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17 - Wave Patterns in Spatial Games and the Evolution of Cooperation

Published online by Cambridge University Press:  14 January 2010

Ulf Dieckmann
Affiliation:
International Institute for Applied Systems Analysis, Austria
Richard Law
Affiliation:
University of York
Johan A. J. Metz
Affiliation:
Rijksuniversiteit Leiden, The Netherlands
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Summary

Introduction

Our understanding of the evolution of animal behavior has been greatly enhanced by the use of game theory (Maynard Smith 1982). Classical games assume that a given individual is equally likely to interact with any other member of the population and that the success of any individual depends on the frequency of all other strategies represented in the population. Yet natural environments possess a spatial dimension: individuals have limited mobility and interact locally with their neighbors. Only recently have attempts been made to incorporate this important property into the study of evolutionary games. Different approaches have been followed: numerical simulations of “games on grids” (Nowak and May 1992; Lindgren and Nordahl 1994; see Chapter 8); analytical study of correlation equations for games on lattices (Nakamaru et al. 1997; see Chapter 13); and analytical study of “replicator-diffusion” equations (e.g., Vickers 1989; Vickers et al. 1993; Ferrière and Michod 1995, 1996; see Chapter 22). In this chapter we restrict ourselves to the last of these methodologies and provide an introduction to its mathematical underpinnings and biological applications. Elements of a general theory of replicator–diffusion equations are expounded in detail in articles by Vickers (1989), Hutson and Vickers (1992), Vickers et al. (1993), and Cressman and Vickers (1997). We present an overview of these important results in Section 17.2. Sections 17.3 and 17.4 show how replicator–diffusion models can be used to study spatial versions of the iterated Prisoner's Dilemma game, a well-known metaphor for evolution toward cooperation between genetically unrelated individuals (Trivers 1971; Axelrod and Hamilton 1981; Maynard Smith 1982; Hofbauer and Sigmund 1998).

Type
Chapter
Information
The Geometry of Ecological Interactions
Simplifying Spatial Complexity
, pp. 318 - 336
Publisher: Cambridge University Press
Print publication year: 2000

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