Honey bee toxicological responses do not accurately predict environmental risk of imidacloprid to a solitary ground-nesting bee species

Honey bees (Apis mellifera) are the current model species for pesticide risk assessments, but considering bee diversity, their life histories, and paucity of non-eusocial bee data, this approach could underestimate risk. We assessed whether honey bees were an adequate risk predictor to non-targets....

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Published in:The Science of the total environment 2022-09, Vol.839, p.156398-156398, Article 156398
Main Authors: Kueh Tai, Felicia, Pattemore, David E., Jochym, Mateusz, Beggs, Jacqueline R., Northcott, Grant L., Mortensen, Ashley N.
Format: Article
Language:English
Subjects:
Honey bee
Imidacloprid
Pesticide risk assessment
Solitary ground-nesting bee
Toxicity
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Summary:Honey bees (Apis mellifera) are the current model species for pesticide risk assessments, but considering bee diversity, their life histories, and paucity of non-eusocial bee data, this approach could underestimate risk. We assessed whether honey bees were an adequate risk predictor to non-targets. We conducted oral and contact bioassays for Leioproctus paahaumaa, a solitary ground-nesting bee, and A. mellifera, using imidacloprid (neonicotinoid) and dimethoate (organophosphate). The bees responded inconsistently; L. paahaumaa were 36 and 194 times more susceptible to oral and topically applied imidacloprid than A. mellifera, but showed comparable sensitivity to dimethoate. Furthermore, the proposed safety factor of ten applied to honey bee endpoints did not cover the interspecific sensitivity difference. Our standard-setting study highlights the urgent need for more comparative inter-species toxicity studies and the development of standardized toxicity protocols to ensure regulatory pesticide risk assessment frameworks are protective of diverse pollinators. [Display omitted] •Different bee species responded inconsistently to different classes of pesticides.•Solitary ground-nesting bees were highly sensitive to imidacloprid.•Ten-fold safety factor did not capture the imidacloprid toxicities to solitary bees.•Honey bees are not accurate risk predictors for solitary ground-nesting bees.•Methodological innovation for oral toxicity; known amount of pesticide administered.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2022.156398