Summary
Pursuit responses that are probably involved in chasing behavior can be evoked and quantitatively measured in male houseflies under conditions of tethered flight (Figs. 2, 3, 5). Pursuit responses of females are significantly different from those of males (Table 1).
Characteristics of the pursuit response are compared with those of the optomotor response to show that they are mediated by different neural subsystems that are in parallel. A slow system mediates the optomotor response, while a much faster system mediates the pursuit response (Table 1).
The interaction between the pursuit response and the optomotor response is one of switching. The optomotor stimulus, when presented alone, evokes the optomotor response. When the pursuit stimulus is superposed, the fly switches from the optomotor system to the pursuit system, and ignores the optomotor stimulus. When the pursuit stimulus is removed, the animal switches back to the optomotor system (Fig. 8).
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References
Boettiger, E.G., Furshpan, E.: Observations on the flight motor of Diptera. Fed. Proc.10, 17 (1951)
Chadwick, L.E.: The motion of the wings. In: Insect physiology (ed. K.D. Roeder). New York: Wiley 1953
Collett, T.S., Land, M.F.: Visual control of flight behavior in the hoverfly,Syritta pipiens L. J. comp. Physiol.99, 1–66 (1975)
Geiger, G.: Optomotor responses of the flyMusca domestica to transient stimuli of edges and stripes. Kybernetik16, 37–43 (1974)
Götz, K.G.: Flight control inDrosophila by visual perception of motion. Kybernetik4, 199–208 (1968)
Heide, G.: Die Funktion der nicht-fibrillären Flugmuskeln vonCalliphora. Zool. Jb., Physiol.76, 99–137 (1971)
Heide, G.: Properties of a motor output system involved in the optomotor response in flies. Biol. Cybernetics20, 99–112 (1975)
Land, M.F., Collett, T.S.: Chasing behavior of houseflies (Fannia canicularis). J. comp. Physiol.89, 331–357 (1974)
Magnan, A.: Le vol des insectes. Paris: Hermann 1934
McCann, G.D.: Nonlinear identification theory models for successive stages of visual nervous systems of flies. J. Neurophysiol.37, 869–895 (1974)
McCann, G.D., MacGinitie, G.F.: Optomotor response studies of insect vision. Proc. roy. Soc. B163, 369–401 (1965)
Mittelstaedt, H.: Basic control patterns of orientational homeostasis. Symp. Soc. exp. Biol.18, 365–385 (1964)
Nachtigall, W., Wilson, D.M.: Neuro-muscular control of Dipteran flight. J. exp. Biol.47, 77–97 (1967)
Poggio, T., Reichardt, W.: A theory of pattern induced flight orientation of the flyMusca domestica. Kybernetik12, 185–203 (1973)
Pringle, J.W.S.: The excitation and contraction of the flight muscles of insects. J. Physiol. (Lond.)108, 226–232 (1949)
Reichardt, W.: Movement perception in insects. In: Processing of optical data by organisms and by machines (ed. W. Reichardt). New York: Academic Press 1969
Reichardt, W.: Musterinduzierte Flugorientierung. Verhaltens-Versuche an der FliegeMusca domestica. Naturwissenschaften60, 122–138 (1973)
Virsik, R., Reichardt, W.: Tracking of moving objects by the flyMusca domestica. Naturwissenschaften61, 132–133 (1974)
Wilson, D.M., Hoy, R.R.: Optomotor reaction, locomotory bias and reactive inhibition in the milkweed bugOncopeltus and the beetleZophobas. Z. vergl. Physiol.58, 136–152 (1968)
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We wish to thank Dr. M.F. Land for his valuable suggestion for measuring the optomotor response. This work was supported by NEI grants EY 01140 and EY 00785.
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Srinivasan, M.V., Bernard, G.D. The pursuit response of the housefly and its interaction with the optomotor response. J. Comp. Physiol. 115, 101–117 (1977). https://doi.org/10.1007/BF00667788
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DOI: https://doi.org/10.1007/BF00667788