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Flow sensing on dragonfly wings

Uhrhan, Myriam J.; Bomphrey, Richard J.; Lin, Huai‐Ti

Authors

Myriam J. Uhrhan

Richard J. Bomphrey

Huai‐Ti Lin



Abstract

One feature of animal wings is their embedded mechanosensory system that can support flight control. Insect wings are particularly interesting as they are highly deformable yet the actuation is limited to the wing base. It is established that strain sensors on insect wings can directly mediate reflexive control; however, little is known about airflow sensing by insect wings. What information can flow sensors capture and how can flow sensing benefit flight control? Here, we use the dragonfly (Sympetrum striolatum) as a model to explore the function of wing sensory bristles in the context of flight control. Combining our detailed anatomical reconstructions of both the sensor microstructures and wing architecture, we used computational fluid dynamics simulations to ask the following questions. (1) Are there strategic locations on wings that sample flow for estimating aerodynamically relevant parameters such as the local effective angle of attack? (2) Is the sensory bristle distribution on dragonfly wings optimal for flow sensing? (3) What is the aerodynamic effect of microstructures found near the sensory bristles on dragonfly wings? We discuss the benefits of flow sensing for flexible wings and how the evolved sensor placement affects information encoding.

Citation

Uhrhan, M. J., Bomphrey, R. J., & Lin, H. (2024). Flow sensing on dragonfly wings. Annals of the New York Academy of Sciences, 1536(1), 107-121. https://doi.org/10.1111/nyas.15152

Journal Article Type Article
Acceptance Date Apr 29, 2024
Online Publication Date Jun 5, 2024
Publication Date 2024-06
Deposit Date Sep 16, 2024
Publicly Available Date Sep 23, 2024
Journal Annals of the New York Academy of Sciences
Print ISSN 0077-8923
Electronic ISSN 1749-6632
Publisher Wiley
Peer Reviewed Peer Reviewed
Volume 1536
Issue 1
Pages 107-121
DOI https://doi.org/10.1111/nyas.15152
Additional Information Published: 2024-06-05

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