I performed an extensive mating assay in Drosophila suzukii and compared numerous male traits in more than 1000 successful and unsuccessful males. Analysed traits included body size, wing size, wing shape, male wing spot’s size, shape and colour, ‘wing-interference patterns’ (WIPs), a structural colour pattern observed in fly and wasp wings, fat contents, and contact pheromones, the Cuticular HydroCarbons (CHCs). Data analysis revealed that size, shape, and darkness of male wing spots best predicted male mating success in D. suzukii.
• Male wing spot traits are good predictors of mating success
Further, we estimated the genetic contributions in those wing traits by measuring them in a structured population (199 fathers and 999 sons). Most studied traits were strongly impacted by genetic factors. In particular, the combination of wing-spot traits that predicted male mating success had a heritability H2 = 0.49 so that around half of the variance in wing-spot male attractiveness is due to genetic factors.
• Male wing spot traits are heritable
Finally, a 7 generations experimental evolution created divergent artificial selection to select males with high, and low values of the wing-spot traits that predicted mating success. Further, the opportunity for sexual selection was maintained in half of the lines whilst random matings were enforced in the other lines. I then measured whether female mate choice had changed depending on the selection operating on male traits. I am currently analysing the vast data collected during this experiment. Preliminary results suggest that female choice was not affected by the selection on male traits, limiting their ability to counter-adapt SITs.
• Female choice does not rapidly evolve to selection on male traits
Because of the delay incurred from an improvement in the design of the first Work Package, and because all further work packages depend on the first publication, there are no scientific publications accepted at this time. Results have been disseminated in the scientific community through conferences and via regular social media updates. Importantly, preliminary results were shared to a wide audience of French agriculture and science stakeholders during the “Journée nationale Drosophila suzukii” and to an international research network aiming at developing SIT on this emerging pest (March 2019, Mendoza, Argentina).