1. Spatial heterogeneity promotes coexistence of rock-paper-scissor metacommunities
- Author
-
Timothy Killingback and Sebastian J. Schreiber
- Subjects
92D25, 91A22 ,q-bio.PE ,Evolutionary game theory ,FOS: Physical sciences ,Dynamical Systems (math.DS) ,Outcome (game theory) ,Game Theory ,Simple (abstract algebra) ,Replicator equation ,FOS: Mathematics ,Physical Sciences and Mathematics ,Humans ,Mathematics - Dynamical Systems ,Quantitative Biology - Populations and Evolution ,Ecology, Evolution, Behavior and Systematics ,Mathematics ,Classical theory ,Populations and Evolution (q-bio.PE) ,Nonlinear Sciences - Adaptation and Self-Organizing Systems ,Spatial heterogeneity ,FOS: Biological sciences ,nlin.AO ,Biological dispersal ,Adaptation and Self-Organizing Systems (nlin.AO) ,Mathematical economics ,math.DS - Abstract
The rock-paper-scissor game -- which is characterized by three strategies R,P,S, satisfying the non-transitive relations S excludes P, P excludes R, and R excludes S -- serves as a simple prototype for studying more complex non-transitive systems. For well-mixed systems where interactions result in fitness reductions of the losers exceeding fitness gains of the winners, classical theory predicts that two strategies go extinct. The effects of spatial heterogeneity and dispersal rates on this outcome are analyzed using a general framework for evolutionary games in patchy landscapes. The analysis reveals that coexistence is determined by the rates at which dominant strategies invade a landscape occupied by the subordinate strategy (e.g. rock invades a landscape occupied by scissors) and the rates at which subordinate strategies get excluded in a landscape occupied by the dominant strategy (e.g. scissor gets excluded in a landscape occupied by rock). These invasion and exclusion rates correspond to eigenvalues of the linearized dynamics near single strategy equilibria. Coexistence occurs when the product of the invasion rates exceeds the product of the exclusion rates. Provided there is sufficient spatial variation in payoffs, the analysis identifies a critical dispersal rate $d^*$ required for regional persistence. For dispersal rates below $d^*$, the product of the invasion rates exceed the product of the exclusion rates and the rock-paper-scissor metacommunities persist regionally despite being extinction prone locally. For dispersal rates above $d^*$, the product of the exclusion rates exceed the product of the invasion rates and the strategies are extinction prone. These results highlight the delicate interplay between spatial heterogeneity and dispersal in mediating long-term outcomes for evolutionary games., Comment: 31pages, 5 figures
- Published
- 2012