Summary
After several generations within a decaying tree (Ficus spp.), populations of the pseudoscorpion Cordylochernes scorpioides disperse by climbing under the elytra of harlequin beetles (Acrocinus longimanus) eclosing from the tree. Because the beetles then fly to newly-decaying Ficus for mating and oviposition, they act as effective dispersal agents. Field experiments and observations indicate that this dispersal mode has been exploited by males who compete to remain on a beetle as a strategic site for inseminating females dispersing on it and on other beetles. Whereas beetles just eclosed from old trees carried large, female-biased groups of dispersing pseudoscorpions, beetles captured after their maiden flight generally carried a single large male. Multivariate morphometric analyses indicated that these beetle-riding males were much larger than individuals randomly sampled from trees, with fighting traits exhibiting the greatest potential for selection (highest “phoretic” differentials). In females, sexual receptivity was significantly higher at the beginning of dispersal than at the end, suggesting that mating occurs on beetles. Field experiments confirmed that on-beetle insemination does take place and that small males are displaced from the “subelytral space” by larger rivals. By contrast, laboratory experiments suggest that large male size may not confer high mating success under the low-density conditions which characterize populations within trees. Thus, in addition to indicating a novel role for dispersal in the evolution of exaggerated male traits, this study suggests that oscillating sexual selection may be important in the maintenance of the extreme phenotypic variation exhibited by males of this species.
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Zeh, D.W., Zeh, J.A. Dispersal-generated sexual selection in a beetle-riding pseudoscorpion. Behav Ecol Sociobiol 30, 135–142 (1992). https://doi.org/10.1007/BF00173949
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DOI: https://doi.org/10.1007/BF00173949