Fuente: PubMed "apis cerana" Ecotoxicol Environ Saf. 2026 Jan 15;310:119770. doi: 10.1016/j.ecoenv.2026.119770. Epub 2026 Jan 22.ABSTRACTIprodione is a widely used fungicide for preventing various fungal diseases in numerous crops. Its residues in the environment pose potential risks to pollinating insects and may also cause reproductive toxicity in male animals. However, its impact on the reproductive health of drones of the Chinese honeybee (Apis cerana cerana), a key pollinator in China, has remained largely unexplored. This study therefore aimed to investigate the effects of iprodione on drone reproductive health, using concentrations reflective of environmental residues in pollen. Colonies were fed rape pollen patties spiked with three iprodione concentrations (500, 1000, and 2000 ng/g). Our results demonstrated that low (500 ng/g) and medium (1000 ng/g) iprodione exposure significantly impaired multiple aspects of drone physiology. Specifically, body weight decreased by 15.1 % at both concentrations, wing length by 2.3 % and 3.4 %, seminal vesicle (SV) width by 5.6 % and 9.3 %, and sperm viability by 3.9 % and 3.89 %, respectively. Medium and high (2000 ng/g) concentrations also caused reductions in total sperm count by 14.4 % and 24.4 %, respectively, while high-concentration exposure resulted in a 40.4 % decrease in sexual maturity rate. Notably, all concentrations of iprodione significantly inhibited the activities of three key ATPases (Ca2+Mg2+-ATPase, Na+K+-ATPase, and V-ATPase), with inhibition exceeding 50 % under high-concentration exposure. Interestingly, high-concentration exposure did not significantly reduce body weight, body size, or sperm viability, a phenomenon that may be linked to markedly reduced sexual maturity and/or colony-level reproductive compensation mechanisms. This finding highlights a potential social buffering effect, where colonies prioritize the quality of surviving drones over quantity under environmental stress. Overall, our study reveals that iprodione exerts multifaceted detrimental effects on drone reproductive health, affecting morphology, sperm quality, sexual maturation, and key metabolic enzymes. These results provide novel mechanistic insights into the reproductive toxicity of iprodione in a socially important pollinator and underscore the need for caution in fungicide application during crop flowering periods to safeguard honeybee colonies and ecosystem services.PMID:41576500 | DOI:10.1016/j.ecoenv.2026.119770