Add to ORKGThis paper examines the interplay between optimal movement strategies and the weak Allee effect within the context of two competing species in a spatially heterogenous environment. When both species have the same populations dynamics, previous studies identified an ‘ideal free’ strategy which is able to exclude any other competitor playing a ‘non-ideal free’ strategy. We find that if the ideal free disperser is subject to a weak Allee effect, a competing species utilizing very weak or very strong advection will still be excluded despite having superior population dynamics. However, for intermediate advection rates, such a competitor can invade the ideal free disperser and even drive it to extinction. Not only do these results enhance ecolog...
AbstractWe consider reaction–diffusion–advection models for spatially distributed populations that h...
We take a well-known dynamic model of an isolated, unstructured population and modify this to includ...
Sessile organisms, including plants and benthic macrofauna, are often restricted in the ranges over ...
This paper examines the interplay between optimal movement strategies and the weak Allee effect with...
Recently, the ideal free dispersal strategy has been proven to be evolutionarily stable in the spati...
We investigate the dynamics of a three species competition model, in which all species have the same...
We study a two species competition model in which the species have the same population dynamics but ...
The main objective of this work is to present a general framework for the notion of the strong Allee...
In this article, we develop population game theory, a theory that combines the dynamics of animal be...
In this article we study the long term behavior of the competitive system {[Formula presented]=∇⋅[α(...
We investigate how coexistence between competitors may be influenced by habitat selection when habit...
Identifying the steady states of a population is a key issue in theoretical ecology, that includes t...
Abstract In ecological and population dynamics, the coupling between random perturbations and the Al...
Traditional continuous time models in spatial ecology typically describe movement in terms of linear...
The decision to move between patches in the environment is among the most important life history cho...
AbstractWe consider reaction–diffusion–advection models for spatially distributed populations that h...
We take a well-known dynamic model of an isolated, unstructured population and modify this to includ...
Sessile organisms, including plants and benthic macrofauna, are often restricted in the ranges over ...
This paper examines the interplay between optimal movement strategies and the weak Allee effect with...
Recently, the ideal free dispersal strategy has been proven to be evolutionarily stable in the spati...
We investigate the dynamics of a three species competition model, in which all species have the same...
We study a two species competition model in which the species have the same population dynamics but ...
The main objective of this work is to present a general framework for the notion of the strong Allee...
In this article, we develop population game theory, a theory that combines the dynamics of animal be...
In this article we study the long term behavior of the competitive system {[Formula presented]=∇⋅[α(...
We investigate how coexistence between competitors may be influenced by habitat selection when habit...
Identifying the steady states of a population is a key issue in theoretical ecology, that includes t...
Abstract In ecological and population dynamics, the coupling between random perturbations and the Al...
Traditional continuous time models in spatial ecology typically describe movement in terms of linear...
The decision to move between patches in the environment is among the most important life history cho...
AbstractWe consider reaction–diffusion–advection models for spatially distributed populations that h...
We take a well-known dynamic model of an isolated, unstructured population and modify this to includ...
Sessile organisms, including plants and benthic macrofauna, are often restricted in the ranges over ...