Biogeosciences (Nov 2008)

Marine ecosystem community carbon and nutrient uptake stoichiometry under varying ocean acidification during the PeECE III experiment

  • R. G. J. Bellerby,
  • K. G. Schulz,
  • U. Riebesell,
  • C. Neill,
  • G. Nondal,
  • E. Heegaard,
  • T. Johannessen,
  • K. R. Brown

Journal volume & issue
Vol. 5, no. 6
pp. 1517 – 1527

Abstract

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Changes to seawater inorganic carbon and nutrient concentrations in response to the deliberate CO<sub>2</sub> perturbation of natural plankton assemblages were studied during the 2005 Pelagic Ecosystem CO<sub>2</sub> Enrichment (PeECE III) experiment. Inverse analysis of the temporal inorganic carbon dioxide system and nutrient variations was used to determine the net community stoichiometric uptake characteristics of a natural pelagic ecosystem perturbed over a range of <i>p</i>CO<sub>2</sub> scenarios (350, 700 and 1050 μatm). Nutrient uptake showed no sensitivity to CO<sub>2</sub> treatment. There was enhanced carbon production relative to nutrient consumption in the higher CO<sub>2</sub> treatments which was positively correlated with the initial CO<sub>2</sub> concentration. There was no significant calcification response to changing CO<sub>2</sub> in <i>Emiliania huxleyi</i> by the peak of the bloom and all treatments exhibited low particulate inorganic carbon production (~15 μmol kg<sup>&minus;1</sup>). With insignificant air-sea CO<sub>2</sub> exchange across the treatments, the enhanced carbon uptake was due to increase organic carbon production. The inferred cumulative C:N:P stoichiometry of organic production increased with CO<sub>2</sub> treatment from 1:6.3:121 to 1:7.1:144 to 1:8.25:168 at the height of the bloom. This study discusses how ocean acidification may incur modification to the stoichiometry of pelagic production and have consequences for ocean biogeochemical cycling.