Preferential sampling and small-scale clustering of gyrotactic microswimmers in turbulence

TL;DR

This paper analytically investigates how shape influences the behavior, preferential sampling, and clustering of gyrotactic microswimmers in turbulence, revealing shape-dependent biases and clustering tendencies.

Contribution

It provides a theoretical analysis of how organism shape affects their distribution and clustering in turbulent flows under gravitational effects.

Findings

Oblong microswimmers may prefer up-welling regions.

All microswimmers tend to bias towards upward fluid-velocity gradients.

Clustering behavior varies with gravitational torque strength and shape.

Abstract

Recent studies show that spherical motile micro-organisms in turbulence subject to gravitational torques gather in down-welling regions of the turbulent flow. By analysing a statistical model we analytically compute how shape affects the dynamics, preferential sampling, and small-scale spatial clustering. We find that oblong organisms may spend more time in up-welling regions of the flow, and that all organisms are biased to regions of positive fluid-velocity gradients in the upward direction. We analyse small-scale spatial clustering and find that oblong particles may either cluster more or less than spherical ones, depending on the strength of the gravitational torques.