Diffusion-driven blow-up for a non-local Fisher-KPP type model

Abstract

The purpose of the current paper is to unveil the key mechanism which is responsible for the occurrence of Turing-type instability for a non-local Fisher-KPP type model. In particular, we prove that the solution of the considered non-local Fisher-KPP equation in the neighbourhood of a constant stationary solution, is destabilized via a diffusion-driven blow-up. It is also shown that the observed diffusion-driven blow-up is complete, whilst its blow-up rate is completely classified. Finally, the detected diffusion-driven instability results in the formation of unstable blow-up patterns, which are also identified through the determination of the blow-up profile of the solution.