Probiotics could improve survival rates in honey bees exposed to pesticide, study finds

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London, Ontario – In a new study from Lawson Health Research Institute (Lawson) and Western University, researchers have shown that probiotics can potentially protect honey bees from the toxic effects of pesticides.

Honey bees are critical to agriculture as they pollinate approximately 35 per cent of the global food crop, contributing an estimated $4.39 billion per year to the Canadian economy. Pesticides are currently used to maximize crop yields, but the most common pesticides, neonicotinoid insecticides, are a major factor in colony collapse disorder which is killing honey bee populations.

“The demise of honey bees would be disastrous for humankind. A current dilemma in agriculture is how to prevent bee decline while mitigating crop losses,” says Dr. Gregor Reid, Director for the Canadian Centre for Human Microbiome and Probiotic Research at Lawson, and Professor at Western’s Schulich School of Medicine & Dentistry. “We wanted to see whether probiotics could counter the toxic effects of pesticides and improve honey bee survival.”

The study was performed by trainees Brendan Daisley and Mark Trinder in Dr. Reid’s lab at St. Joseph’s Hospital in London, Ontario. The researchers utilized fruit flies as a well-known model for studying pesticide toxicity in honey bees. Both insects are affected similarly by neonicotinoids, have very similar immune systems, and share many common microbes present in their microbiota – the collection of microorganisms found in each insect.

The researchers found that fruit flies exposed to one of the world’s most commonly used pesticides, imidacloprid (IMI), experienced changes to their microbiota and were more susceptible to infections. The flies were exposed to a comparable amount of pesticide as honey bees in the field.

By administering a specific strain of probiotic lactobacilli, survival among fruit flies exposed to the pesticide improved significantly. The mechanism involved stimulating the immune system through a pathway that insects use to adapt to infection, heat and other stresses.  

“Our study showed that probiotic lactobacilli can improve immunity and potentially help honey bees to live longer after exposure to pesticides,” says Daisley, an MSc candidate. He notes that probiotic lactobacilli could be easily administered through pollen patties, which are used by beekeepers to provide nutritional support and anti-pesticide effects to honey bees.

Over the winter months, honey bee mortality has been steadily increasing with ranges of 38 to 58 per cent in recent years, two to three times higher than the sustainable level. In Ontario alone, 340 bee keepers reported an abnormally high number of bee deaths, with over 70 per cent of dead bees testing positive for neonicotinoid residues (Government of Ontario).

“While cessation of pesticide use would be ideal, farmers currently have little alternative to obtain the yields that keep their businesses viable,” says Dr. Reid. “Until we can cease using pesticides, we need to find ways to protect humans and wildlife against their side effects. Probiotics may prove as an effective protective intervention against colony collapse disorder.”

The researchers hope to further study the mechanisms involved in this process and perform field tests on honey bee populations in Ontario.

The study, “Neonicotinoid-induced pathogen susceptibility is mitigated by Lactobacillus plantarum immune stimulation in a Drosophila melanogaster model”, is published in Nature’s Scientific Reports. The research was funded by the Natural Sciences and Engineering Research Council of Canada (NSERC).

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About Lawson Health Research Institute

Lawson Health Research Institute is one of Canada’s top hospital-based research institutes, tackling the most pressing challenges in health care. As the research institute of London Health Sciences Centre and St. Joseph’s Health Care London, our innovation happens where care is delivered. Lawson research teams are at the leading-edge of science with the goal of improving health and the delivery of care for patients. Working in partnership with Western University, our researchers are encouraged to pursue their curiosity, collaborate often and share their discoveries widely. Research conducted through Lawson makes a difference in the lives of patients, families and communities around the world. To learn more, visit www.lawsonresearch.ca.

About Western

Western delivers an academic experience second to none. Since 1878, The Western Experience has combined academic excellence with life-long opportunities for intellectual, social and cultural growth in order to better serve our communities. Our research excellence expands knowledge and drives discovery with real-world application. Western attracts individuals with a broad worldview, seeking to study, influence and lead in the international community.

About The Schulich School of Medicine & Dentistry

The Schulich School of Medicine & Dentistry at Western University is one of Canada’s preeminent medical and dental schools. Established in 1881, it was one of the founding schools of Western University and is known for being the birthplace of family medicine in Canada. For more than 130 years, the School has demonstrated a commitment to academic excellence and a passion for scientific discovery. 

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