A family of vortex wakes generated by a thrush nightingale in free flight in a wind tunnel over its entire natural range of flight speeds

doi:10.1242/jeb.00423

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The Journal of Experimental Biology 206, 2313-2344 (2003)
doi: 10.1242/jeb.00423

A family of vortex wakes generated by a thrush nightingale in free flight in a wind tunnel over its entire natural range of flight speeds

G. R. Spedding¹^,*, M. Rosén² and A. Hedenström²

¹ Department of Aerospace and Mechanical Engineering, University of Southern California, Los Angeles, CA 90089-1191, USA
² Department of Animal Ecology, Lund University, Ecology Building, SE-223 62 Lund, Sweden

^* Author for correspondence (e-mail: geoff{at}usc.edu)

Accepted 2 April 2003

In view of the complexity of the wing-beat kinematics and geometry,an important class of theoretical models for analysis and predictionof bird flight performance entirely, or almost entirely, ignoresthe action of the wing itself and considers only the resultingmotions in the air behind the bird. These motions can also becomplicated, but some success has previously been recorded indetecting and measuring relatively simple wake structures thatcan sometimes account for required quantities used to estimate aerodynamicpower consumption. To date, all bird wakes, measured or presumed, seemto fall into one of two classes: the closed-loop, discrete vortexmodel at low flight speeds, and the constant-circulation, continuousvortex model at moderate to high speeds. Here, novel and accuratequantitative measurements of velocity fields in vertical planesaligned with the freestream are used to investigate the wakestructure of a thrush nightingale over its entire range of naturalflight speeds. At most flight speeds, the wake cannot be categorisedas one of the two standard types, but has an intermediate structure,with approximations to the closed-loop and constant-circulation modelsat the extremes. A careful accounting for all vortical structures revealedwith the high-resolution technique permits resolution of the previouslyunexplained wake momentum paradox. All the measured wake structures havesufficient momentum to provide weight support over the wingbeat.A simple model is formulated and explained that mimics the correct,measured balance of forces in the downstroke- and upstroke-generatedwake over the entire range of flight speeds. Pending furtherwork on different bird species, this might form the basis fora generalisable flight model.

Key words: thrush nightingale, Luscinia luscinia, flight, aerodynamics, wake, wind tunnel, digital particle image velocimetry (DPIV)

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