English

Defensive complexity in antagonistic coevolution

Populations and Evolution 2014-12-17 v2

Abstract

One strategy for winning a coevolutionary struggle is to evolve rapidly. Most of the literature on host-pathogen coevolution focuses on this phenomenon, and looks for consequent evidence of coevolutionary arms races. An alternative strategy, less often considered in the literature, is to deter rapid evolutionary change by the opponent. To study how this can be done, we construct an evolutionary game between a controller that must process information, and an adversary that can tamper with this information processing. In this game, a species can foil its antagonist by processing information in a way that is hard for the antagonist to manipulate. We show that the structure of the information processing system induces a fitness landscape on which the adversary population evolves, and that complex processing logic is required to make that landscape rugged. Drawing on the rich literature concerning rates of evolution on rugged landscapes, we show how a species can slow adaptive evolution in the adversary population. We suggest that this type of defensive complexity on the part of the vertebrate adaptive immune system may be an important element of coevolutionary dynamics between pathogens and their vertebrate hosts.

Keywords

Cite

@article{arxiv.1203.4601,
  title  = {Defensive complexity in antagonistic coevolution},
  author = {Erick Chastain and Rustom Antia and Carl T. Bergstrom},
  journal= {arXiv preprint arXiv:1203.4601},
  year   = {2014}
}

Comments

This paper has been replaced by a revised version with a new title: "Defensive complexity and the phylogenetic conservation of immune control". That revised version is listed as arXiv:1211.2878

R2 v1 2026-06-21T20:37:29.371Z