Freshwater ecosystems at risk due to glyphosate use

September 11, 2021

Freshwater bacteria and zooplankton communities react differentlyInterestingly, glyphosate contamination affected freshwater bacteria and zooplankton differently.“We do not know if bacterial communities from less diverse ecosystems would be able to cope with a strong contamination the same way.”On first exposure to glyphosate, zooplankton community abundance and diversity declined rapidly.This is because the application of glyphosate eliminated sensitive species, allowing the few tolerant species to take over and proliferate.“How the effects of glyphosate cascade through freshwater ecosystems to affect their health in the long-term deserves much more study.”About these studies “Resistance, resilience, and functional redundancy of freshwater bacterioplankton facing agricultural stress” by Barbosa da Costa et al.Over half of McGill students claim a first language other than English, including approximately 19% of our students who say French is their mother tongue.

One of the few species that was found to be resistant to severe glyphosate contamination was Scapholeberis mucronata, a freshwater zooplankter commonly found in Québec and elsewhere in North America. CREDIT: Marie-Pier Hébert

A series of recent research papers from a McGill-led team has found that the herbicide glyphosate—commonly sold under the label Roundup—can alter the structure of natural freshwater bacterial and zooplankton communities. Notably, the researchers found that for zooplankton, aquatic concentrations of 0.1 mg/L glyphosate were sufficient to cause diversity loss.

“Because plankton form the foundation of the food chain in freshwater ecosystems, it is very important to understand how plankton communities respond to widely used pesticides,” said Jesse Shapiro, an Associate Professor in McGill’s Department of Microbiology & Immunology. “Our research shows that the structure of these communities can be impaired under currently acceptable North American water quality guidelines.”

Using freshwater ponds to test toxicity of agrochemicals

Toxicity studies often rely on laboratory tests with a single species, ignoring the possible influence of many environmental factors and species interactions on community responses to pollutants. In these studies, the researchers used a large-scale array of 1,000-L experimental ponds filled with lake water to gain a better understanding of the effects of the chemicals on naturally-occurring planktonic organisms. They recorded bacterial, algal and zooplankton community responses to the individual and joint presence of three chemicals commonly used by farmers around the world: the herbicide glyphosate (Roundup—used to control weeds notably in corn and soy fields), the neonicotinoid insecticide imidacloprid (used to control piercing-sucking insects), and nutrient fertilizers.

We found that when we applied the pesticides and fertilizers alone and in combination, at a wide range of concentrations, that glyphosate was the most influential driver of community structure among the agrochemicals,” said Andrew Gonzalez, a Professor in McGill’s Biology Department and the Liber Ero Chair in Biodiversity Conservation.

Freshwater bacteria and zooplankton communities react differently

Interestingly, glyphosate contamination affected freshwater bacteria and zooplankton differently. The bacterial communities were initially affected by high concentrations of glyphosate, but they could recover from this stress within days.

“We believe that they were able to recover because they came from a pristine lake and the initial community was diverse enough to “buffer” such a large impact,” said Naila Barbosa da Costa, a PhD student in Biology at l’Université de Montréal and the first author on the recent paper on bacterioplankton in Molecular Ecology. “We do not know if bacterial communities from less diverse ecosystems would be able to cope with a strong contamination the same way.”

On first exposure to glyphosate, zooplankton community abundance and diversity declined rapidly. Thereafter, the total abundance of zooplankton recovered within less than 3 weeks, but the number of species (and hence, diversity) remained low, especially in highly contaminated ponds. This is because the application of glyphosate eliminated sensitive species, allowing the few tolerant species to take over and proliferate.

“Long-lasting species loss and compositional shifts have clear implications for the functioning and stability of freshwater ecosystems, even when zooplankton abundance appears unaffected,” said Marie-Pier Hébert, a PhD candidate in McGill’s Department of Biology and the first author on the paper published recently in Ecological Applications. “How the effects of glyphosate cascade through freshwater ecosystems to affect their health in the long-term deserves much more study.”

About these studies

“Resistance, resilience, and functional redundancy of freshwater bacterioplankton facing agricultural stress” by Barbosa da Costa et al. in Molecular Ecology.
DOI: doi: 10.1111/mec.16100

“Widespread agrochemicals differentially affect zooplankton biomass and community structure” by MP Hébert et al in Ecological Applications.
DOI: doi: 10.1002/eap.2423

The research was funded by the Natural Sciences and Engineering Research Council of Canada (NSERC), the Fonds de Recherche du Quebec-Nature et Technologies, and the Canadian Foundation for Innovation (CFI), the Liber Ero Chair in Biodiversity Conservation.

About McGill University

Founded in Montreal, Quebec, in 1821, McGill University is Canada’s top ranked medical doctoral university. McGill is consistently ranked as one of the top universities, both nationally and internationally. It is a world-renowned institution of higher learning with research activities spanning three campuses, 11 faculties, 13 professional schools, 300 programs of study and over 40,000 students, including more than 10,200 graduate students. McGill attracts students from over 150 countries around the world, its 12,800 international students making up 31% of the student body. Over half of McGill students claim a first language other than English, including approximately 19% of our students who say French is their mother tongue.

The source of this news is from Mc Gill University

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