npj Biofilms and Microbiomes (Apr 2023)

Active layer dynamics drives a transition to biofilm fingering

  • Ellen Young,
  • Gavin Melaugh,
  • Rosalind J. Allen

DOI
https://doi.org/10.1038/s41522-023-00380-w
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 12

Abstract

Read online

Abstract The emergence of spatial organisation in biofilm growth is one of the most fundamental topics in biofilm biophysics and microbiology. It has long been known that growing biofilms can adopt smooth or rough interface morphologies, depending on the balance between nutrient supply and microbial growth; this ‘fingering’ transition has been linked with the average width of the ‘active layer’ of growing cells at the biofilm interface. Here we use long-time individual-based simulations of growing biofilms to investigate in detail the driving factors behind the biofilm-fingering transition. We show that the transition is associated with dynamical changes in the active layer. Fingering happens when gaps form in the active layer, which can cause local parts of the biofilm interface to pin, or become stationary relative to the moving front. Pinning can be transient or permanent, leading to different biofilm morphologies. By constructing a phase diagram for the transition, we show that the controlling factor is the magnitude of the relative fluctuations in the active layer thickness, rather than the active layer thickness per se. Taken together, our work suggests a central role for active layer dynamics in controlling the pinning of the biofilm interface and hence biofilm morphology.