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The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry

Henningsson, P; Michaelis, D; Nakata, T; Schanz, D; Geisler, R; Schroeder, A; Bomphrey, R J

Authors

P Henningsson

D Michaelis

T Nakata

D Schanz

R Geisler

A Schroeder

R J Bomphrey



Abstract

Particle image velocimetry has been the preferred experimental technique with which to study the aerodynamics of animal flight for over a decade. In that time, hardware has become more accessible and the software has progressed from the acquisition of planes through the flow field to the reconstruction of small volumetric measurements. Until now, it has not been possible to capture large volumes that incorporate the full wavelength of the aerodynamic track left behind during a complete wingbeat cycle. Here, we use a unique apparatus to acquire the first instantaneous wake volume of a flying animal's entire wingbeat. We confirm the presence of wake deformation behind desert locusts and quantify the effect of that deformation on estimates of aerodynamic force and the efficiency of lift generation. We present previously undescribed vortex wake phenomena, including entrainment around the wing-tip vortices of a set of secondary vortices borne of Kelvin–Helmholtz instability in the shear layer behind the flapping wings.

Citation

Henningsson, P., Michaelis, D., Nakata, T., Schanz, D., Geisler, R., Schroeder, A., & Bomphrey, R. J. (2015). The complex aerodynamic footprint of desert locusts revealed by large-volume tomographic particle image velocimetry. https://doi.org/10.1098/rsif.2015.0119

Journal Article Type Article
Acceptance Date May 12, 2015
Publication Date Jun 3, 2015
Deposit Date Jun 11, 2015
Publicly Available Date Jun 11, 2015
Journal JOURNAL OF THE ROYAL SOCIETY INTERFACE
Peer Reviewed Peer Reviewed
Volume 12
Issue 108
DOI https://doi.org/10.1098/rsif.2015.0119
Public URL https://rvc-repository.worktribe.com/output/1400600

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