Chaotic model for lévy walks in swarming bacteria

Ariel, G., Be’er, A. and Reynolds, Andy (2017) Chaotic model for lévy walks in swarming bacteria. Physical Review Letters, 118 (22). p. 228102. 10.1103/PhysRevLett.118.228102
Copy

We describe a new mechanism for Lévy walks, explaining the recently observed superdiffusion of swarming bacteria. The model hinges on several key physical properties of bacteria, such as an elongated cell shape, self-propulsion, and a collectively generated regular vortexlike flow. In particular, chaos and Lévy walking are a consequence of group dynamics. The model explains how cells can fine-tune the geometric properties of their trajectories. Experiments confirm the spectrum of these patterns in fluorescently labeled swarming Bacillus subtilis.
Item Type Article
Open Access Gold
Additional information PRL
Keywords biological fluid dynamics, cell aggregation, locomotion, swarming
Project Delivering Sustainable Systems (SS) [ISPG], Space use by bees - radar tracking of spatial movements for key pollinators, Movement and spatial ecology in agricultural landscapes
Date Deposited 05 Dec 2025 09:54
Last Modified 21 Jan 2026 17:20

Explore Further

picture_as_pdf
PhysRevLett.118.228102.pdf
subject
Published Version
Available under Creative Commons: Attribution 3.0
View Download

Atom BibTeX OpenURL ContextObject in Span OpenURL ContextObject Dublin Core MPEG-21 DIDL Data Cite XML EndNote HTML Citation METS MODS RIOXX2 XML Reference Manager Refer ASCII Citation
Export

Downloads