In this paper we present and analyse a simple two populations model with migrations among two different environments. The populations interact by competing for resources. Equilibria are investigated. A proof for the boundedness of the populations is provided. A kind of competitive exclusion principle for metapopulation systems is obtained. At the same time we show that the competitive exclusion principle at the local patch level may be prevented to hold by the migration phenomenon, i.e. two competing populations may coexist, provided that only one of them is allowed to freely move or that migrations for both occur just in one direction
In models of competition in which space is treated as a continuum, and population size as continuous...
When applied at the individual patch level, the classic competition-colonization models of species c...
Thesis (Ph.D.)--University of Washington, 2016-08Chapter 1. Dispersal and migration are spatially li...
We investigate whether asymmetric fast migration can modify the predictions of classical competition...
International audienceIt is known that the competitive exclusion principle holds for a large kind of...
AbstractIn this study, according to the model of the meta-population of two species competition for ...
Competitive exclusion – n species cannot coexist on fewer than n limiting resources in a constant an...
The outcome of competition among species is influenced by the spatial distribution of species and ef...
Competition between two species in a metapopulation involves each inhibiting the other's ability fir...
The purpose of this thesis is the mathematical and numerical study of a system of several species co...
AbstractWe first investigate in a logistic model the effects of migration and spatial heterogeneity ...
We introduce an asymmetric noisy voter model to study the joint effect of immigration and a competit...
Simple patch-occupancy models of competitive metacommunities have shown that coexistence is possible...
Species distributional limits may coincide with hard dispersal barriers or physiological thresholds ...
The competitive exclusion principle is one of the most influential concepts in ecology. The classica...
In models of competition in which space is treated as a continuum, and population size as continuous...
When applied at the individual patch level, the classic competition-colonization models of species c...
Thesis (Ph.D.)--University of Washington, 2016-08Chapter 1. Dispersal and migration are spatially li...
We investigate whether asymmetric fast migration can modify the predictions of classical competition...
International audienceIt is known that the competitive exclusion principle holds for a large kind of...
AbstractIn this study, according to the model of the meta-population of two species competition for ...
Competitive exclusion – n species cannot coexist on fewer than n limiting resources in a constant an...
The outcome of competition among species is influenced by the spatial distribution of species and ef...
Competition between two species in a metapopulation involves each inhibiting the other's ability fir...
The purpose of this thesis is the mathematical and numerical study of a system of several species co...
AbstractWe first investigate in a logistic model the effects of migration and spatial heterogeneity ...
We introduce an asymmetric noisy voter model to study the joint effect of immigration and a competit...
Simple patch-occupancy models of competitive metacommunities have shown that coexistence is possible...
Species distributional limits may coincide with hard dispersal barriers or physiological thresholds ...
The competitive exclusion principle is one of the most influential concepts in ecology. The classica...
In models of competition in which space is treated as a continuum, and population size as continuous...
When applied at the individual patch level, the classic competition-colonization models of species c...
Thesis (Ph.D.)--University of Washington, 2016-08Chapter 1. Dispersal and migration are spatially li...