Abstract
A reduction in floral resource abundance and diversity is generally observed in agro-ecosystems, along with widespread exposure to pesticides. Therefore, a better understanding on how the availability and quality of pollen diets can modulate honeybee sensitivity to pesticides is required. For that purpose, we evaluated the toxicity of acute exposure and chronic exposures to field realistic and higher concentrations of azoxystrobin (fungicide) and sulfoxaflor (insecticide) in honeybees provided with pollen diets of differing qualities (named S and BQ pollens). We found that pollen intake reduced the toxicity of the acute doses of pesticides. Contrary to azoxystrobin, chronic exposures to sulfoxaflor increased by 1.5- to 12-fold bee mortality, which was reduced by pollen intake. Most importantly, the risk of death upon exposure to a high concentration of sulfoxaflor was significantly lower for the S pollen diet when compared with the BQ pollen diet. This reduced pesticide toxicity was associated with a higher gene expression of vitellogenin, a glycoprotein that promotes bee longevity, a faster sulfoxaflor metabolization and a lower concentration of the phytochemical p-coumaric acid, known to upregulate detoxification enzymes. Thus, our study revealed that pollen quality can influence the ability of bees to metabolize pesticides and withstand their detrimental effects, providing another strong argument for the restoration of suitable foraging habitat.
Highlights
IntroductionVariation in the protein : carbohydrate ratio can modulate their sensitivity to toxins [2], and secondary metabolites may increase their tolerance to various pesticides by stimulating the production of detoxification enzymes [3,4]
Lena Barascou1, Deborah Sene1, Alexandre Barraud2, Denis Michez2, Victor Lefebvre2, Piotr Medrzycki3, Gennaro Di Prisco3,4, Verena Strobl5, Orlando Yañez5, Peter Neumann5, Yves Le Conte1 and Cedric Alaux1
We evaluated the toxicity of acute exposure and chronic exposures to field realistic and higher concentrations of azoxystrobin and sulfoxaflor in honeybees provided with pollen diets of differing qualities
Summary
Variation in the protein : carbohydrate ratio can modulate their sensitivity to toxins [2], and secondary metabolites may increase their tolerance to various pesticides by stimulating the production of detoxification enzymes [3,4] In this context, the contribution of resource availability and quality to the overall health of honeybees (Apis mellifera), a major pollinator of crops and wild plants [5], has received increased attention [6,7,8]. The quality of honeybee diets varies greatly over time and according to landscape features [24,25] These variations in nutritional content may provide a basis for nutritional modulation of pesticide toxicity. Endpoints other than mortality rate have been used to assess the influence of pollen quality and availability on pesticide sensitivity in honeybees (development of feeding glands [34]), as well as in bumblebees (micro-colony performance, nest founding [35,36,37]) and Osmia (reproduction [38]); these studies generally reported a lack of interactions between these two factors
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