The influence of advection on the propagation phenomena of reaction-diffusion equations with KPP-bistable nonlinearity

Abstract

This paper is devoted to propagation phenomena for a reaction-diffusion-advection equation in a one-dimensional heterogeneous environment, where heterogeneity is reflected by the nonlinearity term -- being KPP type on (-∞, -L] and being bistable type on [L,+∞) for some L>0. A comprehensive analysis is presented on the influence of advection and heterogeneous reactions, based on various values of the advection rate c. Denote by cm and cb the spreading speeds of KPP and bistable reactions, respectively. When c>-cm, it is shown that propagation can always occur with leftward spreading speed cm+c and rightward spreading speed ((cb-c,0),cm-c). Moreover, a logarithmic delay of the level sets in the left direction is discovered. When c -cm, propagation phenomena are determined by the initial data and by the sign of cb. In particular, when cb>0, the leftward propagation speed is cb+c if the initial population is "large enough"; whereas extinction occurs if the initial value is located in the bistable region and is "relatively small". In addition, the attractiveness of the bistable traveling wave is obtained when the leftward spreading speed is cb+c and/or when the rightward spreading speed is cb-c.