EXPERIMENTAL-OBSERVATION OF SELF-REPLICATING SPOTS IN A REACTION-DIFFUSION SYSTEM

IN his classic 1952 paper, Turing(1) suggested a possible connection b etween patterns in biological systems and patterns that could form spo ntaneously in chemical reaction-diffusion systems. Turing's analysis s timulated considerable theoretical research on mathematical models of pattern formation, but Turing-type patterns were not observed in contr olled laboratory experiments until 1990(2,3). Subsequently there has b een a renewed interest in chemical pattern formation and in the relati onship of chemical patterns to the remarkably similar patterns observe d in diverse physical and biological systems(4). Numerical simulations of a simple model chemical system have recently revealed spot pattern s that undergo a continuous process of 'birth' through replication and 'death' through overcrowding(5). Here we report the observation of a similar phenomenon in laboratory experiments on the ferrocyanide-iodat e-sulphite reaction. Repeated growth and replication can be observed f or a wide range of experimental parameters, and can be reproduced by a simple two-species model, suggesting that replicating spots may occur in many reaction-diffusion systems.