Abstract. Species extinction occurs regularly and unavoidably in ecological systems. The time scales for extinction can broadly vary and inform on the ecosystem’s stability. We study the spatio-temporal extinction dynamics of a paradigmatic population model where three species exhibit cyclic competition. The cyclic dynamics reflects the non-equilibrium nature of the species interactions. While previous work focusses on the coarsening process as a mechanism that drives the system to extinction, we found that unexpectedly the dynamics to extinction is much richer. We observed three different types of dynamics. In addition to coarsening, in the evolutionary relevant limit of large times, oscillating traveling waves and heteroclinic orbits play...
Artículo de publicación ISI1. The effects of the present biodiversity crisis have been largely focus...
The competitive exclusion principle postulates that due to abiotic constraints, resource usage, inte...
We study the collective dynamics of mobile species under cyclic competition by breaking the symmetry...
Species extinction occurs regularly and unavoidably in ecological systems. The time scales for extin...
Transitions to absorbing states are of fundamental importance in nonequilibrium physics as well as e...
Cyclic dominance of species has been identified as a potential mechanism to maintain biodiversity, s...
Studies on natural populations and harvesting biological resources have led to the view, commonly he...
Introducing the e#ect of extinction into the so-called replicator equations in mathematical biology,...
Much of the work on extinction events has focused on external perturbations of ecosystems, such as c...
We introduce a population model for species under cyclic competition. This model allows individuals ...
Abstract. Finite-size fluctuations arising in the dynamics of competing populations may have dramati...
In nature, different species compete among themselves for common resources and favorable habitat. Th...
Recent studies have highlighted the importance of higher‐order competitive interactions in stabilizi...
Abstract A balanced ecosystem with coexisting constituent species is often perturbed by different na...
We study the non-equilibrium phase transition between survival and extinction of spatially extended ...
Artículo de publicación ISI1. The effects of the present biodiversity crisis have been largely focus...
The competitive exclusion principle postulates that due to abiotic constraints, resource usage, inte...
We study the collective dynamics of mobile species under cyclic competition by breaking the symmetry...
Species extinction occurs regularly and unavoidably in ecological systems. The time scales for extin...
Transitions to absorbing states are of fundamental importance in nonequilibrium physics as well as e...
Cyclic dominance of species has been identified as a potential mechanism to maintain biodiversity, s...
Studies on natural populations and harvesting biological resources have led to the view, commonly he...
Introducing the e#ect of extinction into the so-called replicator equations in mathematical biology,...
Much of the work on extinction events has focused on external perturbations of ecosystems, such as c...
We introduce a population model for species under cyclic competition. This model allows individuals ...
Abstract. Finite-size fluctuations arising in the dynamics of competing populations may have dramati...
In nature, different species compete among themselves for common resources and favorable habitat. Th...
Recent studies have highlighted the importance of higher‐order competitive interactions in stabilizi...
Abstract A balanced ecosystem with coexisting constituent species is often perturbed by different na...
We study the non-equilibrium phase transition between survival and extinction of spatially extended ...
Artículo de publicación ISI1. The effects of the present biodiversity crisis have been largely focus...
The competitive exclusion principle postulates that due to abiotic constraints, resource usage, inte...
We study the collective dynamics of mobile species under cyclic competition by breaking the symmetry...