# Naut your everyday jellyfish model: Exploring how tentacles and oral   arms impact locomotion

**Authors:** Jason G. Miles, Nicholas A. Battista

arXiv: 1908.04202 · 2019-08-13

## TL;DR

This study uses computational experiments to analyze how jellyfish tentacles and oral arms influence their swimming efficiency, revealing that these features can significantly inhibit speed and alter vortex formation.

## Contribution

It is the first detailed in silico investigation into how tentacle and oral arm morphology affects jellyfish locomotion and fluid dynamics.

## Key findings

- Tentacles/oral arms inhibit forward swimming speeds.
- Morphological changes can reduce speed by up to 400%.
- Tentacles suppress vortex formation during swimming.

## Abstract

Jellyfish - majestic, energy efficient, and one of the oldest species that inhabits the oceans. It is perhaps the second item, their efficiency, that has captivated scientists for decades into investigating their locomotive behavior. Yet, no one has specifically explored the role that their tentacles and oral arms may have on their potential swimming performance, arguably the very features that give jellyfish their beauty while instilling fear into their prey (and beach-goers). We perform comparative in silico experiments to study how tentacle/oral arm number, length, placement, and density affect forward swimming speeds, cost of transport, and fluid mixing. An open source implementation of the immersed boundary method was used (IB2d) to solve the fully coupled fluid-structure interaction problem of an idealized flexible jellyfish bell with poroelastic tentacles/oral arms in a viscous, incompressible fluid. Overall tentacles/oral arms inhibit forward swimming speeds, by appearing to suppress vortex formation. Non-linear relationships between length and fluid scale (Reynolds Number) as well as tentacle/oral arm number, density, and placement are observed, illustrating that small changes in morphology could result in significant decreases in swimming speeds, in some cases by downwards of 400% between cases with to without tentacles/oral arms.

## Full text

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## Figures

35 figures with captions in the complete paper: https://tomesphere.com/paper/1908.04202/full.md

## References

133 references — full list in the complete paper: https://tomesphere.com/paper/1908.04202/full.md

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Source: https://tomesphere.com/paper/1908.04202