Abstract
A eusocial colony typically consists of two main castes: queens that reproduce and sterile workers that help them. This division of labor, however, is vulnerable to genetic elements that favor the development of their carriers into queens. Several factors, such as intracolonial relatedness, can modulate the spread of such caste‐biasing genotypes. Here we investigate the effects of a notable yet understudied ecological setting: where larvae produced by hybridization develop into sterile workers. Using mathematical modeling, we show that the coevolution of hybridization with caste determination readily triggers an evolutionary arms race between nonhybrid larvae that increasingly develop into queens, and queens that increasingly hybridize to produce workers. Even where hybridization reduces worker function and colony fitness, this race can lead to the loss of developmental plasticity and to genetically hard‐wired caste determination. Overall, our results may help understand the repeated evolution toward remarkable reproductive systems (e.g., social hybridogenesis) observed in several ant species.
Highlights
To cite this version: Arthur Weyna, Jonathan Romiguier, Charles Mullon
HYBRIDIZATION AND SPERM PARASITISM, EVEN COSTLY, CAN LEAD TO THE FIXATION OF ROYAL CHEATS AND THE COMPLETE LOSS OF INTRASPECIFIC WORKERS We first investigate the evolution of caste determination by allowing the probability ω that a larva develops as a worker to vary
We consider the case where queens mate with a large number of males (i.e., m → ∞) and where hybridization is fixed at a given level (e.g., η is the proportion of allo-specific males in the pool of mates from which females choose randomly)
Summary
To cite this version: Arthur Weyna, Jonathan Romiguier, Charles Mullon. Hybridization enables the fixation of selfish queen genotypes in eusocial colonies. A eusocial colony typically consists of two main castes: queens that reproduce and sterile workers that help them This division of labor, is vulnerable to genetic elements that favor the development of their carriers into queens. In addition to laying the theoretical basis for the evolution of eusociality, Hamilton’s work led to the insight that caste determination should be plastic to allow identical gene copies to be in workers and in the queen they help (Seger 1981). In line with this notion, the developmental fate of female larvae in many eusocial insects depends on environmental factors
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