Defensive alliances in spatial models of cyclical population
  interactions

A.J. Bray; B. Drossel; B. Sinervo; F.Y. Wu; G. Grinstein; G. Szabó; G. Szabó; György Szabó; J. Hofbauer; J. Maynard Smith; J. Maynard Smith; J.E.S. Socolar; J.W. Weibull; K. Tainaka; L. Frachebourg; L. Frachebourg; L. Onsager; M. Bramson; P. Grassberger; R.B. Potts; T. Czárán; Tamás Czárán

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Defensive alliances in spatial models of cyclical population interactions

Authors: A.J. Bray
B. Drossel
B. Sinervo
F.Y. Wu
G. Grinstein
G. Szabó
G. Szabó
György Szabó
J. Hofbauer
J. Maynard Smith
J. Maynard Smith
J.E.S. Socolar
J.W. Weibull
K. Tainaka
L. Frachebourg
L. Frachebourg
L. Onsager
M. Bramson
P. Grassberger
R.B. Potts
T. Czárán
Tamás Czárán
Publication date: 30 March 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

As a generalization of the 3-strategy Rock-Scissors-Paper game dynamics in space, cyclical interaction models of six mutating species are studied on a square lattice, in which each species is supposed to have two dominant, two subordinated and a neutral interacting partner. Depending on their interaction topologies, these systems can be classified into four (isomorphic) groups exhibiting significantly different behaviors as a function of mutation rate. On three out of four cases three (or four) species form defensive alliances which maintain themselves in a self-organizing polydomain structure via cyclic invasions. Varying the mutation rate this mechanism results in an ordering phenomenon analogous to that of magnetic Ising model.Comment: 4 pages, 3 figure

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