Water Research X (Sep 2024)

A cohesive Microcoleus strain cluster causes benthic cyanotoxic blooms in rivers worldwide

  • Pilar Junier,
  • Guillaume Cailleau,
  • Mathilda Fatton,
  • Pauline Udriet,
  • Isha Hashmi,
  • Danae Bregnard,
  • Andrea Corona-Ramirez,
  • Eva di Francesco,
  • Thierry Kuhn,
  • Naïma Mangia,
  • Sami Zhioua,
  • Daniel Hunkeler,
  • Saskia Bindschedler,
  • Simon Sieber,
  • Diego Gonzalez

Journal volume & issue
Vol. 24
p. 100252

Abstract

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Over the last two decades, proliferations of benthic cyanobacteria producing derivatives of anatoxin-a have been reported in rivers worldwide. Here, we follow up on such a toxigenic event happening in the Areuse river in Switzerland and investigate the diversity and genomics of major bloom-forming riverine benthic cyanobacteria. We show, using 16S rRNA-based community profiling, that benthic communities are dominated by Oscillatoriales. We correlate the detection of one Microcoleus sequence variant matching the Microcoleus anatoxicus species with the presence of anatoxin-a derivatives and use long-read metagenomics to assemble complete circular genomes of the strain. The main dihydro-anatoxin-a-producing strain in the Areuse is distinct from strains isolated in New Zealand, the USA, and Canada, but forms a monophyletic strain cluster with them with average nucleotide identity values close to the species threshold. Compared to the rest of the Microcoleus genus, the toxin-producing strains encode a 15 % smaller genome, lacking genes for the synthesis of some essential vitamins. Toxigenic mats harbor a distinct microbiome dominated by proteobacteria and bacteroidetes, which may support cyanobacterial growth by providing them with essential nutrients. We recommend that strains closely related to M. anatoxicus be monitored internationally in order to help predict and mitigate similar cyanotoxic events.

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