Add to ORKGRecently, the ideal free dispersal strategy has been proven to be evolutionarily stable in the spatially discrete as well as continuous setting. That is, at equilibrium a species adopting the strategy is immune against invasion by any species carrying a different dispersal strategy, other conditions being held equal. In this paper, we consider a two-species competition model where one of the species adopts an ideal free dispersal strategy, but is penalized by a weak Allee effect. We will show rigorously in this case that the ideal free disperser is invasible by a range of non-ideal free strategies, illustrating the trade-off between the advantage of being an ideal free disperser and the setback caused by the weak Allee effect. Moreover, an ...
Many organisms experience an Allee effect: their populations do not grow optimally at low densities....
We studied an individual-based model of a number of competitors each able to move freely between two...
International audienceIn this paper, we reanalyze simple models of the evolution of dispersal in a h...
Recently, the ideal free dispersal strategy has been proven to be evolutionarily stable in the spati...
This paper examines the interplay between optimal movement strategies and the weak Allee effect with...
In this article we study the long term behavior of the competitive system {[Formula presented]=∇⋅[α(...
We consider competition systems of two species which have different dispersal strategies and intersp...
We investigate the dynamics of a three species competition model, in which all species have the same...
Abstract In ecological and population dynamics, the coupling between random perturbations and the Al...
The decision to move between patches in the environment is among the most important life history cho...
We study a two species competition model in which the species have the same population dynamics but ...
In this article, we develop population game theory, a theory that combines the dynamics of animal be...
[[abstract]]The dispersal of organisms plays an important role in determining the dynamics of ecolog...
In the presented work we study an application of evolutionary game theory in behavioral ecology, spe...
Many organisms experience an Allee effect: their populations do not grow optimally at low densities....
We studied an individual-based model of a number of competitors each able to move freely between two...
International audienceIn this paper, we reanalyze simple models of the evolution of dispersal in a h...
Recently, the ideal free dispersal strategy has been proven to be evolutionarily stable in the spati...
This paper examines the interplay between optimal movement strategies and the weak Allee effect with...
In this article we study the long term behavior of the competitive system {[Formula presented]=∇⋅[α(...
We consider competition systems of two species which have different dispersal strategies and intersp...
We investigate the dynamics of a three species competition model, in which all species have the same...
Abstract In ecological and population dynamics, the coupling between random perturbations and the Al...
The decision to move between patches in the environment is among the most important life history cho...
We study a two species competition model in which the species have the same population dynamics but ...
In this article, we develop population game theory, a theory that combines the dynamics of animal be...
[[abstract]]The dispersal of organisms plays an important role in determining the dynamics of ecolog...
In the presented work we study an application of evolutionary game theory in behavioral ecology, spe...
Many organisms experience an Allee effect: their populations do not grow optimally at low densities....
We studied an individual-based model of a number of competitors each able to move freely between two...
International audienceIn this paper, we reanalyze simple models of the evolution of dispersal in a h...