Abstract
One of the major topics of neuroethological studies in insects is the analysis of the motor pattern underlying flight. This has been carried out most successfully with the flight of locusts, a great deal of the progress being the result of the excellent work of The late D.M. Wilson and his co-workers (summary, see Wilson 1968; Hoyle 1970). It is now quite well established that the flight pattern is centrally programmed and that peripheral influences can change the flight motor programme only slightly. It is assumed that the flight pattern is based ultimately on the activity of the central rhythm generator, the so-called “flight oscillator”.
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References
Bentley, D.R.: Postembryonic development of insect motor systems. In “ Developmental neurobiology of arthropods” (Ed., D. Young), pp. 147–177. London: Cambridge University Press (1973).
Bentley, D.R., Hoy, R.R.: Postembryonic development of adult motor patterns in crickets: a neural analysis. Science, N.Y. 170, 1409–1411 (1970).
Bernays, E.A.: The muscles of newly hatched Schistocevca gvegavia and their possible functions in hatching, digging and ecdysial movements (Insecta: Acrididae). J. Zool. (London) 166, 141–158 (1972).
Campbell, J.I.: The anatomy of the nervous system of the mesothorax of Locusta migratoria migratorioides R.& F. Proc. Zool. Soc., Lond. 137, 403–432 (1961).
Chadwick, L.E.: The motion of the wings. In “Insect Physiology” (Ed., K.D. Roeder), pp. 577–614. New York: John Wiley S Sons (1953).
Chandler, J.P.: Quantum Chemistry Exchange Program. Bloomington, Indiana (1965).
Farnworth, E.G.: Effects of ambient temperature, humidity, and age on wing-beat frequency of Peviplaneta species. J. Insect Physiol. 18, 827–839 (1972).
Fraenkel, G.: Untersuchungen über die Koordination von Reflexen und automatisch-nervösen Rhythmen bei Insekten. Z. vergl. Physiol. 16, 371–393 (1932).
Gettrup, E.: Thoracic proprioceptors in the flight system of locusts. Nature, Lond. 193, 498–499 (1962).
Hoyle, G.: Cellular mechanisms underlying behavior-Neuroethology. In “Advances in Insect Physiology” (Eds., J.W.L. Beament, J.E. Treherne, and V.B. Wigglesworth), 7, 349–444. London / New York: Academic Press (1970).
Kutsch, W.: Neuromuskuläre Aktivität bei verschiedenen Verhaltensweisen von drei Grillenarten. Z. vergl. Physiol. 63, 335–378 (1969).
Kutsch, W.: Nervöse Kontrolle der Aktivität eines thorakalen Muskels der Heuschrecke Schistocevca gvegavia Forskâl. Zool. Anz. (Suppl.) 33, 489–493 (1970).
Kutsch, W.: The development of the flight pattern in the desert locust, Schistocevca gvegavia, Z. vergl. Physiol. 74, 156–168 (1971).
Kutsch, W.: The influence of age and culture-temperature on the wing-beat frequency of the migratory locust, Locusta migvatovia, J. Insect Physiol. 19, 763–772 (1973).
Kutsch, W., Usherwood, P.N.R.: Studies of the innervation and electrical activity of flight muscles in the locust, Sohistocevca gvegavia. J. exp. Biol. 52, 299–312 (1970).
Levenbrook, L., Williams, C.M.: Mitochondria in the flight muscles of insects. III. Mitochondrial cytochrome cin relation to the ageing and wing-beat frequency of flies. J. gen. Physiol. 39, 497–512 (1956).
Neville, A.C.: Motor unit distribution of the dorsal longitudinal flight muscles in locusts. J. exp. Biol. 40, 123–136 (1963).
Novak, V.J.A.: “Insect Hormones”, 3rd Ed. London: Butler and Tanner (1966).
Page, C.H.: Unit responses in the metathoracic ganglion of the flying locust. Comp. Biochem. Physiol. 37, 565–571 (1970).
Pitman, R.M., Tweedle, C.D., Cohen, M.J.: Branching of central neurons: intracellular cobalt injection for light and electron microscope. Science, N.Y. 176, 412–414 (1972).
Sbrenna, G.: Postembryonic growth of the ventral nerve cord in Schisto Ceroa gregaria Forsk. (Orthoptera: Acrididae). Boll. Zool. 38, 49–74 (1971).
Snodgrass, R.E.: The thoracic mechanism of a grasshopper, and its antecedents. Smithson. misc. Colins 82, 1–111 (1929).
Svidersky, V.L.: Central mechanisms controlling the activity of locust flight muscles. J. Insect Physiol. 13, 899–911 (1967).
Svidersky, V.L.: Receptors of the forehead of the locust, Loousta migratoria in ontogenesis. J. Evol. Biochem. Physiol. 5, 482–490 (1969). [In Russian]
Waldron, I.: Mechanisms for the production of the motor output pattern in flying locusts. J. exp. Biol. 47, 201–212 (1967).
Weber, Th.: Stabilisierung des Flugrhythmus durch “Erfahrung” bei der Feldgrille. Naturwissenschaften 59, 366 (1972).
Wiesend, P.: Die postembryonale Entwicklung der Thoraxmuskulatur bei einigen Feldheuschreckenjnit besonderer Berücksichtigung der Flugmuskeln. Z. Morph. Ökol. Tiere 4647, 529–570 (1957).
Wigglesworth, V.B.: The origin of sensory neurones in an insect, Rhodnius prolixus (Hemiptera). Q. J1 microsc. Sci. 94, 93–112 (1953).
Wilson, D.M.: The central nervous control of flight in a locust. J. exp. Biol. 38, 471–490 (1961).
Wilson, D.M.: Bifunctional muscles in the thorax of grasshoppers. J. exp. Biol. 39, 669–677 (1962).
Wilson, D.M.: Relative refractoriness and patterned discharge of locust flight motor neurons. J. exp. Biol. 41, 191–205 (1964).
Wilson, D.M.: The nervous control of insect flight and related behavior. In “Advances in Insect Physiology” (Eds., J.W.L. Beament, J.E. Treherne, and V.B. Wigglesworth), 5, 289–338. London / New York: Academic Press (1968).
Wilson, D.M., Gettrup, E.: A stretch reflex controlling wing-beat frequency in grasshoppers. J. exp. Biol. 40, 171–185 (1963).
Wilson, D.M., Weis-Fogh, T.: Patterned activity of coordinated motor units, studied in flying locusts. J. exp. Biol. 39, 643–667 (1962).
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© 1974 Springer-Verlag Berlin · Heidelberg
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Kutsch, W. (1974). The Development of the Flight Pattern in Locusts. In: Barton Browne, L. (eds) Experimental Analysis of Insect Behaviour. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-86666-1_11
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DOI: https://doi.org/10.1007/978-3-642-86666-1_11
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