Light-induced phase separation and pattern formation by phototactic micro-algae
Excess of light can be hazardous and lethal for photosynthetic organisms. When intensity is too high, the motile micro-algae Chlamydomonas reinhardtii therefore reorient itself to swim away from the incident light (negative phototaxis). We recently discovered that a collection of such migrating cells can be unstable, whereby small spatial fluctuations in cell density can trigger the local densification of the system and the formation of dynamic branching patterns, whose features depend on the global cell density, the intensity of light, the viscosity of the medium or the concentration of extra-cellular calcium. Mutants with deficient eyespots (organelle for light detection) still perform negative phototaxis but do not exhibit branching patterns. In this talk I will show how this new kind of instability can be understood from the strong coupling between cell density and light fields through both negative phototaxis and light scattering by the individual cells. I will present our results on the quantitative characterization of the patterns as well as the analytical model we developed in order to rationalise our observations. We believe our findings will help to better understand phototaxis by micro-organisms and provide a new route to decipher the complex interplay between photosynthesis, photoprotection and phototaxis.