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Low Doses of a Controversial Insecticide May Harm Friendly Insects

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For at least one member of a controversial class of insecticides, low doses may cause as much harm to nontarget insects as high doses do, according to a new study. The number of offspring that fruit flies produce drops significantly when the insects are chronically exposed to nanomolar concentrations of imidacloprid, a member of the neonicotinoid insecticide group (Environ. Sci. Technol. 2014, DOI: 10.1021/es405331c).

In Europe, policymakers have moved to temporarily ban some of the neonicotinoids based in part on previous studies that showed that honeybees exposed to low doses of the compounds developed significant behavioral changes. The new study builds on these low-dose findings and suggests regulators need to rethink how they assess the safety of chemicals applied in the environment, says Dennis vanEngelsdorp, an entomologist at the University of Maryland, College Park, who wasn't involved in the work.

The main way scientists determine a chemical's toxicity is to expose lab animals to high doses and then extrapolate what the effects might be at low doses. Regulatory bodies use these studies to help them estimate substances' risks to humans or wildlife. Many researchers, however, argue that traditional testing doesn't work for certain compounds. These particular chemicals may cause as much, if not more, harm at low doses as at high doses, says Jean-Marc Bonmatin of the National Center for Scientific Research, in Orleans, France, who led the new study. Researchers in toxicology have debated the issue of low-dose effects for more than a decade, particularly with respect to human health.

One class of chemicals involved in the low-dose debate are the neonicotinoids-insecticides applied to crops that damage pests' nervous systems. Previous studies have shown that this class can kill beneficial insects like honeybees. But some research has suggested that minute doses of neonicotinoids, such as imidacloprid, may have so-called sublethal effects on bees, such as impaired foraging behavior. Unfortunately, scientists don't yet have precise ways of measuring sublethal effects on bees in the lab, and of seeing how much these effects hurt bee colonies.

To get a more controlled look at possible sublethal effects caused by imidacloprid, Bonmatin and his colleagues decided to study the chemical in fruit flies (Drosophila melanogaster), a model organism for which researchers have more precise lab methods. The team exposed hundreds of flies to imidacloprid for several days at concentrations up to 400 nM. The team looked for changes to the flies' mating behavior and the number of offspring they produced.      

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