Nocturnally migrating birds were recorded by the optical-electronic matrix system, which permitted receiving their images and flight parameters in the dark. Among medium size birds the Song Thrushes (Turdus philomelos) were identified by their silhouette, linear size, wing-beat pattern, and phenology. The equivalent airspeed at 0m a.s.l (VEq) of the observed thrushes without wind assistance (mean value 14.3 m/s) was close to maximum range speed (Vmr) predicted from flight mechanical theory. This indicated the energy-selected migration strategy of the thrushes in autumn. The characteristic speed Vmr is wind-dependent:- it increases with increasing velocity of head- and sidewinds. A similar pattern of wind-dependence of airspeed has shown the Song Thrushes. They significantly increased their airspeed with increasing headwind component relative to its value in still air and decreased it with increasing tailwind component. We also found the effect of cross winds on airspeed:-those birds that compensated for wind drift completely along the leading line of the Courish Spit, which coincided with general migratory direction, increased their airspeed with increasing sidewind component. The flying birds tended to maintain their airspeed close to the speed of minimal cost of transport under various winds. Nevertheless, this trend was more in qualitative but not quantitative agreement with Pennycuick’s flight model:- migrating thrushes varied their airspeed in a smaller range than expected and their airspeed was significantly slower under calm and headwinds than the model predicted.
Original languageEnglish
Pages (from-to)64-76
Number of pages16
JournalOrnis Fennica
Volume96
Issue number2
StatePublished - 2019

ID: 52850304