Unravelling the genomic basis and evolution of the pea aphid male wing dimorphism

Abstract: SummaryWing dimorphisms have long served as models for examining the ecological and evolutionary tradeoffs associated with alternative morphologies [1], yet the mechanistic basis of morph determination remains largely unknown. Here we investigate the genetic basis of the pea aphid (Acyrthosiphon pisum) wing dimorphism, wherein males exhibit one of two alternative morphologies that differ dramatically in a set of correlated traits that inclused the presence or absence of wings [2-4]. Unlike the environmentally-… Show more

“…The pea aphid, Acyrthosiphon pisum, exhibits an additional wing dimorphism that is not cued from the environment: Winged and wingless males are present during the sexual portion of the life cycle that takes place in the fall. A single genetic locus on the X chromosome controls these male differences (12,20,55). Thus, two wing dimorphisms exist within this single species, with one environmentally determined and one genetically determined (15).…”

Molecular Mechanisms of Wing Polymorphism in Insects

“…The pea aphid, Acyrthosiphon pisum, exhibits an additional wing dimorphism that is not cued from the environment: Winged and wingless males are present during the sexual portion of the life cycle that takes place in the fall. A single genetic locus on the X chromosome controls these male differences (12,20,55). Thus, two wing dimorphisms exist within this single species, with one environmentally determined and one genetically determined (15).…”

Molecular Mechanisms of Wing Polymorphism in Insects