Singular measure traveling waves in an epidemiological model with continuous phenotypes

Abstract

We consider the reaction-diffusion equation equation* ut=uxx+μ(∫ M(y,z)u(t,x,z)dz-u) + u(a(y)-∫ K(y,z) u(t,x,z)dz) , equation* where u=u(t,x,y) stands for the density of a theoretical population with a spatial (x∈ R) and phenotypic (y∈⊂ Rn) structure, M(y,z) is a mutation kernel acting on the phenotypic space, a(y) is a fitness function and K(y,z) is a competition kernel. Using a vanishing viscosity method, we construct measure-valued traveling waves for this equation, and present particular cases where singular traveling waves do exist. We determine that the speed of the constructed traveling waves is the expected spreading speed c*:=2-λ1 , where λ1 is the principal eigenvalue of the linearized equation. As far as we know, this is the first construction of a measure-valued traveling wave for a reaction-diffusion equation.