High nutrient loading and climatic parameters influence the dominance and dissimilarity of toxigenic cyanobacteria in northern bays of Lake Victoria
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Date
2021
Journal Title
Journal ISSN
Volume Title
Publisher
Journal of Great Lakes Research
Abstract
Eutrophication of Lake Victoria led to changes in its phytoplankton communities. However, different
levels of eutrophication exist in the open lake and the bays, and between embayments. This study utilized
spatial and temporal sampling of Napoleon Gulf and Murchison Bay, exhibiting different trophic conditions.
Over one year, we investigated phytoplankton biomass, richness, diversity and dissimilarity, and
related the dynamics of the dominant species to the limnological and climatic conditions. The results
confirmed that Napoleon Gulf and Murchison Bay showed large differences in eutrophication status, with
lower nutrient concentrations in Napoleon Gulf than in Murchison Bay, where a strong gradient was
observed from inshore to offshore areas. These nutrient dynamics resulted in a 4 to 10 fold higher
chlorophyll-a in Murchison Bay than in Napoleon Gulf. From the embayments, 135 phytoplankton taxa
were recorded with no significant differences in alpha diversity. However, high dissimilarity in community
structure was observed in beta diversity, mostly due to a turnover among the dominant toxigenic
species. Thus, from a similar species pool, there was a shift in the dominant toxigenic cyanobacteria from
Microcystis flos-aquae and M. aeruginosa in Murchison Bay, Dolichospermum circinale and Planktolyngbya
circumcreta in Napoleon Gulf to D. circinale in the offshore stations. These cyanobacteria are toxigenic
taxa with known health hazards. Using partial least square models, we showed that both climatic variables
(e.g. wind, solar radiation) and levels of inorganic dissolved nutrients (e.g. SRP, NO3 – , and NH4 + )
are the main drivers of differences and dominance in cyanobacteria communities in northern Lake
Victoria.
Description
Keywords
Eutrophication, Lake Victoria, Cyanobacteria, Phytoplankton, Diversity, Bays and gulfs
Citation
Olokotum, M., Troussellier, M., Escalas, A., Hamlaoui, S., Okello, W., Semyalo, R., ... & Bernard, C. (2021). High nutrient loading and climatic parameters influence the dominance and dissimilarity of toxigenic cyanobacteria in northern bays of Lake Victoria. Journal of Great Lakes Research, 47(4), 985-996. https://doi.org/10.1016/j.jglr.2021.04.021