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Net growth rates of picocyanobacteria and nano-/microphytoplankton inhabiting shelf waters of the central (17°S) and southern (20°S) Great Barrier ReefNicholas D. Crosbie*, Miles J. FurnasAustralian Institute of Marine Science, PMB. No. 3, Townsville M.C., Townsville 4810, Australia and Cooperative Research Centre for Ecologically Sustainable Development of the Great Barrier Reef, James Cook University, Townsville 4811, Australia![]() ABSTRACT: Growth rates of diffusion cultures of nano- and microphytoplankton from Great Barrier Reef shelf water, especially diatoms (µmax = 3.2 doublings d-1), exceeded those of picocyanobacteria (Prochlorococcus and Synechococcus) when DIN (NH4+ + NO2- + NO3-) concentrations were ≥0.05 µM. The picocyanobacteria (µmax = 1.1 and 1.6 doublings d-1 for Prochlorococcus and Synechococcus respectively) achieved higher relative and absolute growth rates when time-averaged DIN concentrations were <0.05 µM. Most estimates (71%) of in situ growth rates of nano-/microphytoplankton were ≤0.25 of µmax when DIN concentrations were <0.1 µM, while only 18% of in situ picocyanobacteria growth rates were ≤0.25 of µmax when DIN concentrations were <0.1 µM, the majority being ≥0.50 of µmax at such DIN concentrations. Thus growth rates of Synechococcus and Prochlorococcus populations did not appear to be significantly nutrient (nitrogen)-limited under ambient concentrations, and were of similar order to those measured in the equatorial Pacific Ocean, where NO3- concentrations (>2 µM) are far above growth-saturating levels, and in the oligotrophic North Pacific Gyre. In contrast, for those nano-/microphytoplankton for which in situ or simulated in situ growth rates were estimated, growth rates appeared to be nitrogen-limited at DIN concentrations <0.1 µM. The results provide further support for the hypothesis that picocyanobacteria dominate oligotrophic marine water columns because of their superior ability to grow at low nutrient concentrations.
KEY WORDS: Synechococcus · Prochlorococcus · Tropical nano-/microphytoplankton · Growth rates
Published in AME Vol.
24, No. 3
(2001) on July 18
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