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Social intolerance is a consequence, not a cause, of dispersal in spiders

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  • Violette Chiara
  • Felipe Ramon Portugal
  • Raphael Jeanson

Abstract

From invertebrates to vertebrates, a wealth of species display transient sociality during their life cycle. Investigating the causes of dispersal in temporary associations is important to better understand population dynamics. It is also essential to identify possible mechanisms involved in the evolutionary transition from transient to stable sociality, which has been documented repeatedly across taxa and typically requires the suppression of dispersal. In many animals, the onset of dispersal during ontogeny coincides with a sharp decline in social tolerance, but the causal relationship still remains poorly understood. Spiders offer relevant models to explore this question, because the adults of the vast majority of species (>48,000) are solitary and aggressive, but juveniles of most (if not all) species are gregarious and display amicable behaviors. We deployed a combination of behavioral, chemical, and modelling approaches in spiderlings of a solitary species to investigate the mechanisms controlling the developmental switch leading to the decline of social cohesion and the loss of tolerance. We show that maturation causes an increase in mobility that is sufficient to elicit dispersal without requiring any change in social behaviors. Our results further demonstrate that social isolation following dispersal triggers aggressiveness in altering the processing of conspecifics’ cues. We thus provide strong evidence that aggression is a consequence, not a cause, of dispersal in spiderlings. Overall, this study highlights the need of extended social interactions to preserve tolerance, which opens new perspectives for understanding the routes to permanent sociality.Behavioral experiments with the spider Agelena labyrinthica, coupled to computational modelling, show that an increase in mobility with age drives dispersal in gregarious spiderlings of a solitary species and that the subsequent social isolation triggers aggression.

Suggested Citation

  • Violette Chiara & Felipe Ramon Portugal & Raphael Jeanson, 2019. "Social intolerance is a consequence, not a cause, of dispersal in spiders," PLOS Biology, Public Library of Science, vol. 17(7), pages 1-27, July.
  • Handle: RePEc:plo:pbio00:3000319
    DOI: 10.1371/journal.pbio.3000319
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    References listed on IDEAS

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    1. Noguchi, Kimihiro & Gel, Yulia R. & Brunner, Edgar & Konietschke, Frank, 2012. "nparLD: An R Software Package for the Nonparametric Analysis of Longitudinal Data in Factorial Experiments," Journal of Statistical Software, Foundation for Open Access Statistics, vol. 50(i12).
    2. Anja Petersen & Kristian T. Nielsen & Christian B. Christensen & Søren Toft, 2010. "The advantage of starving: success in cannibalistic encounters among wolf spiders," Behavioral Ecology, International Society for Behavioral Ecology, vol. 21(5), pages 1112-1117.
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