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The influence of motility on bacterial accumulation in a microporous channel

Miru Lee, Christoph Lohrmann, Kai Szuttor, Harold Auradou, Christian Holm

2020Soft Matter21 citationsDOIOpen Access PDF

Abstract

We study the transport of bacteria in a porous media modeled by a square channel containing one cylindrical obstacle via molecular dynamics simulations coupled to a lattice Boltzmann fluid. Our bacteria model is a rod-shaped rigid body which is propelled by a force-free mechanism. To account for the behavior of living bacteria, the model also incorporates a run-and-tumble process. The model bacteria are capable of hydrodynamically interacting with both of the channel walls and the obstacle. This enables the bacteria to get reoriented when experiencing a shear-flow. We demonstrate that this model is capable of reproducing the bacterial accumulation on the rear side of an obstacle, as has recently been experimentally observed by [G. L. Miño, et al., Adv. Microbiol., 2018, 8, 451] using E. coli bacteria. By systematically varying the external flow strength and the motility of the bacteria, we resolve the interplay between the local flow strength and the swimming characteristics that lead to the accumulation. Moreover, by changing the geometry of the channel, we also reveal the important role of the interactions between the bacteria and the confining walls for the accumulation process.

Topics & Concepts

BacteriaObstacleLattice Boltzmann methodsMotilityPorous mediumChannel (broadcasting)Microporous materialMechanicsFlow (mathematics)BiophysicsMaterials scienceChemical physicsPorosityPhysicsBiological systemChemistryBiologyComputer scienceCell biologyComposite materialPolitical scienceGeneticsLawComputer networkLattice Boltzmann Simulation StudiesMicro and Nano RoboticsNanopore and Nanochannel Transport Studies
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