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Upstream swimming in microbiological flows

Interactions between microorganisms and their complex flowing environments are essential in many biological systems. We develop a model for microswimmer dynamics in non-Newtonian Poiseuille flows. We predict that swimmers in shear-thickening (-thinning) fluids migrate upstream more (less) quickly than in Newtonian fluids and demonstrate that viscoelastic normal stress differences reorient swimmers causing them to migrate upstream at the centreline, in contrast to well-known boundary accumulation in quiescent Newtonian fluids. Based on these observations, we suggest a sorting mechanism to select microbes by swimming speed.

preprint2015arXivOpen access
Arnold J. T. M. MathijssenTyler N. ShendrukJulia M. YeomansAmin Doostmohammadi
Biological Physicscond-mat.softphysics.flu-dyn
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Arnold J. T. M. MathijssenTyler N. ShendrukJulia M. YeomansAmin Doostmohammadi

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