Sexual selection contributes to partial restoration of phenotypic robustness in a butterfly


  • Nieberding, C.M. , San Martin, G. , Saenko, S. , Allen, C.E. , Brakefield, P.M. & Visser, B. (2018). Sexual selection contributes to partial restoration of phenotypic robustness in a butterfly. Scientific Reports, 8: (14315),
Type Journal Article
Year 2018
Title Sexual selection contributes to partial restoration of phenotypic robustness in a butterfly
Journal Scientific Reports
Volume 8
Issue 14315
Abstract Phenotypic variation is the raw material for selection that is ubiquitous for most traits in natural populations, yet the processes underlying phenotypic evolution or stasis often remain unclear. Here, we report phenotypic evolution in a mutant line of the butterfly Bicyclus anynana after outcrossing with the genetically polymorphic wild type population. The comet mutation modifies two phenotypic traits known to be under sexual selection in this butterfly: the dorsal forewing eyespots and the pheromone-producing structures. The original comet mutant line was inbred and remained phenotypically stable for at least seven years, but when outcrossed to the wild type population the outcrossed comet line surprisingly recovered the wild type phenotype within 8 generations at high (27?°C), but not at low (20?°C), developmental temperatures. Male mating success experiments then revealed that outcrossed comet males with the typical comet phenotype suffered from lower mating success, while mating success of outcrossed comet males resembling wild types was partially restored. We document a fortuitous case where the addition of genetic polymorphism around a spontaneous mutation could have allowed partial restoration of phenotypic robustness. We further argue that sexual selection through mate choice is likely the driving force leading to phenotypic robustness in our system.
Fichier
Lien https://doi.org/10.1038/s41598-018-32132-8
Authors Nieberding, C.M., San Martin, G., Saenko, S., Allen, C.E., Brakefield, P.M., Visser, B.