Coevolutionary dynamics is investigated in chemical catalysis, biological evolution, social and economic systems. The dynamics of these systems can be analyzed within the unifying framework of evolutionary game theory. In this Letter, we show that even in well-mixed finite populations, where the dynamics is inherently stochastic, biodiversity is possible with three cyclic-dominant strategies. We show how the interplay of evolutionary dynamics, discreteness of the population, and the nature of the interactions influences the coexistence of strategies. We calculate a critical population size above which coexistence is likely
The coexistence of competing species is, due to unavoidable fluctuations, always transient. In this ...
We introduce and analyze a purely competitive dynamics for the evolution of an infinite population s...
Cyclic dominance of species has been identified as a potential mechanism to maintain biodiversity, s...
Coevolutionary dynamics is investigated in chemical catalysis, biological evolution, social and econ...
The coevolutionary dynamics in finite populations currently is investigated in a wide range of disci...
abstract: Evolutionary games of cyclic competitions have been extensively studied to gain insights i...
Traditionally, frequency dependent evolutionary dynamics is described by deterministic replicator dy...
Rock-paper-scissors games metaphorically model cyclic dominance in ecology and microbiology. In a st...
Coevolving and competing species or game-theoretic strategies exhibit rich and complex dynamics for ...
Abstract. Finite-size fluctuations arising in the dynamics of competing populations may have dramati...
Evolutionary dynamics shape the living world around us. At the centre of every evolutionary process ...
AbstractCyclic competition game models, particularly the “rock–paper–scissors” model, play important...
Rock is wrapped by paper, paper is cut by scissors and scissors are crushed by rock. This simple gam...
AbstractGame dynamics in which three or more strategies are cyclically competitive, as represented b...
The coevolutionary dynamics in finite populations currently is investigated in a wide range of disci...
The coexistence of competing species is, due to unavoidable fluctuations, always transient. In this ...
We introduce and analyze a purely competitive dynamics for the evolution of an infinite population s...
Cyclic dominance of species has been identified as a potential mechanism to maintain biodiversity, s...
Coevolutionary dynamics is investigated in chemical catalysis, biological evolution, social and econ...
The coevolutionary dynamics in finite populations currently is investigated in a wide range of disci...
abstract: Evolutionary games of cyclic competitions have been extensively studied to gain insights i...
Traditionally, frequency dependent evolutionary dynamics is described by deterministic replicator dy...
Rock-paper-scissors games metaphorically model cyclic dominance in ecology and microbiology. In a st...
Coevolving and competing species or game-theoretic strategies exhibit rich and complex dynamics for ...
Abstract. Finite-size fluctuations arising in the dynamics of competing populations may have dramati...
Evolutionary dynamics shape the living world around us. At the centre of every evolutionary process ...
AbstractCyclic competition game models, particularly the “rock–paper–scissors” model, play important...
Rock is wrapped by paper, paper is cut by scissors and scissors are crushed by rock. This simple gam...
AbstractGame dynamics in which three or more strategies are cyclically competitive, as represented b...
The coevolutionary dynamics in finite populations currently is investigated in a wide range of disci...
The coexistence of competing species is, due to unavoidable fluctuations, always transient. In this ...
We introduce and analyze a purely competitive dynamics for the evolution of an infinite population s...
Cyclic dominance of species has been identified as a potential mechanism to maintain biodiversity, s...