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Planktonic carbon budget in the eastern subtropical North Atlantic

Planktonic carbon budget in the eastern subtropical North Atlantic
Planktonic carbon budget in the eastern subtropical North Atlantic
We used data collected at >60 stations over a 10 yr period to build the carbon budget of the plankton community in the euphotic layer of the Eastern North Atlantic Subtropical Gyre (NASE). Autotrophic biomass exceeded microbial heterotrophic biomass by a factor of 1.7. Mean (±SE), integrated chlorophyll a concentration and net particulate primary production (PP) were 17 ± 1 mg m–2 and 271 ± 29 mgC m–2 d–1, respectively. Protist grazing on phytoplankton represented >90% of PP. Bacterial production (BP) was 17 ± 3 mgC m–2 d–1. In vitro O2-evolution experiments indicated that net community production was –65 ± 16 mmolO2 m–2 d–1, while community respiration (CR) averaged 124 ± 13 mmolO2 m–2 d–1, equivalent to 1324 ± 142 mgC m–2 d–1. However, the sum of the respiration rates by each microbial group, estimated from their biomass and metabolic rates, ranged from 402 to 848 mgC m–2 d–1. Therefore, CR could not be reconciled with the respiratory fluxes sustained by each microbial group. Comparison between estimated gross photosynthesis by phytoplankton (481 to 616 mgC m–2 d–1) and the sum of respiration by each group suggests that the microbial community in the NASE province is close to metabolic balance, which would agree with the observed O2 supersaturation in the euphotic layer. Taking into account the mean open-ocean values for PP, BP, CR and bacterial growth efficiency, we show that bacteria account for approximately 20% of CR. Our results suggest that the view that bacteria dominate carbon cycling in the unproductive ocean must be reconsidered, or else that in vitro incubations misrepresent the real metabolic rates of one or several microbial groups.
Plankton, Primary production, Bacterial production, Respiration, Grazing, Subtropical NE Atlantic, Atlantic Meridional Transect
0948-3055
261-275
Maranon, E.
e0e574e3-c100-4772-a003-4213027c818d
Perez, V.
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Fernandez, E.
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Anadon, R.
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Bode, A.
a48ed47e-45b6-4b46-908f-4f9945552134
Gonzalez, N.
677a86ed-6228-4eb1-adf2-1eff952db558
Huskin, I.
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Isla, A.
e638727b-c7d8-4cc4-b9fa-0ec3ad90e3b6
Moran, X.A.G.
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Mourino, B.
e03f18c9-9c81-4af0-a8f1-000c4d0e1f50
Quevedo, M.
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Robinson, C.
3c57dfcb-6ddc-4e4b-8d7e-5efd0adcc42b
Serret, P.
b58041c5-1a45-4670-8e17-5ce5225c893a
Teiral, E.
599bef97-0c29-41d4-8ccc-5deb94b1d134
Varela, M.M.
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Woodward, E.M.S.
3ac3b98f-78c7-4b43-acf9-bba3253752b5
Zubkov, M.V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Maranon, E.
e0e574e3-c100-4772-a003-4213027c818d
Perez, V.
e2e5d9ab-7482-450e-a3d7-85eccf628a90
Fernandez, E.
6af26141-5c0b-4f53-8561-66d32e49cc27
Anadon, R.
2509ec17-7c04-4e52-b7f1-3deba4f31a0d
Bode, A.
a48ed47e-45b6-4b46-908f-4f9945552134
Gonzalez, N.
677a86ed-6228-4eb1-adf2-1eff952db558
Huskin, I.
41b42b59-89dc-4721-9265-56b301a3a5e3
Isla, A.
e638727b-c7d8-4cc4-b9fa-0ec3ad90e3b6
Moran, X.A.G.
ecd23ec2-24af-4e4d-b8db-eb4aa9849b13
Mourino, B.
e03f18c9-9c81-4af0-a8f1-000c4d0e1f50
Quevedo, M.
eeda2c40-cf25-41eb-b4fa-c10c4e3b2fc6
Robinson, C.
3c57dfcb-6ddc-4e4b-8d7e-5efd0adcc42b
Serret, P.
b58041c5-1a45-4670-8e17-5ce5225c893a
Teiral, E.
599bef97-0c29-41d4-8ccc-5deb94b1d134
Varela, M.M.
c6a40687-c431-4f3b-8380-7ceb55259415
Woodward, E.M.S.
3ac3b98f-78c7-4b43-acf9-bba3253752b5
Zubkov, M.V.
b1dfb3a0-bcff-430c-9031-358a22b50743

Maranon, E., Perez, V., Fernandez, E., Anadon, R., Bode, A., Gonzalez, N., Huskin, I., Isla, A., Moran, X.A.G., Mourino, B., Quevedo, M., Robinson, C., Serret, P., Teiral, E., Varela, M.M., Woodward, E.M.S. and Zubkov, M.V. (2007) Planktonic carbon budget in the eastern subtropical North Atlantic. Aquatic Microbial Ecology, 48 (3), 261-275.

Record type: Article

Abstract

We used data collected at >60 stations over a 10 yr period to build the carbon budget of the plankton community in the euphotic layer of the Eastern North Atlantic Subtropical Gyre (NASE). Autotrophic biomass exceeded microbial heterotrophic biomass by a factor of 1.7. Mean (±SE), integrated chlorophyll a concentration and net particulate primary production (PP) were 17 ± 1 mg m–2 and 271 ± 29 mgC m–2 d–1, respectively. Protist grazing on phytoplankton represented >90% of PP. Bacterial production (BP) was 17 ± 3 mgC m–2 d–1. In vitro O2-evolution experiments indicated that net community production was –65 ± 16 mmolO2 m–2 d–1, while community respiration (CR) averaged 124 ± 13 mmolO2 m–2 d–1, equivalent to 1324 ± 142 mgC m–2 d–1. However, the sum of the respiration rates by each microbial group, estimated from their biomass and metabolic rates, ranged from 402 to 848 mgC m–2 d–1. Therefore, CR could not be reconciled with the respiratory fluxes sustained by each microbial group. Comparison between estimated gross photosynthesis by phytoplankton (481 to 616 mgC m–2 d–1) and the sum of respiration by each group suggests that the microbial community in the NASE province is close to metabolic balance, which would agree with the observed O2 supersaturation in the euphotic layer. Taking into account the mean open-ocean values for PP, BP, CR and bacterial growth efficiency, we show that bacteria account for approximately 20% of CR. Our results suggest that the view that bacteria dominate carbon cycling in the unproductive ocean must be reconsidered, or else that in vitro incubations misrepresent the real metabolic rates of one or several microbial groups.

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More information

Published date: 12 August 2007
Keywords: Plankton, Primary production, Bacterial production, Respiration, Grazing, Subtropical NE Atlantic, Atlantic Meridional Transect

Identifiers

Local EPrints ID: 49763
URI: http://eprints.soton.ac.uk/id/eprint/49763
ISSN: 0948-3055
PURE UUID: 715ffdbd-d7e4-4c8d-a9d2-9e55fedb75a5

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Date deposited: 29 Nov 2007
Last modified: 08 Jan 2022 03:58

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Contributors

Author: E. Maranon
Author: V. Perez
Author: E. Fernandez
Author: R. Anadon
Author: A. Bode
Author: N. Gonzalez
Author: I. Huskin
Author: A. Isla
Author: X.A.G. Moran
Author: B. Mourino
Author: M. Quevedo
Author: C. Robinson
Author: P. Serret
Author: E. Teiral
Author: M.M. Varela
Author: E.M.S. Woodward
Author: M.V. Zubkov

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