1. Potential Risk to Pollinators from Nanotechnology-Based Pesticides
- Author
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Stacey L. Harper, Bryan J. Harper, Ramesh R. Sagili, Louisa A. Hooven, and Priyadarshini Chakrabarti
- Subjects
Exposure potential ,Pharmaceutical Science ,Environmental pollution ,Nanotechnology ,Review ,010501 environmental sciences ,Biology ,01 natural sciences ,Analytical Chemistry ,03 medical and health sciences ,Honey Bees ,Pollinator ,Drug Discovery ,Animals ,Humans ,Physical and Theoretical Chemistry ,Pesticides ,Pollination ,030304 developmental biology ,0105 earth and related environmental sciences ,Nanotechnology-based particles ,0303 health sciences ,Potential risk ,Pollinators ,Organic Chemistry ,Pesticide ,Bees ,Multiple factors ,Chemistry (miscellaneous) ,Molecular Medicine ,Pollen ,Particulate matter - Abstract
The decline in populations of insect pollinators is a global concern. While multiple factors are implicated, there is uncertainty surrounding the contribution of certain groups of pesticides to losses in wild and managed bees. Nanotechnology-based pesticides (NBPs) are formulations based on multiple particle sizes and types. By packaging active ingredients in engineered particles, NBPs offer many benefits and novel functions, but may also exhibit different properties in the environment when compared with older pesticide formulations. These new properties raise questions about the environmental disposition and fate of NBPs and their exposure to pollinators. Pollinators such as honey bees have evolved structural adaptations to collect pollen, but also inadvertently gather other types of environmental particles which may accumulate in hive materials. Knowledge of the interaction between pollinators, NBPs, and other types of particles is needed to better understand their exposure to pesticides, and essential for characterizing risk from diverse environmental contaminants. The present review discusses the properties, benefits and types of nanotechnology-based pesticides, the propensity of bees to collect such particles and potential impacts on bee pollinators.
- Published
- 2019