Analysis of propagation for impulsive reaction-diffusion models

Abstract

We study a hybrid impulsive reaction-advection-diffusion model given by a reaction-advection-diffusion equation composed with a discrete-time map in space dimension n∈ N. The reaction-advection-diffusion equation takes the form equation* u(m)t = div(A∇ u(m)-q u(m)) + f(u(m)) for \ \ (x,t)∈ Rn × (0,1] , equation* for some function f, a drift q and a diffusion matrix A. When the discrete-time map is local in space we use Nm(x) to denote the density of population at a point x at the beginning of reproductive season in the mth year and when the map is nonlocal we use um(x). The local discrete-time map is eqnarray*\ arraylcl u(m)(x,0) = g(Nm(x)) for \ \ x∈ Rn , \\ Nm+1(x):=u(m)(x,1) for \ \ x∈ Rn , array. eqnarray* for some function g. The nonlocal discrete time map is eqnarray*\ arraylcl u(m)(x,0) = um(x) for \ \ x∈ Rn , \\ mainb2 um+1(x) := g(∫ Rn K(x-y)u(m)(y,1) dy) for \ \ x∈ Rn, array. eqnarray* when K is a nonnegative normalized kernel. SEE THE ARTICLE FOR COMPLETE ABSTRACT.