International audienceIt is known that the competitive exclusion principle holds for a large kind of models involving several species competing for a single resource in an homogeneous environment. Various works indicate that the coexistence is possible in an heterogeneous environment. We propose a spatially heterogeneous system modeling the competition of several species for a single resource. If spatial movements are fast enough, we show that our system can be well approximated by a spatially homogeneous system, called aggregated model, which can be explicitly computed. Moreover, we show that if the competitive exclusion principle holds for the aggregated model, it holds for the spatially heterogeneous model too
The aim of this work is to investigate the effect of density-dependent dispersal on the outcome of c...
Local coexistence of species in large ecosystems is traditionally explained within the broad framewo...
In this paper we present and analyse a simple two populations model with migrations among two differ...
International audienceIt is known that the competitive exclusion principle holds for a large kind of...
AbstractThe problem is motivated by a consideration of two phenotypes of a species in a strongly het...
The purpose of this thesis is the mathematical and numerical study of a system of several species co...
AbstractIt is well known that the interactions between diffusion and spatial heterogeneity could cre...
Most spatial models of competing species assume symmetries in the spatial scales of dispersal and in...
AbstractThis paper is concerned with the spatial behavior of the non-autonomous competition–diffusio...
We study an individual-based model in which two spatially distributed species, characterized by diff...
Using several variants of a stochastic spatial model introduced by Silvertown et al., we investigate...
In models of competition in which space is treated as a continuum, and population size as continuous...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
Spatial segregation occurs in population dynamics when k species interact in a highly competitive wa...
Abstract. We deal with strongly competing multispecies systems of Lotka-Vol– terra type with homogen...
The aim of this work is to investigate the effect of density-dependent dispersal on the outcome of c...
Local coexistence of species in large ecosystems is traditionally explained within the broad framewo...
In this paper we present and analyse a simple two populations model with migrations among two differ...
International audienceIt is known that the competitive exclusion principle holds for a large kind of...
AbstractThe problem is motivated by a consideration of two phenotypes of a species in a strongly het...
The purpose of this thesis is the mathematical and numerical study of a system of several species co...
AbstractIt is well known that the interactions between diffusion and spatial heterogeneity could cre...
Most spatial models of competing species assume symmetries in the spatial scales of dispersal and in...
AbstractThis paper is concerned with the spatial behavior of the non-autonomous competition–diffusio...
We study an individual-based model in which two spatially distributed species, characterized by diff...
Using several variants of a stochastic spatial model introduced by Silvertown et al., we investigate...
In models of competition in which space is treated as a continuum, and population size as continuous...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
Spatial segregation occurs in population dynamics when k species interact in a highly competitive wa...
Abstract. We deal with strongly competing multispecies systems of Lotka-Vol– terra type with homogen...
The aim of this work is to investigate the effect of density-dependent dispersal on the outcome of c...
Local coexistence of species in large ecosystems is traditionally explained within the broad framewo...
In this paper we present and analyse a simple two populations model with migrations among two differ...