Add to ORKGAbstract Competition between species is ubiquitous in nature and therefore widely stud-ied in ecology through experiment and theory. One of the central questions is under which conditions a (rare) invader can establish itself in a landscape dominated by a resident species at carrying capacity. Applying the same question with the roles of the invader and resident reversed leads to the principle that “mutual invasibility implies coexistence.” A related but different question is how fast a locally introduced invader spreads into a landscape (with or without competing resident), provided it can invade. We explore some aspects of these questions in a deterministic, spatially explicit model for two compet-ing species with discrete non-overlapping...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
AbstractWe first investigate in a logistic model the effects of migration and spatial heterogeneity ...
The behaviour of a new model for the spatial spread of biological invasions with non-overlapping sy...
The outcome of competition among species is influenced by the spatial distribution of species and ef...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
Simple patch-occupancy models of competitive metacommunities have shown that coexistence is possible...
What is the effect of landscape heterogeneity on the spread rate of populations? Sev-eral spatially-...
Simple patch-occupancy models of competitive metacommunities have shown that coexistence is possible...
As the number of biological invasions increases, interactions between different invasive species wil...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
International audienceThe outcome of competition among species is influenced by the spatial distribu...
International audienceThe outcome of competition among species is influenced by the spatial distribu...
We examine the two-dimensional extension of themodel of Kessler and Sander of competition between tw...
The aim of this work is to investigate the effect of density-dependent dispersal on the outcome of c...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
AbstractWe first investigate in a logistic model the effects of migration and spatial heterogeneity ...
The behaviour of a new model for the spatial spread of biological invasions with non-overlapping sy...
The outcome of competition among species is influenced by the spatial distribution of species and ef...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
Simple patch-occupancy models of competitive metacommunities have shown that coexistence is possible...
What is the effect of landscape heterogeneity on the spread rate of populations? Sev-eral spatially-...
Simple patch-occupancy models of competitive metacommunities have shown that coexistence is possible...
As the number of biological invasions increases, interactions between different invasive species wil...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
Parapatry describes a geographic pattern in which the ranges of two species have separate but contig...
International audienceThe outcome of competition among species is influenced by the spatial distribu...
International audienceThe outcome of competition among species is influenced by the spatial distribu...
We examine the two-dimensional extension of themodel of Kessler and Sander of competition between tw...
The aim of this work is to investigate the effect of density-dependent dispersal on the outcome of c...
Dispersal is an important strategy that allows organisms to locate and exploit favorable habitats. T...
AbstractWe first investigate in a logistic model the effects of migration and spatial heterogeneity ...
The behaviour of a new model for the spatial spread of biological invasions with non-overlapping sy...