Analysis of Integrodifference Equations with a Separable Dispersal Kernel

En cours de chargement...
Vignette d'image

Date

Authors

Bramburger, Jason
Lutscher, Frithjof

Nom de la revue

ISSN de la revue

Titre du volume

Éditeur

Résumé

Integrodifference equations are a class of infinite-dimensional dy- namical systems in discrete-time that have recently received great attention as mathematical models of population dynamics in spatial ecology. The dis- persal of individuals between generations is described by a ‘dispersal kernel’, a probability density function for the distance that an individual moves within a season. Previous authors recognized that the dynamics are reduced to a finite- dimensional problem when the dispersal kernel is separable. We prove some open questions from their work on the dynamics of a single population and then extend the idea to investigate the dynamics of two spatially distributed species in (i) a competitive relation, and (ii) a predator-prey relation. In all cases, we discuss how the dynamics of the population(s) depend on the amount of suitable space that is available to them. We find a number of bifurcations, such as period-doubling sequences and Naimark-Sacker bifurcations, which we illustrate through simulations.

Description

Mots-clés

Integrodifference equation, Spatial ecology, Bifurcation, Separable kernel

Citation

Approbation

Évaluation

Complété par

Référencé par