Cecilio Valadez-Cano

Integrating Omics and Bioinformatics to Study Microbial Communities

The global proliferation of aquatic, benthic Microcoleus: Taxonomy, distribution, toxin production, ecology, and future directions


Journal article


Laura T. Kelly, Daniel G. Beach, Joanna R. Blaszczak, Keith Bouma-Gregson, Sydney M. Brown, Haowu Cheng, Janette L. Davidson, Jutta Fastner, Marcus Francis, Andrea Garcia Jimenez, Laurel Genzoli, Ramesh Goel, Diego Gonzalez, Kim M. Handley, Sabine Hilt, Jean-François Humbert, Rob Jamieson, Lindsay Johnston, Pilar Junier, Janice Lawrence, Pearse McCarron, Sven Meissner, Jacob Mormando, Jonathan Puddick, Catherine Quiblier, Nagasaijanani Rajpirathap, Charlotte Schampera, Andy Selwood, Karen Shearer, Abeer Sohrab, Rosalina Stancheva, Cecilio Valadez-Cano, Jordan M. Zabrecky, Susanna A. Wood
Water Research, vol. 294, 2026, p. 125441


Cite

Cite

APA   Click to copy
Kelly, L. T., Beach, D. G., Blaszczak, J. R., Bouma-Gregson, K., Brown, S. M., Cheng, H., … Wood, S. A. (2026). The global proliferation of aquatic, benthic <i>Microcoleus:</i> Taxonomy, distribution, toxin production, ecology, and future directions. Water Research, 294, 125441. https://doi.org/10.1016/j.watres.2026.125441


Chicago/Turabian   Click to copy
Kelly, Laura T., Daniel G. Beach, Joanna R. Blaszczak, Keith Bouma-Gregson, Sydney M. Brown, Haowu Cheng, Janette L. Davidson, et al. “The Global Proliferation of Aquatic, Benthic ≪i≫Microcoleus:≪/i≫ Taxonomy, Distribution, Toxin Production, Ecology, and Future Directions.” Water Research 294 (2026): 125441.


MLA   Click to copy
Kelly, Laura T., et al. “The Global Proliferation of Aquatic, Benthic ≪i≫Microcoleus:≪/i≫ Taxonomy, Distribution, Toxin Production, Ecology, and Future Directions.” Water Research, vol. 294, 2026, p. 125441, doi:10.1016/j.watres.2026.125441.


BibTeX   Click to copy

@article{kelly2026a,
  title = {The global proliferation of aquatic, benthic <i>Microcoleus:</i> Taxonomy, distribution, toxin production, ecology, and future directions},
  year = {2026},
  journal = {Water Research},
  pages = {125441},
  volume = {294},
  doi = {10.1016/j.watres.2026.125441},
  author = {Kelly, Laura T. and Beach, Daniel G. and Blaszczak, Joanna R. and Bouma-Gregson, Keith and Brown, Sydney M. and Cheng, Haowu and Davidson, Janette L. and Fastner, Jutta and Francis, Marcus and Jimenez, Andrea Garcia and Genzoli, Laurel and Goel, Ramesh and Gonzalez, Diego and Handley, Kim M. and Hilt, Sabine and Humbert, Jean-François and Jamieson, Rob and Johnston, Lindsay and Junier, Pilar and Lawrence, Janice and McCarron, Pearse and Meissner, Sven and Mormando, Jacob and Puddick, Jonathan and Quiblier, Catherine and Rajpirathap, Nagasaijanani and Schampera, Charlotte and Selwood, Andy and Shearer, Karen and Sohrab, Abeer and Stancheva, Rosalina and Valadez-Cano, Cecilio and Zabrecky, Jordan M. and Wood, Susanna A.}
}

Abstract

There have been sporadic reports of aquatic, benthic Microcoleus proliferations in freshwater rivers, lakes, and reservoirs for four decades, with reports increasing in frequency over the last twenty years, suggesting a possible rise in their global distribution, frequency, and intensity. Microcoleus can produce anatoxins which are neurotoxic, and ingestion of toxic mats has caused hundreds of dog fatalities and raised serious human and ecological health concerns. This review synthesizes and evaluates current knowledge on Microcoleus distribution, taxonomy, toxin production, toxicity, ecology, environmental drivers, and biotic interactions. Toxin-producing Microcoleus have been reported in at least 18 countries, though many regions have not conducted toxin testing, suggesting a broader but under-reported distribution. Proliferations occur across diverse habitats, including cobble-bedded streams, large sandy rivers, reservoirs, and lakes. Microcoleus proliferations also occur on macrophytes, both in lakes and rivers. Genomic analyses currently classify anatoxin-producing Microcoleus into distinct species, with all known anatoxin-producers isolated from freshwater ecosystems. Anatoxin concentrations vary widely over space and time, within and among waterbodies. While studies on environmental drivers remain limited, research in cobble-bedded rivers suggests that moderate enrichment of dissolved inorganic nitrogen and low dissolved reactive phosphorus concentrations in the water column promote proliferation. Metagenomic approaches have revealed unique nutrient acquisition and storage strategies used by Microcoleus. Key knowledge gaps remain around the environmental and ecological triggers of proliferation, toxin production, genomic diversity and microbial interactions. Addressing these gaps through coordinated, global studies using robust datasets and consistent methods is critical to improve prediction, monitoring, and mitigation of this increasingly widespread public and ecological health threat.