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Literature DB >> 21770545

Gyrotaxis in a steady vortical flow.

William M Durham¹, Eric Climent, Roman Stocker.

Abstract

We show that gyrotactic motility within a steady vortical flow leads to tightly clustered aggregations of microorganisms. Two dimensionless numbers, characterizing the relative swimming speed and stability against overturning by vorticity, govern the coupling between motility and flow. Exploration of parameter space reveals a striking array of patchiness regimes. Aggregations are found to form within a few overturning time scales, suggesting that vortical flows might be capable of efficiently separating species with different motility characteristics.

Entities: Chemical

Mesh：

Year: 2011 PMID： 21770545 DOI： 10.1103/PhysRevLett.106.238102

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

Keyword Cloud
Cited

9 in total

Gyrotaxis in a steady vortical flow.

1. Helical swimming can provide robust upwards transport for gravitactic single-cell algae; a mechanistic model.

2. Shear-induced orientational dynamics and spatial heterogeneity in suspensions of motile phytoplankton.

3. Bacterial aggregation and biofilm formation in a vortical flow.

4. Dispersion of swimming algae in laminar and turbulent channel flows: consequences for photobioreactors.

5. Investigating microscale patchiness of motile microbes under turbulence in a simulated convective mixed layer.

6. Gyrotactic cluster formation of bottom-heavy squirmers.

7. Inhomogeneous distribution of Chlamydomonas in a cylindrical container with a bubble plume.

8. The role of diatom nanostructures in biasing diffusion to improve uptake in a patchy nutrient environment.

9. Cross-stream migration of active particles.