Add to ORKGWe study a stochastic spatial model of biological competition in which two species have the same birth and death rates, but different diffusion constants. In the absence of this difference, the model can be considered as an off-lattice version of the voter model and presents similar coarsening properties. We show that even a relative difference in diffusivity on the order of a few percent may lead to a strong bias in the coarsening process favoring the more agile species. We theoretically quantify this selective advantage and present analytical formulas for the average growth of the fastest species and its fixation probability.Peer Reviewe
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
A biological competition model where the individuals of the same species perform a two-dimensional M...
We present a model describing spatial competition between two biological populations. Individuals be...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
According to the competitive exclusion principle, in a finite ecosystem, extinction occurs naturally...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
A biological competition model where the individuals of the same species perform a two-dimensional M...
We present a model describing spatial competition between two biological populations. Individuals be...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study a stochastic spatial model of biological competition in which two species have the same bir...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
We study an individual-based model in which two spatially distributed species, characterized by diff...
According to the competitive exclusion principle, in a finite ecosystem, extinction occurs naturally...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
A biological competition model where the individuals of the same species perform a two-dimensional M...
We present a model describing spatial competition between two biological populations. Individuals be...