Topological dynamics of rapid non-planar gaits in slithering snakes

Authors

N. Charles, Harvard John A. Paulson School of Engineering and Applied Sciences
R. Chelakkot, Indian Institute of Technology Bombay
M. Gazzola, The Grainger College of Engineering
B. Young, Kirksville College of Osteopathic Medicine
L. Mahadevan, School of Engineering and Applied Sciences

Document Type

Article

Publication Title

Nature Physics

Abstract

Snakes exhibit a wide variety of gaits, including gliding in air and sidewinding on land, which is particularly notable for its out-of-plane motion. Here we report the observation of another non-planar gait used as an escape strategy from threatening situations by juvenile anacondas (Eunectes notaeus), which we refer to as the S-start due to its shape. In this transient mode of locomotion, the snake writhes and bends out of the plane while rolling forward about its midsection without slippage. To quantify our observations, we develop a model for an active non-planar filament that interacts anisotropically with a frictional substrate. We demonstrate that locomotion is due to a propagating localized pulse of a topological quantity—the link density. A two-dimensional phase space characterized by scaled body weight and muscular torque shows that relatively light juveniles are capable of S-starts, whereas heavy adults are not, consistent with our experiments. We also show that a periodic sequence of S-starts naturally leads to a sidewinding gait.

First Page

856

Last Page

860

DOI

10.1038/s41567-025-02835-7

Publication Date

5-1-2025

Recommended Citation

Charles, N.; Chelakkot, R.; Gazzola, M.; Young, B.; and Mahadevan, L., "Topological dynamics of rapid non-planar gaits in slithering snakes" (2025). All KCOM Faculty Publications. 522.
https://scholarworks.atsu.edu/kcom-faculty/522