Viscotaxis of Beating Flagella at Surfaces

TL;DR

This study investigates how eukaryotic flagellated microswimmers respond to viscosity gradients, revealing positive viscotaxis driven by flagellar beating patterns, with implications for understanding microorganism navigation in complex fluids.

Contribution

The paper introduces a combined numerical and analytical model demonstrating positive viscotaxis in beating flagella and explores the effects of wave asymmetry and deformability on this behavior.

Findings

Flagella exhibit positive viscotaxis toward higher viscosity areas.

Asymmetric flagellar waves cause circular trajectories perpendicular to viscosity gradients.

Flagellar deformability reduces viscotactic response amplitude.

Abstract

Many biological microorganisms and artificial microswimmers react to external cues of environmental gradients by changing their swimming directions. We study here the behavior of eukarytic flagellated microswimmers in linear viscosity gradients. We employ a model of flagellum consisting of a semi-flexible filament with a travelling wave of spontaneous curvature to study viscotaxis of actively beating flagella in two spatial dimensions. The propulsion of the flagellum in a fluid due to a hydrodynamic friction anisotropy is described by resistive-force theory. Using numerical simulations and analytical theory, we show that beating flagella exhibit positive viscotaxis, reorienting themselves toward higher viscosity areas. We quantify this behavior by characterization of the dependence of the rotational velocity on beat amplitude, swimming speed, and wave length. We also examining the effects of asymmetric flagellar wave forms, which imply circular trajectories in the absence of viscosity gradients; here, large asymmetry leads to trochoid-like trajectories perpendicular to the gradient in the form drifting circles. The flagellar deformability strongly reduce the beat amplitude and the viscotatic response. The viscotatic response is shown to be captured by a universal function of the sperm number.