Cyclic (rock-paper-scissors-type) population models serve to mimic complex species interactions. Focusing on a paradigmatic three-species model with mutations in one dimension, we observe an interplay between equilibrium and nonequilibrium processes in the stationary state. We exploit these insights to obtain asymptotically exact descriptions of the emerging reactive steady state in the regimes of high and low mutation rates. The results are compared to stochastic lattice simulations. Our methods and findings are potentially relevant for the spatiotemporal evolution of other nonequilibrium stochastic processes
Without mutation and migration, evolutionary dynamics ultimately leads to the extinction of all but ...
Stochastic spatial predator-prey competition models represent paradigmatic systems to understand the...
Noise and spatial degrees of freedom characterize most ecosystems. Some aspects of their influence o...
Cyclic (rock-paper-scissors-type) population models serve to mimic complex species interactions. Foc...
Coevolutionary dynamics is investigated in chemical catalysis, biological evolution, social and econ...
Rock-paper-scissors games metaphorically model cyclic dominance in ecology and microbiology. In a st...
22 pages, figures in colorThe one-dimensional three-state cyclic cellular automaton is a simple spat...
Cyclic dominance of species has been identified as a potential mechanism to maintain biodiversity, s...
Spatially extended population dynamics models that incorporate demographic noise serve as case studi...
The coexistence of competing species is, due to unavoidable fluctuations, always transient. In this ...
The one-dimensional three-state cyclic cellular automaton is a simple spatial model with three state...
We study several variants of the stochastic four-state rock-paper-scissors game or, equivalently, cy...
The spatiotemporal arrangement of interacting populations often influences the maintenance of specie...
We study a variant of the cyclic Lotka–Volterra model with three-agent interactions. Inspired by a m...
Coevolving and competing species or game-theoretic strategies exhibit rich and complex dynamics for ...
Without mutation and migration, evolutionary dynamics ultimately leads to the extinction of all but ...
Stochastic spatial predator-prey competition models represent paradigmatic systems to understand the...
Noise and spatial degrees of freedom characterize most ecosystems. Some aspects of their influence o...
Cyclic (rock-paper-scissors-type) population models serve to mimic complex species interactions. Foc...
Coevolutionary dynamics is investigated in chemical catalysis, biological evolution, social and econ...
Rock-paper-scissors games metaphorically model cyclic dominance in ecology and microbiology. In a st...
22 pages, figures in colorThe one-dimensional three-state cyclic cellular automaton is a simple spat...
Cyclic dominance of species has been identified as a potential mechanism to maintain biodiversity, s...
Spatially extended population dynamics models that incorporate demographic noise serve as case studi...
The coexistence of competing species is, due to unavoidable fluctuations, always transient. In this ...
The one-dimensional three-state cyclic cellular automaton is a simple spatial model with three state...
We study several variants of the stochastic four-state rock-paper-scissors game or, equivalently, cy...
The spatiotemporal arrangement of interacting populations often influences the maintenance of specie...
We study a variant of the cyclic Lotka–Volterra model with three-agent interactions. Inspired by a m...
Coevolving and competing species or game-theoretic strategies exhibit rich and complex dynamics for ...
Without mutation and migration, evolutionary dynamics ultimately leads to the extinction of all but ...
Stochastic spatial predator-prey competition models represent paradigmatic systems to understand the...
Noise and spatial degrees of freedom characterize most ecosystems. Some aspects of their influence o...