Preprint Article Version 1 Preserved in Portico This version is not peer-reviewed

Characterization of Potential Threats from Cyanobacterial Toxins in Lake Victoria Embayments and During Water Treatment

Mark Olokotum
* ORCID logo ,
Jean-François Humbert
ORCID logo ,
Catherine Quiblier
,
William Okello
,
Ronald Semyalo
,
Marc Troussellier
,
Benjamin Marie
ORCID logo ,
Kathrin Baumann
,
Rainer Kurmayer
* ORCID logo ,
Cécile Bernard
*
Version 1 : Received: 22 July 2022 / Approved: 25 July 2022 / Online: 25 July 2022 (08:16:59 CEST)

A peer-reviewed article of this Preprint also exists.

Olokotum, M.; Humbert, J.-F.; Quiblier, C.; Okello, W.; Semyalo, R.; Troussellier, M.; Marie, B.; Baumann, K.; Kurmayer, R.; Bernard, C. Characterization of Potential Threats from Cyanobacterial Toxins in Lake Victoria Embayments and during Water Treatment. Toxins 2022, 14, 664. Olokotum, M.; Humbert, J.-F.; Quiblier, C.; Okello, W.; Semyalo, R.; Troussellier, M.; Marie, B.; Baumann, K.; Kurmayer, R.; Bernard, C. Characterization of Potential Threats from Cyanobacterial Toxins in Lake Victoria Embayments and during Water Treatment. Toxins 2022, 14, 664.

Abstract

Africa’s water needs are often supported by eutrophic waterbodies dominated by cyanobacteria posing health threats to riparian populations from cyanotoxins, and Lake Victoria is no exception. In two embayments of the lake (Murchison Bay and Napoleon Gulf), cyanobacterial surveys were conducted to characterize the dynamics of cyanotoxins in lake water and water treatment plants. Forty-six cyanobacterial taxa were recorded and out of these 14 were considered potentially toxigenic (i.e., from the genera Dolichospermum, Microcystis, Oscillatoria, Pseudanabaena and Raphidiopsis). A higher concentration (ranging from 5-10 µg MC-LR equiv. L-1) of microcystins (MCs) was detected in Murchison Bay compared to Napoleon Gulf, with a declining gradient from the inshore (max. 15 µg MC-LR equiv. L-1) to the open lake. In Murchison Bay, an increase either in Microcystis sp. biovolume and MC was observed over the last two decades. Despite high cell densities of toxigenic Microcystis and high MC concentrations, the water treatment plant in Murchison Bay efficiently removed the cyanobacterial biomass, intracellular and dissolved MC to below the lifetime guideline value for exposure via drinking water (< 1.0 µg MC-LR equiv. L-1). Thus, the potential health threats stem from the consumption of untreated water and recreational activities, along the shores of the lake embayments. MC concentrations were predicted from Microcystis cell numbers regulated by environmental factors such as solar radiation, wind speed in the N-S direction and turbidity. Thus, an early warning through microscopical counting of Microcystis cell numbers is proposed to better manage health risks from toxigenic cyanobacteria in Lake Victoria.

Keywords

Drinking water; rapid sand filtration; Recreational areas; Exposure; Microcystis and Dolichospermum; Microcystins

Subject

Environmental and Earth Sciences, Environmental Science

Copyright: This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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