Rats and mice are mutating and becoming resistant to poison, researchers warn

Rats and mice are mutating and becoming resistant to poison, researchers warn Increases the threat of deadly diseases to humans, such as flu-like bacterial disease leptospirosis and viral hantavirus - Bookmark - CommentsGo to comments Rats and mice are mutating and potentially becoming resistant to the poison that cities have long used to stop their populations from exploding, a recent study has warned. More than one-third of 143 rats and 84 percent of 147 mice, tested in the New York tri-state area and Washington, D.C. were found to carry at least one genetic mutation linked to rodenticide resistance. Researchers tested the common Norway species of rat and also house mice in the U.S. Northeast. The mutation was in the gene Vkorc1, which has previously been linked to rodenticide resistance. The study also identified several new genetic variants that may or may not contribute to resistance. “We found that resistance appears to be much more widespread in house mice than many people realized,” Jin-Jia Yu, a postdoctoral fellow at New Jersey’s Rutgers University, said in a statement. “Norway rats also carried genetic mutations, but scientists do not yet know whether most of those mutations affect Norway rats' susceptibility to rodenticides.” Still, the findings are worrisome because both rats and mice can spread deadly diseases to humans such as the flu-like bacterial disease leptospirosis and viral hantavirus. Deaths from these diseases are considered rare in the U.S. but the study’s findings suggest that cities with more mutated rats and mice could see further spread of illnesses. “Rodents are more than a nuisance,” Changlu Wang, an extension specialist in Rutgers’ Department of Entomology, said. “As resistance becomes more common, it becomes even more important to use science-based management strategies that protect both public health and the environment.” To combat millions of city-dwelling rodents, U.S. authorities in the Northeast use blood-thinning rodenticides that cause death from excessive bleeding, including the chemicals bromodiolone, diphacinone, brodifacuom, zinc phosphide and the common human medication warfarin. Warfarin can also be fatal to humans in large amounts and these rodenticides have been known to kill local birds of prey that hunt rodents, including New York City’s beloved, escaped Eurasian Eagle Owl Flaco in February 2024. That’s why advocates like the NYC Bird Alliance have called for ending the use of the rodenticides in city parks. The rodenticides are distributed in bait stations or burrows, but officials have started to deploy more creative tactics, such as pellets serving as birth control that can cut populations off at the source. However, not all rodents are taking the bait. Rats tend to be more suspicious than mice, which is one reason why the researchers believe mice are adapting more rapidly. “Rats are very clever," Yu said. "They will approach the novel food many times before they really take the food or the bait.” It will take new strategies that apply this research to to address rat and mice adaptation in cities, the researchers said. Although what those efforts may be remains to be seen, the scientists suggested combining multiple techniques for the best outcome. That could include sealing off areas where rats and mice could enter, like holes in floorboards and buildings. Sanitation should also be improved such as leaving no food out that lures rodents and continued use of traps. “By understanding how prevalent the mutations are and where resistance exists, pest management professionals and public health agencies can make better decisions about how to control rodents,” said Yu. Join our commenting forum Join thought-provoking conversations, follow other Independent readers and see their replies Comments