Co-evolution of nodes and links: diversity driven coexistence in cyclic competition of three species

TL;DR

This paper demonstrates that diversity in social temperament, involving link-cutting and adding behaviors, can stabilize coexistence in cyclic competition of three species, creating long-living non-equilibrium states in a co-evolving network.

Contribution

It introduces a model where social temperaments influence network dynamics, leading to stable coexistence in cyclic competition, a novel mechanism not previously explored.

Findings

Diverse social behaviors enable long-term coexistence of species.

Co-evolving network dynamics stabilize diversity in cyclic competition.

Mean-field models capture key phenomena of the system.

Abstract

When three species compete cyclically in a well-mixed, stochastic system of $N$ individuals, extinction is known to typically occur at times scaling as the system size $N$. This happens, for example, in rock-paper-scissors games or conserved Lotka-Volterra models in which every pair of individuals can interact on a complete graph. Here we show that if the competing individuals also have a "social temperament" to be either introverted or extroverted, leading them to cut or add links respectively, then long-living state in which all species coexist can occur when both introverts and extroverts are present. These states are non-equilibrium quasi-steady states, maintained by a subtle balance between species competition and network dynamcis. Remarkably, much of the phenomena is embodied in a mean-field description. However, an intuitive understanding of why diversity stabilizes the co-evolving node and link dynamics remains an open issue.