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The Sensory Basis of Bird Navigation

Published online by Cambridge University Press:  18 January 2010

G. V. T. Matthews
G. V. T. Matthews
Affiliation:
(Department of Zoology, Cambridge University)
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Extract

The problem of how birds find their way can be examined by studying natural migration movements and also by forcing birds to undertake long journeys more or less under conditions which can be decided by the experimenter. The racing pigeon is an ideal subject for these homing experiments, but they have also been conducted with many species of wild bird and Fig. i shows some of the more remarkable flights that have been achieved with these. The use for these experiments of birds breeding in colonies has many advantages as large numbers can be caught and transported together, and their return watched for in a small area. Conspicuous birds such as gulls can be made individually recognizable by a code of plumage marks or by putting coloured leg rings on them.

Type
Research Article
Information
The Journal of Navigation , Volume 4 , Issue 3 , July 1951 , pp. 260 - 275
Copyright
Copyright © The Royal Institute of Navigation 1951

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References

REFERENCES

1Valikangas, I. (1933). Finnische zugvogel aus englischer vogeleiern. Vogelzug, Vol. 4, p, 159.Google Scholar
2Griffin, D. R., and Hock, R. J. (1949). Airplane observations of homing birds. Ecology, Vol. 30, p. 176.CrossRefGoogle Scholar
3Wilkinson, D. H. (1950). Flight recorders: a technique for the study of bird navigation. J. Exp. Biol., Vol. 27, p. 192.CrossRefGoogle Scholar
4Tinbergen, L. (1941). Over de rol van de Hollandse durij bij de orientatie van trekkende vinken en Spreeuwen. Limosa, Vol. 14, No. 1.Google Scholar
5Schuz, E. (1949). Die spät auflassung ostpreussicher jungstorche. Die Vogelwarte, Vol. i, p. 60.Google Scholar
6Ruppell, W. (1944). Versuche über heimfinden ziehender nebelkrahen nach verfrachtung. Journ. f. Ornith., Vol. 92, p. 106.CrossRefGoogle Scholar
7Kluijver, H. N. (1935). Ergebnisse eines versuches über das heimfindevermogen von staren. Ardea, Vol. 24, p. 227.Google Scholar
8Wilkinson, D. H. (1948). Some physical principles of bird orientation. Proc. Linn. Soc. Lond., Vol. 160, p. 94.CrossRefGoogle Scholar
9Yeagley, H. L. (1948). A preliminary study of a physical basis of bird navigation. Journ. Appl. Physics, Vol. 18, p. 1035.CrossRefGoogle Scholar
10Ising, G. (1945). Die physikalische möglichkeit eines tierischen orientierungssinnes auf basis der erdrotation. Ark. f. Matem. Astron. och Fysik., Vol. 32, p. 1.Google Scholar
11Kramer, G. (1950). Weitere analyse der faktoren, welche die zugaktivität des gekäfigten vogels orientieren. Die Naturwiss., Vol. 37, p. 377.CrossRefGoogle Scholar