38 pages, 2 figuresInternational audienceConsider two epidemics whose expansions on $\mathbb{Z}^d$ are governed by two families of passage times that are distinct and stochastically comparable. We prove that when the weak infection survives, the space occupied by the strong one is almost impossible to detect: for instance, it could not be observed by a medium resolution satellite. We also recover the same fluctuations with respect to the asymptotic shape as in the case where the weak infection evolves alone. In dimension two, we prove that one species finally occupies a set with full density, while the other one only occupies a set of null density. We also prove that the Häggström-Pemantle non-coexistence result "except perhaps for a denume...
We study a diffusive SIS epidemic model with mass-action transmission mechanism and show, under appr...
According to the competitive exclusion principle, in a finite ecosystem, extinction occurs naturally...
In this article, a competition system in a random environment is considered. There are two species o...
submitted 18 dec 2003We study the problem of coexistence in a two-type competition model governedby ...
International audienceThis paper is concerned with some spreading properties of monostable Lotka–Vol...
We investigate the long-time dynamics of a SIR epidemic model in the case of a population of pathoge...
AbstractWe consider a two-type stochastic competition model on the integer lattice Zd. The model des...
International audienceWe show that the coexistence of different species in competition for a common ...
In the two-type Richardson model on a graph G=(V,E), each vertex is at a given time in state 0,1 or ...
International audienceOur interest here is to find the invader in a two species, diffusive and compe...
The dynamics of a population undergoing selection is a central topic in evolutionary biology. This q...
Note: This paper is the full version of Blath, Etheridge & Meredith (2007). It has also successfully...
Journal ArticleHow many different strains of a disease can coexist in a single population of hosts? ...
We are interested in the long-time behavior of a diploid population with sexual reproduction and ran...
AbstractWe study the two-type Richardson model on Zd, d⩾2, in the asymmetric case where the two part...
We study a diffusive SIS epidemic model with mass-action transmission mechanism and show, under appr...
According to the competitive exclusion principle, in a finite ecosystem, extinction occurs naturally...
In this article, a competition system in a random environment is considered. There are two species o...
submitted 18 dec 2003We study the problem of coexistence in a two-type competition model governedby ...
International audienceThis paper is concerned with some spreading properties of monostable Lotka–Vol...
We investigate the long-time dynamics of a SIR epidemic model in the case of a population of pathoge...
AbstractWe consider a two-type stochastic competition model on the integer lattice Zd. The model des...
International audienceWe show that the coexistence of different species in competition for a common ...
In the two-type Richardson model on a graph G=(V,E), each vertex is at a given time in state 0,1 or ...
International audienceOur interest here is to find the invader in a two species, diffusive and compe...
The dynamics of a population undergoing selection is a central topic in evolutionary biology. This q...
Note: This paper is the full version of Blath, Etheridge & Meredith (2007). It has also successfully...
Journal ArticleHow many different strains of a disease can coexist in a single population of hosts? ...
We are interested in the long-time behavior of a diploid population with sexual reproduction and ran...
AbstractWe study the two-type Richardson model on Zd, d⩾2, in the asymmetric case where the two part...
We study a diffusive SIS epidemic model with mass-action transmission mechanism and show, under appr...
According to the competitive exclusion principle, in a finite ecosystem, extinction occurs naturally...
In this article, a competition system in a random environment is considered. There are two species o...
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