Summary
The visually guided orientation behaviour of stationarily flying Musca domestica (females) has been investigated. Under such conditions, the flight activity does not influence the visual stimulus (“openloop”) and the tendency of a fly to orientate towards some visual object can be recorded as a yaw torque reaction (orientation response).—Orientation responses to flickering stripes reveal two different mechanisms of visual integration, namely a local flicker detecting mechanism and a specific kind of dynamic lateral interactions (Figs. 3, 5). The lateral interactions are mediated by a field of interconnections of receptors which are separated by at least 4 to 6 vertical rows of ommatidia (Figs. 3, 8). While stimulation of not more than 3 vertical rows of ommatidia activates only flicker detection, stimuli of more than 6° width may in addition exert an excitatory or an inhibitory influence as a consequence of the associated nonlinear interactions (Figs. 5, 7). The relevance of these lateral interactions for tracking and chasing behaviour is discussed. It is suggested that the fly's visual pattern discrimination rests essentially on these lateral interactions.
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References
Anderson,A.: The ability of honey bees to generalise visual stimuli. In: Wehner, R. (Ed.): Information Processing in the Visual System of Arthropods, pp. 207–212. Berlin-Heidelberg-New York: Springer 1972
Arnett,D.W.: Spatial and temporal integration properties of units in first optic ganglion of Dipterans. J. Neurophysiol. 35, 429–444 (1972)
Bishop,L.G., Keehn,D.G.: Neural correlates of the optomotor response in the fly. Kybernetik 3, 288–295 (1967)
Buchner,E.: Elementary movement detectors in an insect visual system. Biol. Cybernetics, in press (1976)
Collett,T.S.: Visual neurones in the anterior optic tract of the privet hawk moth. J. comp. Physiol. 78, 396–433 (1972)
Collett,T.S., Blest,A.D.: Binocular, directionally selective neurones, possibly involved in the optomotor response of insects. Nature (Lond.) 212, 1330–1333 (1966)
Cruse,H.: Versuch einer quantitativen Beschreibung des Formensehens der Honigbiene. Kybernetik 11, 185–200 (1972)
Eskert,H.: Optomotorische Untersuchung am visuellen System der Stubenfliegen Musca domestica. Kybernetik 14 1–23 (1973)
Fermi,G., Reichardt,W.: Optomotorische Reaktionen der Fliege Musca domestica. Kybernetik 2, 15–28 (1963)
Franceschini,N.: Sampling of the visual environment by the compound eye of the fly. In: Snyder,A.W., Menzel,R. (Eds.): Photoreceptor Optics, pp. 98–125. Berlin-Heidelberg-New York: Springer 1975
Geiger,G.: Optomotor responses of the fly Musca dom. to transient stimuli of edges and stripes. Kybernetik 16, 37–43 (1974)
Geiger,G.: Poggio,T.: The orientation of flies towards visual patterns. Biol. Cybernetics 19, 39–54 (1975)
Götz,K.G.: Optomotorische Untersuchung des visuellen Systems einiger Augenmutanten der Fruchtfliege Drosophila. Kybernetik 2, 77–92 (1964)
Götz,K.G.: Flight control in Drosophila by visual perception of motion. Kybernetik 4, 199–208 (1968)
Götz,K.G.: The optomotor equilibrium of the Drosophila navigation system. J. comp. Physiol. 99, 187–210 (1975)
Hartline,H.K., Ratliff,F. Spatial summation of inhibitory influences in the eye of Limulus, and the mutual interaction of receptor units. J. gen. Physiol. 41, 1049–1066 (1958)
Hassenstein,B.: Ommatidienraster und afferente Bewegungsintegration (Versuche am Rüsselkäfer Chlorophanus viridis). Z. vergl. Physiol. 33, 301–326 (1951)
Hassenstein,B., Reichardt,W.: Systemtheoretische Analyse der Zeitreihenfolgen-und Vorzeichenauswertung bei der Bewegungsperzeption des Rüsselkäfers Chlorophanus. Z. Naturforsch. 11b, 513–524 (1956)
Hausen, K.: Funktion, Struktur und Konnektivität einiger Neurone der Lobular Plate von Calliphora eryth. Diss. Eberhard-Karls-Universität Tübingen (1976)
Heimburger, L., Poggio, T., Reichardt, W.: A special class of non-linear interactions in the visual system of the fly. Biol. Cybernetics 21, 103–105 (1976)
Hertz, M.: Zur Physiologie des Formen- und Bewegungssehens. Z. vergl. Physiol. 20, 430–449; 21, 579–603; 21, 604–615 (1934)
Homann, H.: Beitrage zur Physiologie der Spinnenaugen. Z. vergl. Physiol. 7, 201–268 (1928)
Horn, E., Wehner, R.: The mechanism of visual pattern fixation in the walking fly, Drosophila mel. J. comp. Physiol. 101, 39–56 (1975)
Jander, R., Schweder, M.: Über das Formunterscheidungsvermögen der Schmeißfliege Calliphora eryth. Z. vergl. Physiol. 72, 186–196 (1971)
Kien, J.: Neuronal mechanisms subserving directional selectivity in the locust optomotor system. J. comp. Physiol. 102, 337–355 (1975)
Kirmse, W., Lässig, P.: Strukturanalogie zwischen dem System der horizontalen Blickbewegungen der Augen beim Menschen und dem System der Blickbewegungen des Kopfes bei Insekten mit Fixationsreaktionen. Biol. Zbl. 90, 175–193 (1971)
Kirschfeld, K.: The visual system of Musca: Studies of optics, structure and function. In: Wehner, R. (Ed.): Information Processing in the Visual System of Arthropods, pp 61–74. Berlin-Heidelberg-New York: Springer (1972)
Kirschfeld, K., Franceschini, N.: Ein Mechanismus zur Steuerung des Lichtflusses in den Rhabdomeren des Komplexauges von Musca. Kybernetik 6, 13–22 (1969)
Kirschfeld, K., Lutz, B.: Lateral inhibition in the compound eye of the fly Musca. Z. Naturforsch. 29c, 95–97 (1974)
Knight, B. W., Toyoda, J., Dodge, F.A. A quantitative description of the dynamics of excitation and inhibition in the eye of Limulus. J. gen Physiol 56, 421–437 (1970)
Kunze, P.: Untersuchung des Bewegungssehens fixiert fliegender Bienen. Z. vergl. Physiol. 44, 656–684 (1961)
Land, M.F.: Orientation by jumping spiders in the absence of visual feedback. J. exp. Biol. 54, 119–139 (1971)
Land, M.F.: Head movement of flies during visually guided flight. Nature (Lond.). New Biol. 243, 299–300 (1973)
Land, M. F., Collett, T.S.: Chasing behaviour of houseflies (Fannia canicularis). J. comp. Physiol. 89, 331–357 (1974)
Marmarelis, P.Z., McCann, G.D.: Development and application of white-noise modeling techniques for studies of insect visual nervous system. Kybernetik 12, 74–89 (1973)
McCann, G.D., Dill, J.C.: Fundamental properties of intensity, form and motion perception in the visual nervous system of Calliphora and Musca. J. gen. Physiol. 53, 385–413 (1969)
McCann, G.D., MacGinitie, G.F.: Optomotor response studies of insect vision. Proc. Roy. Soc. B. 163, 369–401 (1965)
Meyer, H.: Visuelle Schlüsselreize für die Auslösung der Beutefang-handlung beim Bachläufer Velia caprai. Z. vergl. Physiol. 72, 260–297, 298–342 (1971)
O'Shea, M., Williams, J.L.D.: The anatomy and output connection of a locust visual interneurone. J. comp. Physiol. 91, 257–266 (1974)
Palka, J.: Moving movement detectors. Amer. Zool. 12, 497–505 (1972)
Pick, B.: Visual flicker induces orientation behaviour in the fly Musca. Z. Naturforsch. 29c, 310–312 (1974a)
Pick, B.: Das stationäre Orientierungsverhalten der Fliege Musca. Diss. Eberh.-Karls-Univ. Tübingen (1974b)
Pick, B., Buchner, E.: Movement-specific wide-angle interactions in the visual system of the fly. To be submitted to Biol. Cybernetics (1976)
Poggio, T.: Processing of visual information in insects: A theoretical characterization Biocybernetics VI. (Eds.): Drischel, H., Dettmar, P., pp. 235–243. Leipzig 1973: Fischer 1975
Poggio, T.: Processing of visual information in flies. In: Proc. I Symp. It. Soc. Biophysics. Camogli 1973. Parma: Tipo Lito 1974
Poggio, T., Reichardt, W.: A theory of the pattern induced flight orientation of the fly Musca domestica. Kybernetik 12, 185–203 (1973a)
Poggio, T., Reichardt, W.: Considerations on models of movement detection. Kybernetik 13, 223–227 (1973b)
Poggio, T., Reichardt, W.: Visual control of orientation behaviour in the fly (II). Quart. Rev. Biophys. in press (1976)
Reichardt, W.: Musterinduzierte Flugorientierung. Verhaltensversuche an der Fliege Musca domestica. Naturwissenschaften 60, 122–138 (1973)
Reichardt, W., Poggio, T.: A theory of the pattern induced flight orientation of the fly Musca domestica II. Biol. Cybernetics 18, 69–80 (1975)
Reichardt, W., Poggio, T.: Visual control of orientation behaviour in the fly (I) Quart. Rev. Biophys. in press (1976)
Reichardt, W., Wenking, H.: Optical detection and fixation of objects by fixed flying flies. Naturwissenschaften 56, 424–425 (1969)
Rowell, C.H.F.: The Orthopteran descending movement detector (DMD) neurons. Z. vergl. Physiol. 73, 167–194 (1971)
Thorson, J.: Small-signal analysis of a visual reflex in the locust, I–II. Kybernetik 3, 41–66 (1966)
Varjú, D.: Stationary and dynamic responses during visual edge fixation by walking insects. Nature (Lond.) New Biol. 255, 330–332 (1975)
Virsik, R., Reichardt, W.: Tracking of moving objects by the fly Musca domestica. Naturwissenschaften 61, 132–133 (1974)
Virsik, R., Reichardt, W.: Detection and tracking of moving objects by the fly Musca dom. Biol. Cybernetics in press (1976)
Wehner, R.: Spontaneous Pattern Preferences of Drosophila. J. Insect Physiol. 18, 1531–1543 (1972)
Wehrhahn, C.: Evidence for the role of retinal receptors R 7/8 in the oreintation behaviour of the fly. Biol. Cybernetics 21, 213–220 (1976)
Wehrhahn, C., Reichardt, W.: Visual orientation of the fly Musca dom. towards a horizontal stripe. Naturwissenschaften 60, 203–204 (1973)
Wehrhahn, C., Reichardt, W.: Visually induced height orientation of the fly Musca dom. Biol. Cybernetics 20, 37–50 (1975)
Wolf, E.: Das Verhalten der Bienen gegenüber flimmernden Feldern und bewegter Objekte. Z. vergl. Physiol. 20 151–161 (1934)
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Pick, B. Visual pattern discrimination as an element of the fly's orientation behaviour. Biol. Cybernetics 23, 171–180 (1976). https://doi.org/10.1007/BF00344749
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DOI: https://doi.org/10.1007/BF00344749