Integrative and Comparative Biology Advance Access originally published online on June 2, 2008
Integrative and Comparative Biology 2008 48(1):134-151; doi:10.1093/icb/icn044
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This article appears in the following Integrative and Comparitive Biology issue: Aeroecology: Probing and Modeling the Aerosphere–The Next Frontier [View the issue table of contents]
Wingbeat frequency and flap-pause ratio during natural migratory flight in thrushes
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*Ecology and Conservation Science Division, Illinois Natural History Survey, Champaign-Urbana, IL 61820, USA; Division of Biological Sciences, 32 Campus Dr., University of Montana, Missoula, MT 59812, USA; Department of Ecology and Evolutionary Biology, Princeton University, Princeton, NJ 08544, USA; Max Planck Institute for Ornithology, D-78315 Radolfzell, Germany
Correspondence: 1E-mail: wikelski{at}princeton.edu
Powered flapping flight has evolved independently in many different taxa. For flapping fliers, wingbeat parameters such as frequency and amplitude are the primary determinants of these animals’ energetic expenditure during flight. Here we present data on wingbeat frequency and amplitude for three New World thrush species during 15 entire nocturnal migratory flights over the Midwestern United States. Using continuous (non-pulsing) radio transmitters, we were able to measure wingbeat frequency and relative amplitude of wingbeats as well as the characteristics of flap-pauses. Contrary to previous telemetric findings, all of the individuals we followed used both flapping-only and flap-pause flight. During migratory flights, wingbeat frequency, effective wingbeat frequency, and amplitude were highest during initial ascent. Effective wingbeat frequency and amplitude were lowest during final descent. We show that identification of species based solely on characteristics of the wingbeat e.g., during radar studies, can be difficult because variables such as wingbeat frequency and amplitude, wingbeat pausing, and pattern of beats and pauses vary between individuals of the same species and even within individual flights. We also show that observed wingbeat frequencies were lower than those predicted by theoretical models. We speculate that this may be because theoretical predictions are generally based on (1) data from larger birds and (2) data from diurnal flights. We found that diurnal wingbeat frequencies of thrushes were generally higher than were those during nocturnal migratory flight. Finally, we suggest that rather than remaining at a single altitude during flight or climbing slightly as theoretical models predict, thrushes often moved up and down in the air column, perhaps searching for favorable atmospheric conditions.
From the symposium "Aeroecology: Probing and Modeling the Aerosphere—The Next Frontier" presented at the annual meeting of the Society for Integrative and Comparative Biology, January 2–6, 2008, at San Antonio, Texas.
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  T. Coppack, S. F Becker, and P. J.J Becker Circadian flight schedules in night-migrating birds caught on migration Biol Lett, December 23, 2008; 4(6): 619 - 622. [Abstract] [Full Text] [PDF]
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