 2014
Published date: April 2014
Keywords: primary production, chlorophyll autofluorescence, flow cytometric cell sorting, 14C radiolabelling
Organisations: Marine Biogeochemistry

Identifiers

Local EPrints ID: 363761
URI: http://eprints.soton.ac.uk/id/eprint/363761
DOI: doi:10.1038/ismej.2014.56
ISSN: 1751-7362
PURE UUID: 76dc27f0-05c1-408b-9722-a943d34c5682

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Date deposited: 02 Apr 2014 13:00
Last modified: 14 Mar 2024 16:29

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Contributors

Author: Manuela Hartmann
Author: Paola Gomez-Pereira
Author: Carolina Grob
Author: Martin Ostrowski
Author: David J. Scanlan
Author: Mikhail V. Zubkov

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