Abstract
Microcystis forms harmful cyanobacterial algal blooms around the world, including regions with low inorganic nitrogen (N) concentrations. Here, we measured the N(2) fixation rates of isolated Microcystis colonies, free-living plankton, and the whole plankton community during dense Microcystis blooms over a three year period in six diverse lakes across eastern North America including Lake Erie. For five of six lakes, rates within the colony fraction were greater than the rates measured for free-living plankton (p < 0.05). N(2) fixation rates were inversely correlated with the rates of ammonium uptake by the colony fraction (p < 0.05), and in experiments, ammonium significantly reduced N(2) fixation rates within the colony fraction by 50-85% (p < 0.001). In several lakes, the δ(15)N of isolated colonies was lower (p < 0.05) than that of free-living plankton presumably due to the preferential use of (14)N(2) by diazotrophic, colony-associated plankton. Cyanobacterial and noncyanobacterial nifH sequences were associated with the Microcystis colonies with the nifH-based diversity of both groups being lower in colonies compared to free-living plankton. Compared to nitrate, ammonium, and urea uptake, N(2) fixation rates accounted for 1-76% of total N assimilation by the Microcystis colony fraction and averaged 18% across systems, suggesting this process could support the proliferation of Microcystis blooms.