Pelicans flying in a 'V' can glide for extended periods using the other birds' air streams.
Abstract
Many species of large bird fly together in formation, perhaps because flight power demands and energy expenditure can be reduced when the birds fly at an optimal spacing1,2,3, or because orientation is improved by communication within groups4. We have measured heart rates as an estimate of energy expenditure in imprinted great white pelicans (Pelecanus onocrotalus) trained to fly in 'V' formation, and show that these birds save a significant amount of energy by flying in formation. This advantage is probably a principal reason for the evolution of flight formation in large birds that migrate in groups.
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References
Lissaman, P. B. S. & Shollenberg, C. A. Science 168, 1003–1005 (1970).
Badgerow, J. P. & Hainsworth, F. R. J. Theor. Biol. 93, 41–52 (1981).
Hummel, D. J. Theor. Biol. 104, 321–347 (1983).
Hamilton, W. J. in Animal Orientation and Navigation (ed. Storm, R. M.) 57–71 (Oregon State Univ. Press, Corvallis, 1967).
Weimerskirch, H. et al. Proc. R. Soc. Lond. B 267, 1869–1874 (2000).
Hainsworth, F. R. J. Exp. Biol. 135, 431–444 (1988).
Badgerow, J. P. Auk 105, 749–755 (1988).
Cutts, C. J. & Speakman, J. R. J. Exp. Biol. 189, 251–261 (1999).
Higdon, J. J. L. & Corrsin, S. Am. Nat. 112, 727–744 (1978).
O'Malley, J. B. E. & Evans, R. M. Can. J. Zool. 60, 1388–1396 (1982).
Gould, L. L. & Heppner, F. Auk 91, 494–506 (1974).
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Weimerskirch, H., Martin, J., Clerquin, Y. et al. Energy saving in flight formation. Nature 413, 697–698 (2001). https://doi.org/10.1038/35099670
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DOI: https://doi.org/10.1038/35099670
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