Cyclic competition models

We now consider an example of a reaction-diffusion system based on the following reaction kinetics:

\[\begin{aligned}\pd{u}{t}&=D_u\nabla^2 u+u(1-u-av-bw),\\ \pd{v}{t}&=D_v\nabla^2 v+v(1-bu-v-aw),\\ \pd{w}{t}&=D_w\nabla^2 w+w(1-au-bv-w).\end{aligned}\]

These are an example of a generalised Lotka–Volterra system. If we set $a < 1 < b$, then each population outcompetes another, and hence their relative fitness forms a cycle. This kind of model is also known as a spatial rock-paper-scissors game.

To make things more interesting, we will allow the species to diffuse at different rates.