Plankton respiration in the Eastern Atlantic Ocean
Plankton respiration in the Eastern Atlantic Ocean
Concurrent measurements of dark community respiration (DCR), gross production (GP), size fractionated primary production (14C PP), nitrogen uptake, nutrients, chlorophyll a concentration, and heterotrophic and autotrophic bacterial abundance were collected from the upper 200 m of a latitudinal (32°S–48°N) transect in the Eastern Atlantic Ocean during May/June 1998. The mean mixed layer respiration rate was 2.5±2.1 mmol O2 m?3 d?1 (n=119) for the whole transect, 2.2±1.1 mmol O2 m?3 d?1 (n=32) in areas where chlorophyll a was <0.5 mg m?3 and 1.5±0.7 mmol O2 m?3 d?1 (n=10) where chlorophyll a was <0.2 mg m?3. These values lie within the range of published data collected in comparable waters, they co-vary with indicators of heterotrophic and autotrophic biomass (heterotrophic bacterial abundance, chlorophyll a concentration, beam attenuation and particulate organic carbon concentration) and they can be reconciled with accepted estimates of total respiratory activity. The mean and median respiratory quotient (RQ), calculated as the ratio of dissolved inorganic carbon production to dissolved oxygen consumption, was 0.8 (n=11). At the time of the study, plankton community respiration exceeded GP in the picoautotroph dominated oligotrophic regions (Eastern Tropical Atlantic [15.5°S–14.2°N] and North Atlantic Subtropical Gyre [21.5–42.5°N]), which amounted to 50% of the stations sampled along the 12,100 km transect. These regions also exhibited high heterotrophic: autotrophic biomass ratios, higher turnover rates of phytoplankton than of bacteria and low f ratios. However, the carbon supply mechanisms required to sustain the rates of respiration higher than GP could not be fully quantified. Future research should aim to determine the temporal balance of respiration and GP together with substrate supply mechanisms in these ocean regions.
Plankton, Respiration, Gross production, Net community production, Eastern Atlantic Ocean
787-813
Robinson, Carol
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Serret, Pablo
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Tilstone, Gavin
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Teira, Eva
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Zubkov, Mikhail V.
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Rees, Andrew P.
5971ea8f-f7ee-4556-b8b2-8ffc4b52d2c5
Woodward, E. Malcolm S.
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May 2002
Robinson, Carol
aa5b407d-ce1d-4706-a7ce-e2ee4c832071
Serret, Pablo
d5e253c3-633d-4ef8-9741-ef347b2ba2ab
Tilstone, Gavin
b48d90ea-3039-4f2a-a1a5-967e1109bf4d
Teira, Eva
f7f47f5a-1a45-4519-b4a1-f3e76ddf9721
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Rees, Andrew P.
5971ea8f-f7ee-4556-b8b2-8ffc4b52d2c5
Woodward, E. Malcolm S.
3a11b7bf-b110-448a-b1ee-ae1ce7d0fef5
Robinson, Carol, Serret, Pablo, Tilstone, Gavin, Teira, Eva, Zubkov, Mikhail V., Rees, Andrew P. and Woodward, E. Malcolm S.
(2002)
Plankton respiration in the Eastern Atlantic Ocean.
Deep Sea Research Part I: Oceanographic Research Papers, 49 (5), .
(doi:10.1016/S0967-0637(01)00083-8).
Abstract
Concurrent measurements of dark community respiration (DCR), gross production (GP), size fractionated primary production (14C PP), nitrogen uptake, nutrients, chlorophyll a concentration, and heterotrophic and autotrophic bacterial abundance were collected from the upper 200 m of a latitudinal (32°S–48°N) transect in the Eastern Atlantic Ocean during May/June 1998. The mean mixed layer respiration rate was 2.5±2.1 mmol O2 m?3 d?1 (n=119) for the whole transect, 2.2±1.1 mmol O2 m?3 d?1 (n=32) in areas where chlorophyll a was <0.5 mg m?3 and 1.5±0.7 mmol O2 m?3 d?1 (n=10) where chlorophyll a was <0.2 mg m?3. These values lie within the range of published data collected in comparable waters, they co-vary with indicators of heterotrophic and autotrophic biomass (heterotrophic bacterial abundance, chlorophyll a concentration, beam attenuation and particulate organic carbon concentration) and they can be reconciled with accepted estimates of total respiratory activity. The mean and median respiratory quotient (RQ), calculated as the ratio of dissolved inorganic carbon production to dissolved oxygen consumption, was 0.8 (n=11). At the time of the study, plankton community respiration exceeded GP in the picoautotroph dominated oligotrophic regions (Eastern Tropical Atlantic [15.5°S–14.2°N] and North Atlantic Subtropical Gyre [21.5–42.5°N]), which amounted to 50% of the stations sampled along the 12,100 km transect. These regions also exhibited high heterotrophic: autotrophic biomass ratios, higher turnover rates of phytoplankton than of bacteria and low f ratios. However, the carbon supply mechanisms required to sustain the rates of respiration higher than GP could not be fully quantified. Future research should aim to determine the temporal balance of respiration and GP together with substrate supply mechanisms in these ocean regions.
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Published date: May 2002
Keywords:
Plankton, Respiration, Gross production, Net community production, Eastern Atlantic Ocean
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Local EPrints ID: 59222
URI: http://eprints.soton.ac.uk/id/eprint/59222
ISSN: 0967-0637
PURE UUID: c06352d4-a508-47f4-865f-c79e8f06dddb
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Date deposited: 28 Aug 2008
Last modified: 15 Mar 2024 11:14
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Author:
Carol Robinson
Author:
Pablo Serret
Author:
Gavin Tilstone
Author:
Eva Teira
Author:
Mikhail V. Zubkov
Author:
Andrew P. Rees
Author:
E. Malcolm S. Woodward
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