© Marcel Burkhardt
Schmaljohann, H. & F. Liechti (2009)
Adjustments of wingbeat frequency and air speed to air density in free-flying migratory birds.
J. Exp. Biol. 212: 3633–3642
Birds adjust their flight behaviour to the physical properties of the air. Lift and drag, the two major properties in aerodynamics, are highly dependent on air density. With decreasing air density drag is reduced and lift per wingbeat decreases. According to flight mechanical theory, wingbeat frequency and air speed should increase with decreasing air density, i.e. increasing flight altitude. Although wind tunnel experiments have shed light on many aspects of avian flight, the effect of air density remained ambiguous, because air density could not be adjusted in wind tunnels, until now. By means of radar we recorded tracks of several thousand free-flying individual birds during nocturnal migration. From these tracks we derived wingbeat frequencies and airspeeds covering air densities from 0.84kgm–3 to 1.13kgm–3, corresponding to an altitudinal range of about 3000m. We demonstrate here with this sample of nocturnal migrants that: (1) wingbeat frequency decreases with air density (which corresponds to an increase in flap-gliding flyers by 0.4Hzkm–1 and in bounding flyers by 1.1Hzkm–1), (2) reducing wingbeat frequency to equivalent sea level values did not abolish the dependency on air density, as expected by flight mechanical theory, and (3) bounding flyers show a higher response in their flight behavioural adjustments to changes in air density than flap-gliding flyers. With respect to air speed flap-gliding flyers increase their air speed by 1.0ms–1km–1 and bounding flyers by 1.4ms–1km–1.
Keywords: Flight, bird, wingbeat frequency, air speed, air density, altitude.
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