RT Journal Article
SR Electronic
T1 Conflict over fertilization underlies the transient evolution of reinforcement
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 2020.11.10.377481
DO 10.1101/2020.11.10.377481
A1 Rushworth, Catherine A.
A1 Wardlaw, Alison M.
A1 Ross-Ibarra, Jeffrey
A1 Brandvain, Yaniv
YR 2022
UL http://biorxiv.org/content/early/2022/06/24/2020.11.10.377481.abstract
AB When two species meet in secondary contact, the production of low fitness hybrids may be prevented by the adaptive evolution of increased prezygotic isolation, a process known as reinforcement. Theoretical challenges to the evolution of reinforcement are generally cast as a coordination problem, i.e. “how can LD between trait and preference be maintained in the face of recombination?” However, the evolution of reinforcement also poses a potential conflict between mates. For example, the opportunity costs to hybridization may differ between the sexes or species. This is particularly likely for reinforcement based on postmating prezygotic (PMPZ) incompatibilities, as the ability to fertilize both conspecific and heterospecific eggs is beneficial to male gametes, but heterospecific mating may incur a cost for female gametes. We develop a population genetic model of interspecific conflict over reinforcement inspired by “gametophytic factors”, which act as PMPZ barriers among Zea mays subspecies. We demonstrate that this conflict results in the transient evolution of reinforcement—after females adaptively evolve to reject gametes lacking a signal common in conspecific gametes, this gamete signal adaptively introgresses into the other population. Ultimately the male gamete signal fixes in both species, and isolation returns to pre-reinforcement levels. We interpret geographic patterns of isolation among Z. mays subspecies in light of these findings, and suggest when and how this conflict can be resolved. Our results suggest that sexual conflict over fertilization may pose an understudied obstacle to the evolution of reinforcement.Competing Interest StatementThe authors have declared no competing interest.