(597b) The Instabilities in Bacterial Colony Patterns | AIChE

(597b) The Instabilities in Bacterial Colony Patterns

Authors 

Pushpavanam, S., Indian Institute of Technology Madras, Chennai
In this work, we use a modeling and experimental approach to study the self-organization of bacterial cells expanding on a solid agar. Growing microbes form a biofilm by secreting extracellular polymeric substances (EPSs) that form an integral part of biofilm-like structures. In these structures, interaction among mechanical and physical forces result in different morphological patterns such as concentric rings, dendrites, Eden like structures. Surfactant molecules that lower the surface tension of the colony are secreted by these growing cells. Lowering the surface tension helps spreading of bacteria on solid surfaces. the difference in the surface concentration of surfactant molecules causes Marangoni effect that facilitates spreading.

In this work, we study the effect of bacterial surfactant secretion, diffusional flux of nutrients, substrate thickness and wettability on colony growth and shape within the framework of a hydrodynamic thin film model. We observed the different colony patterns in Peudomonas and Bacillus Subtilis under similar condition. Our framework accounts interplay among mechanical stress from bacterial migration, growth, surface stress and Marangony effects. Our mathematical model is able to explain front instability in bacterial colony pattern and various experimental observations of microbial colony patterns in literatures.