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dc.creatorMendes, Pedro B.-
dc.creatorFaria, Lucas D.B.-
dc.date.accessioned2021-09-20T18:37:10Z-
dc.date.available2021-09-20T18:37:10Z-
dc.date.issued2020-11-
dc.identifier.citationMENDES, P. B.; FARIA, L. D. B. The eco-evolutionary dynamics of a predator-prey system across an r/K continuum. Ecological Modelling, [S. I.], v. 436, Nov. 2020. DOI: https://doi.org/10.1016/j.ecolmodel.2020.109269.pt_BR
dc.identifier.urihttps://doi.org/10.1016/j.ecolmodel.2020.109269pt_BR
dc.identifier.urihttp://repositorio.ufla.br/jspui/handle/1/48174-
dc.description.abstractThe effects of a single trait on more than one ecological function is called ecological pleiotropy. Traits that exhibit ecological pleiotropy are relevant to eco-evolutionary dynamics because the structure of interaction between the trait and its ecological functions alters how eco-evolutionary feedback loops emerge. Density-dependent selection (DDS) assumes that a single trait affects both density-independent and density-dependent population growth through ecological pleiotropy, and is one of the simplest routes for feedback loops. The r/K theory proposes a mechanism by which DDS occurs, but its predictions were poorly explored in an eco-evolutionary context. Some assumptions of the r/K theory seems to be relevant for the eco-evolution of predator-prey interactions. However, the relationship between these theories were poorly explored. Here, we investigate how does the r/K theory relates to the eco-evolution of predator-prey systems. We seek to answer two questions: (1) What are the system’s parameters that affect the predominance of r- and K-selection? (2) Does system’s qualitative behaviour depends on whether the predominant selection on prey population is an r- or a K-selection? To answer these questions, we built a model of differential equations describing the eco-evolutionary dynamics of a predator-prey system. We assume that prey vulnerability to predation is an adaptive trait that affects preys density-dependent growth rate through ecological pleiotropy. Then, we partitioned the selection gradient in its r- and K-selection components and evaluate how their magnitude relates to systems behaviour. We found that stable predator-prey cycles only occurs when K-selection is predominant. When r-selection is predominant, cycles lead to a runaway dynamics. Furthermore, the way predators parameters affect prey position in the r/K continuum depends on how they affect predation risk. While increasing predation risk increases K-selection, decreasing it increases r-selection. We discuss the relevance of the structure of ecological pleiotropy to our results and the perspectives that unifies the r/K theory and eco-evolutionary dynamics.pt_BR
dc.languageenpt_BR
dc.publisherElsevierpt_BR
dc.rightsrestrictAccesspt_BR
dc.sourceEcological Modellingpt_BR
dc.subjectPrey adaptationpt_BR
dc.subjectRapid adaptationpt_BR
dc.subjectr/K theorypt_BR
dc.subjectEcological pleiotropypt_BR
dc.subjectPopulation biologypt_BR
dc.subjectPrey vulnerabilitypt_BR
dc.subjectPresa - Adaptaçãopt_BR
dc.subjectPresa - Dinâmica eco-evolutivapt_BR
dc.subjectTeoria da selecção r/Kpt_BR
dc.subjectPleiotropiapt_BR
dc.subjectPresa - Vulnerabilidadept_BR
dc.titleThe eco-evolutionary dynamics of a predator-prey system across an r/K continuumpt_BR
dc.typeArtigopt_BR
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