Abstract
Neonicotinoid insecticides have been implicated in the rapid global decline of bumblebees over recent years, particularly in agricultural and urban areas. While there is much known about neonicotinoid toxicity effects at the colony stage of the bumblebee annual cycle, far less is known about such effects at other stages critical for the maintenance of wild populations. In the present work, individual-based feeding assays were used to show that chronic consumption of the widely used neonicotinoid clothianidin at a field-realistic average rate of 3.6 and 4.0 ng/g·bee/day reduces survival of queen and male bumblebees, respectively, within a 7-day period whereas consumption at a similar rate of 3.9 ng/g·bee/day in workers had no effect on survival. To test the hypothesis that males have a lower tolerance for oral clothianidin exposure than workers due to their haploid genetic status, RNAseq analysis was used to compare the transcriptomic responses of workers and males to chronic intake of clothianidin at a sub-lethal dose of 0.37ng/day for 5 days. Surprisingly, only 25/100 clothianidin-induced putative detoxification genes had expression levels that differed in a sex-specific manner, with 17 genes showing increased expression in workers. Sub-lethal clothianidin intake also induced changes in genes associated with a variety of other major biological functions, including locomotion, reproduction, and immunity. Collectively, these results suggest that chronic oral toxicity effects of neonicotinoids are greatest during mating and nest establishment phases of the bumblebee life cycle. Chronic oral toxicity tests on males and queens are therefore required in order to fully assess the impact of neonicotinoids on wild bumblebee populations.