Depth related amino acid uptake by Prochlorococcus cyanobacteria in the Southern Atlantic tropical gyre
Depth related amino acid uptake by Prochlorococcus cyanobacteria in the Southern Atlantic tropical gyre
Ambient concentrations and turnover rates of two amino acids, leucine and methionine, by total bacterioplankton and Prochlorococcus cyanobacteria were determined along a latitudinal transect across the Southern Atlantic gyre using a combined isotopic dilution and flow cytometric sorting technique. The ambient concentrations of methionine (0.2–0.65 nM) were about 2 times higher than the concentrations of leucine, while the turnover rates of the two amino acids were remarkably similar (0.1–0.7 nM d?1). The concentrations of both amino acids did not vary significantly with depth between 3 and 150 m but their turnover rates were 1.5–2 times higher in the top 3–80 m. Prochlorococcus took up amino acids in situ at high rates. Using a representative 35S-methionine precursor, about 25% of total bacterioplankton consumption of amino acids could be assigned to Prochlorococcus with low red fluorescence (Pro LRF) inhabiting the surface mixed layer down to 80 m and about 50% assigned to Prochlorococcus with high red fluorescence (Pro HRF) living below 100 m. In the same deep waters the cellular amino acid uptake of Pro LRF was less than 6% of that of the Pro HRF, indicating declining metabolic activity of the former. The mean cellular uptake rate of Pro HRF at depths below 120 m was 2.5 amol cell?1 d?1, 4 times higher than the rates of Pro LRF in the top 80 m. The difference could be partially explained by Pro HRF cellular biomass being twice that of Pro LRF. The biomass specific rates of Prochlorococcus were comparable or higher (particular of the Pro HRF) than that of other bacterioplankton. The reported findings could explain ecological success of mixotrophic Prochlorococcus cyanobacteria over both strictly autotrophic algae and heterotrophic bacteria in oligotrophic regions sustained by nutrient remineralisation.
marine bacterioplankton, marine phytoplankton, mixotrophy, flow cytometric sorting, isotopic tracer bioassay
153-161
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Tarran, Glen A.
218a9233-a6ae-4d0c-a9ca-35ad0d5a35f7
Fuchs, Bernhard M.
dfa49acc-93b0-4d04-87af-52ec11fa6b0e
11 November 2004
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Tarran, Glen A.
218a9233-a6ae-4d0c-a9ca-35ad0d5a35f7
Fuchs, Bernhard M.
dfa49acc-93b0-4d04-87af-52ec11fa6b0e
Zubkov, Mikhail V., Tarran, Glen A. and Fuchs, Bernhard M.
(2004)
Depth related amino acid uptake by Prochlorococcus cyanobacteria in the Southern Atlantic tropical gyre.
FEMS Microbiology Ecology, 50 (3), .
(doi:10.1016/j.femsec.2004.06.009).
Abstract
Ambient concentrations and turnover rates of two amino acids, leucine and methionine, by total bacterioplankton and Prochlorococcus cyanobacteria were determined along a latitudinal transect across the Southern Atlantic gyre using a combined isotopic dilution and flow cytometric sorting technique. The ambient concentrations of methionine (0.2–0.65 nM) were about 2 times higher than the concentrations of leucine, while the turnover rates of the two amino acids were remarkably similar (0.1–0.7 nM d?1). The concentrations of both amino acids did not vary significantly with depth between 3 and 150 m but their turnover rates were 1.5–2 times higher in the top 3–80 m. Prochlorococcus took up amino acids in situ at high rates. Using a representative 35S-methionine precursor, about 25% of total bacterioplankton consumption of amino acids could be assigned to Prochlorococcus with low red fluorescence (Pro LRF) inhabiting the surface mixed layer down to 80 m and about 50% assigned to Prochlorococcus with high red fluorescence (Pro HRF) living below 100 m. In the same deep waters the cellular amino acid uptake of Pro LRF was less than 6% of that of the Pro HRF, indicating declining metabolic activity of the former. The mean cellular uptake rate of Pro HRF at depths below 120 m was 2.5 amol cell?1 d?1, 4 times higher than the rates of Pro LRF in the top 80 m. The difference could be partially explained by Pro HRF cellular biomass being twice that of Pro LRF. The biomass specific rates of Prochlorococcus were comparable or higher (particular of the Pro HRF) than that of other bacterioplankton. The reported findings could explain ecological success of mixotrophic Prochlorococcus cyanobacteria over both strictly autotrophic algae and heterotrophic bacteria in oligotrophic regions sustained by nutrient remineralisation.
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Published date: 11 November 2004
Keywords:
marine bacterioplankton, marine phytoplankton, mixotrophy, flow cytometric sorting, isotopic tracer bioassay
Identifiers
Local EPrints ID: 15675
URI: http://eprints.soton.ac.uk/id/eprint/15675
PURE UUID: 38d31151-09eb-45ea-bdb2-aa5ce75355c6
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Date deposited: 13 May 2005
Last modified: 15 Mar 2024 05:41
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Author:
Mikhail V. Zubkov
Author:
Glen A. Tarran
Author:
Bernhard M. Fuchs
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