How local antipredator response unbalances the rock-paper-scissors model

Antipredator behavior is a self-preservation strategy present in many biological systems, where individuals join the effort in a collective reaction to avoid being caught by an approaching predator. We study a nonhierarchical tritrophic system, whose predator–prey interactions are described by the r...

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Veröffentlicht in:Chaos (Woodbury, N.Y.) N.Y.), 2022-12, Vol.32 (12), p.123142-123142
Hauptverfasser: Menezes, J., Batista, S., Tenorio, M., Triaca, E., Moura, B.
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Sprache:eng
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Zusammenfassung:Antipredator behavior is a self-preservation strategy present in many biological systems, where individuals join the effort in a collective reaction to avoid being caught by an approaching predator. We study a nonhierarchical tritrophic system, whose predator–prey interactions are described by the rock–paper–scissors game rules. We perform a set of spatial stochastic simulations where organisms of one out of the species can resist predation in a collective strategy. The drop in predation capacity is local, which means that each predator faces a particular opposition depending on the prey group size surrounding it. Considering that the interference in a predator action depends on the prey’s physical and cognitive ability, we explore the role of a conditioning factor that indicates the fraction of the species apt to perform the antipredator strategy. Because of the local unbalancing of the cyclic predator–prey interactions, departed spatial domains mainly occupied by a single species emerge. Unlike the rock–paper–scissors model with a weak species because of a nonlocal reason, our findings show that if the predation probability of one species is reduced because individuals face local antipredator response, the species does not predominate. Instead, the local unbalancing of the rock–paper–scissors model results in the prevalence of the weak species’ prey. Finally, the outcomes show that local unevenness may jeopardize biodiversity, with the coexistence being more threatened for high mobility.
ISSN:1054-1500
1089-7682
DOI:10.1063/5.0106165