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How Insects Fly*

Published online by Cambridge University Press:  28 July 2016

R. E. Snodgrass*
Affiliation:
Bureau of Entomology, United States Department of Agriculture

Extract

A particular interest attaches to the study of the wings of insects, because, in some respects, they act more after the manner of human inventions for aerial locomotion than do the wings of any other flying creature. Though man has never been successful in equipping himself with wings, and has largely given up the hope of acquiring them, he has succeeded in making machines that will fly; and, whether his craft is lighter than air or heavier than air, its driving mechanism is a set of rotating blades, the nearest counterparts of which in the animal world are the rapidly-whirring wings of certain insects.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 1933

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Footnotes

*

Abridged. Reprinted by courtesy of the Smithsonian Institution

References

Text References and a List of the More Important Papers on the Mechanism of Insect Flight

Amans, P. C. (1883, 1884). Essai sur le vol des insectes. Rev. Sci. Nat., Sér. 3, 2, pp. 469490 3, pp. 121-139, pls. 3-4.Google Scholar
Amans, P. C. (1885). Comparisons des organes du vol dans la serie animale. Ann. Sci. Nat., Sér. 6, Zool., 19, pp. 9222, pls. 1-8.Google Scholar
Axenfeld, D. (1911). Locomozione aerea degli insetti. Boll. R. Acad. Medica de Roma, 37, pp. 123136, 7 figs.Google Scholar
Bellesme, J. de (1879). Sur une function de direction dans le vol des insectes. C. R. Acad. Sci., Paris, 89, pp. 980983 Google Scholar
Bull, L. (1904). La chronophotographie des mouvements rapides. Bull. Soc. Philomath., Paris, 9th sér., 6, pp. 192199, 9 figs.Google Scholar
Bull, L. (1904a). Mecanisme du mouvemenf de l'aile des insects. C. R. Acad. Sci., Paris, 138, pp. 590592 Google Scholar
Bull, L. (1909). Recherches sur le vol de l'insecte. C. R. Acad. Sci., Paris, 149, pp. 942944 Google Scholar
Bull, L. (1910). Sur les inclinaisons de l'aile de l'insecte pendant le vol. C. R. Acad. Sci., Paris, ISO, pp. 129131 Google Scholar
Comstock, J. H. (1918). The wings of insects. 430 pp., 427 figs. Ithaca, N.Y. Google Scholar
Crampton, G. C. (1916). The phylogenetic origin and the nature of the wings of insects according to the paranotal theory. Journ. New York Ent. Soc., 24, pp. 139, pls. 1, 2.Google Scholar
Demoll, R. (1918). Der Flug der Insekten und der Vögel. 67 pp., 18 figs., 5 pis. Jena.Google Scholar
Haupt, H. (1929). Die Mechanik des Zikadenfliigels und ihre Bedeutung für den Flug. Zeitschr. -wiss. Insektenbiologie, 24, pp. 7378, 5 figs.Google Scholar
Hoff, W. (1919). Der Flug der Insekten und der Vogel. Naturwissenschaften, 7, pp. 159162 Google Scholar
Karny, H. H. (1925). Einiges iiber die Gryllacrisarten des Typus IV. Zeitschr. wiss. Zool., 125, pp. 3554, 9 figs.Google Scholar
Landois, H. (1867). Die Ton- und Stimmapparate der Insekten in anatomischphysiologischer und akustischer Beziehung. Zeitschr. wiss. Zool., 17, pp. 105184, pls. 10, 11.Google Scholar
Lendenfeld, R. von (1881). Der Flug der Libellen. Sits Ber. Akad. Wiss., Wien, Math.- Natur., 83, Abth. I, pp. 289376, pls. 1-7.Google Scholar
Lendenfeld, R. von (1903). Beitrag zum Studium des Fluges der Insekten mit Hiilfe der Momentphotographie. Biol. Centrlbl., 23, pp. 227232, 1 pl.Google Scholar
Marey, E. J. (1869). Memoire sur le vol des insectes et des oiseaux. Ann. Sci. Nat., Ser. 5, Zool., 12, pp. 49150, 42 figs.Google Scholar
Marey, E. J. (1869a). Recherches sur le mechanisme du vol des insectes. Journ. Anat. Physiol., 6, pp. 1936, 337-348.Google Scholar
Marey, E. J. (1872). Second memoire sur le vol des insectes et des oiseaux. Ann. Sci. Nat., Paris, Ser. 5, Zool., 15, art. 13, 62 pp., 23 figs.Google Scholar
Marey, E. J. (1874). Animal mechanism: a treatise on terrestrial and aerial locomotion. 283 pp., 117 figs. Internat. Sci. Series, New York.Google Scholar
Marey, E. J.(1891). Le vol des insectes etudte par la photochronographie. C. R. Acad. Sci., Paris, 113, pp. 1518, 1 fig.Google Scholar
Martynov, A. B. (1925). Über zwei Grundtypen der Fliigel bei den Insekten und ihre Evolution. Zeitschr. morph. Oekol., Tiere, 4, pp. 465501, 24 figs.Google Scholar
Pettigrew, J. B. (1891). Animal locomotion, or walking, swimming, and flying. 264 pp., 130 figs., London.Google Scholar
Pieron, H. (1927). De la loi qui relie la surface des ailes au poids des individus dans une même espece animale, et de quelques problemes concernant le vol des insectes. C. R. Acad. Set., Paris, 184, pp. 239241 Google Scholar
Portier, P., et Rorthays, de (1926). Recherches sur la charge supported par les ailes des Lepidopteres de diverses families. C. R. Acad. Sci., Paris, 183, pp. 11261128 Google Scholar
Poujade, G. A. (1884). Note sur les attitudes des insectes pendant le vol. Ann. Soc. Ent. France, Ser. 6, 4, pp. 197200, pl. 8.Google Scholar
Prochnow, O. (1921-1924). Mechanik des Insektenfluges. In Schröder's Handbuch der Entomologie, Chapter 9, pp, 534569, 28 figs.Google Scholar
Ritter, W. (1911). The flying apparatus of the blow-fly. Smithsonian Miscellaneous Collections, 56, No. 12, 76 pp., 19 pls.Google Scholar
Snodgrass, R. E. (1929). The thoracic mechanism of a grasshopper, and its antecedents. Smithsonian Miscellaneous Collections, 82, No. 2, 111 pp., 54 figs.Google Scholar
Stellwaag, F. (1910). Bau und Mechanik des Flug-Apparates der Biene. Zeitschr. wiss. Zool, 95, pp. 518550, pls. 19, 20.Google Scholar
Stellwaag, F. (1914). Der Flugapparat der Lamellicornier. Zeitschr. wiss. Zool., 108, pp. 359429 pls. 11-14.Google Scholar
Stellwaag, F. (1916). Wie steuern die Insekten wahrend des Fluges ? Biol. Zentralbl., 36, pp. 3044, 9 figs.Google Scholar
Tillyard, H. J. (1919). The panorpid complex. Pt. 3, the wing-venation. Proc. Linn. Soc. N.S.W., 44, pp. 533718, pls. 31-35.Google Scholar
Voss, F. (1913, 1914). Vergleichende Untersuchungen iiber die Flugwerkzeuge der Insekten. Verh. Deut. Zool. Gesell., 23, pp. 118142, 4 figs.; 24, pp. 59-90, pls. 1, 2.Google Scholar