Bacterial Turbulence in Shear Thinning Fluid

Abstract: The collective motion of bacteria, commonly referred to as bacterial turbulence, is well understood in Newtonian fluids. However, studies on complex fluids have predominantly focused on viscoelastic effects. In our experiments, we employed Ficoll and Methocel polymers to compare the impacts of Newtonian and shear-thinning fluids on bacterial turbulence. We reported various physical properties, including energy and enstrophy, and observed that the shear-thinning effect is significantly suppressed in high-concentration bacterial suspensions. This suppression is largely attributed to the disruption of chain-like polymer structures around bacterial flagella due to strong interbacterial interactions in dense suspensions. To validate this hypothesis, we conducted experiments across bacterial concentrations (within the range where bacterial turbulence forms) and verified the findings using theoretical calculations based on the modified Resistive Force Theory (RFT).