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Fungicides modify pest insect fitness depending on their genotype and population.

Aigi MargusShahed SaifullahMaaria KankareLeena Lindström
Published in: Scientific reports (2023)
Fungicides are the most sold pesticide group, with an 8% increase in sales in Europe within the last decade. While adverse short-term fungicide effects on non-target insect species have been reported, the long-term effects and their impact on fitness are unclear. As the effects may depend on both the fungicide and the genetic background of the species, we investigated the effects of the commonly used fungicide, fluazinam, on the Colorado potato beetle's life history traits, and whether the effects were dependent on a previously characterized insecticide resistance mutation (S291G in acetylcholinesterase-2 gene) in different populations. Our findings show that fungicide exposure can have both negative and positive, long-lasting effects on beetles, depending on the parental insecticide resistance status and population. In the Belchow population, individuals carrying resistance mutation had higher survival, but they produced offspring with lower egg-hatching rates. While, in the Vermont population, fungicide exposure increased the body mass and offspring quality in the beetles carrying resistance mutation but did not affect the beetles' survival. Our results suggest that commonly used fungicides can have both negative and positive effects on pest insects' life-history, however, their impact may differ depending on the population and parental genetic background.
Keyphrases
  • genome wide
  • body composition
  • aedes aegypti
  • copy number
  • risk assessment
  • type diabetes
  • adipose tissue
  • gene expression
  • high resolution
  • free survival
  • adverse drug
  • electronic health record
  • genome wide identification