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The impact of landscape structure on pesticide exposure to honey bees

Shumpei Hisamoto, Makihiko Ikegami, Koichi Goka, Yoshiko Sakamoto

2024Nature Communications26 citationsDOIOpen Access PDF

Abstract

Pesticides may have serious negative impacts on bee populations. The pesticide exposure of bees could depend on the surrounding landscapes in which they forage. In this study, we assess pesticide exposure across various land-use categories, while targeting the Japanese honey bee, Apis cerana japonica, a native subspecies of the eastern honey bee. In a project involving public participation, we measured the concentrations of major pesticides in honey and beeswax collected from 175 Japanese honey bee colonies across Japan and quantitatively analyzed the relationships between pesticide presence/absence or pesticide concentration and land-use categories around the colonies. Our findings revealed that the surrounding environment in which bees live strongly influences pesticide residues in beehive materials, whether the pesticides are systemic or not, with a clear trend for each land-use category. Agricultural lands, particularly paddy fields and orchards, and urban areas resulted in higher pesticide exposure, whereas forests presented a lower risk of exposure. To effectively control pesticide exposure levels in bees, it is essential to understand pesticide usage patterns and to develop appropriate regulatory systems in non-agricultural lands, similar to those in agricultural lands. Pesticides must be evaluated for their exposure to honey bees across diverse landscapes. This study reveals that both agricultural lands and urban areas resulted in higher pesticide exposure of bees, whereas forests were considered pesticide mitigation areas.

Topics & Concepts

Honey BeesPesticideHoney beeBiologyEcologyZoologyGeographyPlant and animal studiesInsect and Pesticide ResearchInsect and Arachnid Ecology and Behavior
The impact of landscape structure on pesticide exposure to honey bees | Litcius