Spatial Dynamics of a Nonlocal Dispersal Population Model in a Shifting Environment

Abstract

This paper is concerned with spatial spreading dynamics of a nonlocal dispersal population model in a shifting environment where the favorable region is shrinking. It is shown that the species will become extinct in the habitat once the speed of the shifting habitat edge c>c*(∞), however if c<c*(∞), the species will persist and spread along the shifting habitat at an asymptotic spreading speed c*(∞), where c*(∞) is determined by the nonlocal dispersal kernel, diffusion rate and the maximum linearized growth rate. Moreover, we demonstrate that for any given speed of the shifting habitat edge, this model admits a nondecreasing traveling wave with the wave speed at which the habitat is shifting, which indicates that the extinction wave phenomenon does happen in such a shifting environment.