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Biogeosciences An interactive open-access journal of the European Geosciences Union

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Biogeosciences, 5, 669-678, 2008
© Author(s) 2008. This work is distributed
under the Creative Commons Attribution 3.0 License.
06 May 2008
Availability of phosphate for phytoplankton and bacteria and of glucose for bacteria at different pCO2 levels in a mesocosm study
T. Tanaka1, T. F. Thingstad1, T. Løvdal1,*, H.-P. Grossart2, A. Larsen1, M. Allgaier2, M. Meyerhöfer3, K. G. Schulz3, J. Wohlers3, E. Zöllner3, and U. Riebesell3 1Marine Microbiology Research Group (MMRG), Department of Biology, University of Bergen, Bergen, Norway
2Leibniz Institute for Freshwater Ecology and Inland Fisheries (IGB-Neuglobsow), Department of Limnology of Stratified Lakes, Alte Fischerhuette 2, D-16775 Stechlin, Germany
3Leibniz Institute of Marine Sciences (IFM-GEOMAR), Düsternbrooker Weg 20, 24105 Kiel, Germany
*present address: Faculty of Science and Technology, Department of Mathematics and Natural Sciences, University of Stavanger, N-4036 Stavanger, Norway
Abstract. Availability of phosphate for phytoplankton and bacteria and of glucose for bacteria at different pCO2 levels were studied in a mesocosm experiment (PeECE III). Using nutrient-depleted SW Norwegian fjord waters, three different levels of pCO2 (350 μatm: 1×CO2; 700 μatm: 2×CO2; 1050 μatm: 3×CO2) were set up, and nitrate and phosphate were added at the start of the experiment in order to induce a phytoplankton bloom. Despite similar responses of total particulate P concentration and phosphate turnover time at the three different pCO2 levels, the size distribution of particulate P and 33PO4 uptake suggested that phosphate transferred to the >10 μm fraction was greater in the 3×CO2 mesocosm during the first 6–10 days when phosphate concentration was high. During the period of phosphate depletion (after Day 12), specific phosphate affinity and specific alkaline phosphatase activity (APA) suggested a P-deficiency (i.e. suboptimal phosphate supply) rather than a P-limitation for the phytoplankton and bacterial community at the three different pCO2 levels. Specific phosphate affinity and specific APA tended to be higher in the 3×CO2 than in the 2×CO2 and 1×CO2 mesocosms during the phosphate depletion period, although no statistical differences were found. Glucose turnover time was correlated significantly and negatively with bacterial abundance and production but not with the bulk DOC concentration. This suggests that even though constituting a small fraction of the bulk DOC, glucose was an important component of labile DOC for bacteria. Specific glucose affinity of bacteria behaved similarly at the three different pCO2 levels with measured specific glucose affinities being consistently much lower than the theoretical maximum predicted from the diffusion-limited model. This suggests that bacterial growth was not severely limited by the glucose availability. Hence, it seems that the lower availability of inorganic nutrients after the phytoplankton bloom reduced the bacterial capacity to consume labile DOC in the upper mixed layer of the stratified mesocosms.

Citation: Tanaka, T., Thingstad, T. F., Løvdal, T., Grossart, H.-P., Larsen, A., Allgaier, M., Meyerhöfer, M., Schulz, K. G., Wohlers, J., Zöllner, E., and Riebesell, U.: Availability of phosphate for phytoplankton and bacteria and of glucose for bacteria at different pCO2 levels in a mesocosm study, Biogeosciences, 5, 669-678, doi:10.5194/bg-5-669-2008, 2008.
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