The spread of resistance to imidacloprid is restricted by thermotolerance in natural populations of Drosophila melanogaster

Abstract

AbstractImidacloprid, the world’s most utilised insecticide1, has raised considerable controversy due to its harmful effects on non-pest species2–6 and there is increasing evidence showing that insecticides have become the primary selective force in many insect species7–14. The genetic response to insecticides is heterogeneous across population and environment15–17, leading to more complex patterns of genetic variation than previously thought. This motivated the investigation of imidacloprid resistance at different temperatures in natural populations of Drosophila melanogaster originating from four climate extremes replicated across two continents. Population and quantitative genomic analysis, supported by functional tests, demonstrated a polygenic basis to resistance and a major trade-off with thermotolerance. Reduced genetic differentiation at resistance-associated loci indicate enhanced gene flow at these loci. Resistance alleles showed stronger evidence of positive selection in temperate populations compared to tropical populations. Polygenic architecture and ecological factors should be considered when developing sustainable management strategies for both pest and beneficial insects.