Summary
Investigations in 10 species showed that respiration of birds in flight is usually co-ordinated with wing beats, but the co-ordination is not obligatory. Respiration synchronous with wing beats (1∶1 co-ordination) was found only in pigeons and crows, the other species exhibited one of 11 other types of co-ordination. Quails, ducks and pheasants, birds with relatively high wing beat frequencies (with relatively small wings) showed a 5∶1 co-ordination. Within species, and even during a flight the type of co-ordination changed, and simultaneously there were sudden changes in the respiration frequency. For the most part, the beginning of inspiration was linked with the (end of) upstroke and the beginning of expiration with the end of downstroke.
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References
Demoll, R.: Die Flugbewegungen bei großen und bei kleinen Vögeln. Z. Biol. 90, 199–230 (1930).
Dinnendahl, L., Kramer, G.: Über größenabhängige Änderungen bei Möwen (Larus ridibundus, L. canus, L. argentatus, L. marinus). J. Orn. 98, 282–312 (1957).
Fraenkel, G.: Der Atmungsmechanismus der Vögel während des Fluges. Biol. Zbl. 54, 96–101 (1934).
Greenewalt, C. H.: The wings of insects and birds as mechanical oscillators. Proc. Amer. philos. Soc. 104, 605–611 (1960).
- Dimensional relationships for flying animals. Smithson. Misc. Coll. 144, No. 2 (1962).
Groebbels, F.: Der Vogel, Bd. 1. Berlin: Bornträger 1932.
Hart, J. S., Roy, O. Z.: Respiratory and cardiac responses to flight in pigeons. Physiol. Zool. 39, 291–305 (1966).
Hertel, H.: Struktur, Form, Bewegung. Mainz: Krausskopf 1963.
Holst, E. v.: Die relative Koordination als Phänomen und als Methode zentralnervöser Funktionsanalyse. Ergebn. Physiol. 42, 228–306 (1939).
Lord, R. D., Bellrose, F. C., Cochrane, W. W.: Radiotelemetry of the respiration of a flying duck. Science 137, 39–40 (1962).
Marey, E. J.: Le vol des oiseaux. Paris: Masson 1890.
Meunier, K.: Korrelationen und Umkonstruktionen in den Größenbeziehungen zwischen Vogelflügel und Vogelkörper. Biol. generalis 19, 403–443 (1951).
—: Die Allometrie des Vogelflügels. Z. wiss. Zool. 161, 444–482 (1959).
Roy, O. Z., Hart, J. S.: A multi-channel transmitter for the physiological study of birds in flight. Med. Biol. Engng. 4, 457–466 (1966).
Soum, J. M.: Recherches physiologiques sur l'appareil respiratoire des oiseaux. Ann. Univers. Lyon, Paris, 1896.
Tomlinson, J. T.: Breathing of birds in flight. Condor 65, 514–516 (1963).
—, McKinnon, R. S.: Pigeon wing-beats synchronized with breathing. Condor 59, 401 (1957).
Tucker, V. A.: Respiratory exchange and evaporative water loss in the flying budgerigar. J. exp. Biol. 48, 67–87 (1968).
Zimmer, K.: Beiträge zur Mechanik der Atmung bei den Vögeln in Stand und Flug. Zoologica 88, 1–69 (1935).
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Dedicated to Prof. Dr. Erwin Stresemann at his 80. birthday.
Issued as N.R.C.C. No. 11095
We are grateful to Dr. D. Jensen for enabling the work on the gulls at McMaster University in Hamilton. We also wish to thank B. A. Mackenzie and R. Charbonneau for the skillful assistance in all experiments.
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Berger, M., Roy, O.Z. & Hart, J.S. The co-ordination between respiration and wing beats in birds. Z. Vergl. Physiol. 66, 190–200 (1970). https://doi.org/10.1007/BF00297778
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DOI: https://doi.org/10.1007/BF00297778