AbstractThis paper is concerned with the spatial behavior of the non-autonomous competition–diffusion system arising in population ecology. The limiting profile of the system is given as the competition rate tends to infinity. Our result shows that two competing species spatially segregate as the competition rates become large. Moreover, for the case of the same non-autonomous terms, we obtain the uniform convergence result
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
The purpose of this thesis is the mathematical and numerical study of a system of several species co...
Coexistence of apparently similar species remains an enduring paradox in ecology. Spatial structure ...
AbstractFor a class of population models of competitive type, we study the asymptotic behavior of th...
Spatial segregation occurs in population dynamics when k species interact in a highly competitive wa...
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...
For a class of population models ofcompetitive type, we study the asymptotic behavior of the positiv...
We investigate the long term behavior for a class of competition\u2013diffusion systems of Lotka\u20...
Abstract. We deal with strongly competing multispecies systems of Lotka-Vol– terra type with homogen...
International audienceIt is known that the competitive exclusion principle holds for a large kind of...
International audienceTo describe population dynamics, it is crucial to take into account jointly ev...
(Communicated by the associate editor name) Abstract. To describe population dynamics, it is crucial...
Most spatial models of competing species assume symmetries in the spatial scales of dispersal and in...
Many ecosystems, from vegetation to biofilms, are composed of territorial populations that compete f...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
The purpose of this thesis is the mathematical and numerical study of a system of several species co...
Coexistence of apparently similar species remains an enduring paradox in ecology. Spatial structure ...
AbstractFor a class of population models of competitive type, we study the asymptotic behavior of th...
Spatial segregation occurs in population dynamics when k species interact in a highly competitive wa...
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...
For a class of population models ofcompetitive type, we study the asymptotic behavior of the positiv...
We investigate the long term behavior for a class of competition\u2013diffusion systems of Lotka\u20...
Abstract. We deal with strongly competing multispecies systems of Lotka-Vol– terra type with homogen...
International audienceIt is known that the competitive exclusion principle holds for a large kind of...
International audienceTo describe population dynamics, it is crucial to take into account jointly ev...
(Communicated by the associate editor name) Abstract. To describe population dynamics, it is crucial...
Most spatial models of competing species assume symmetries in the spatial scales of dispersal and in...
Many ecosystems, from vegetation to biofilms, are composed of territorial populations that compete f...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
The purpose of this thesis is the mathematical and numerical study of a system of several species co...
Coexistence of apparently similar species remains an enduring paradox in ecology. Spatial structure ...