Flight control during ‘free yaw turns’ inDrosophila melanogaster

Batschelet E (1981) Circular statistics in biology. In: Sibson E, Cohen JE (eds) Mathematics in biology. Academic Press, London New York Bausenwein B, Wolf R, Heisenberg M (1986) Genetic dissection of optomotor behavior inDrosophila melanogaster. Studies on wildtype and the mutantoptomotor-blind H31. J Neurogen 3:87–109 Blondeau J (1981) Aerodynamic capabilities of flies, as revealed by a new technique. J Exp Biol 92:155–163 BülthofF H, Poggio T, Wehrhahn C (1980) 3-D-analysis of the flight trajectories of flies (Drosophila melanogaster). Z Naturforsch 35c: 811–815 Collett TS, Land MF (1975) Visual control of flight behavior in the hoverfly,Syritta pipiens L., J Comp Physiol 99:1–66 David CT (1978) The relationship between body angle and flight speed in free-flyingDrosophila. Physiol Entomol 3:191–195 Egelhaaf M (1985) On the neuronal basis of figure-ground discrimination by relative motion in the visual system of the fly. III. Possible input circuitries and behavioral significance of the FD-cells. Biol Cybern 52:267–280 Geiger G, Nässel DR (1982) Visual processing of moving single objects and wide-field patterns in flies: behavioral analysis after laser-surgical removal of interneurones. Biol Cybern 44:141–149 Götz KG (1968) Flight control inDrosophila by visual perception of motion. Kybernetik 4:199–208 Götz KG (1983) Genetischer Abbau der visuellen Orientierung beiDrosophila. Verh Dtsch Zool Ges 1983:83–99 Hausen K, Wehrhahn C (1983) Microsurgical lesion of horizontal cells changes optomotor yaw responses in the blowflyCalliphora erythrocephala. Proc R Soc Lond B 219:211–216 Heisenberg M, Wolf R (1979) On the fine structure of yaw torque in visual flight orientation ofDrosophila melanogaster. J Comp Physiol 130:113–130 Heisenberg M, Wolf R (1984) Vision inDrosophila. Genetics of microbehavior. In: Studies of brain function, vol XII. Springer, Berlin Heidelberg New York Heisenberg M, Wolf R (1988) Reafferent control of optomotor yaw torque inDrosophila melanogaster. J Comp Physiol A 163:373–388 Land MF (1973) Head movements of flies during visually guided flight. Nature 43:299–300 Nachtigall W, Roth W (1983) Correlations between stationary measurable parameters of wing movement and aerodynamic force production in the blowfly (Calliphora vicina R.-D.). J Comp Physiol 150:251–260 Poggio T, Reichardt W (1976) Visual control of orientation behavior in the fly. II. Towards the underlying neural interactions. Q Rev Biophys 9:377–438 Reichardt W, Poggio T (1976) Visual control of orientation behavior in the fly. I. A quantitative analysis. Q Rev Biophys 9:311–375 Vogel S (1966) Flight inDrosophila. Flight performance of tethered flies. J Exp Biol 44:567–578 Wagner H (1986) Flight performance and visual control of flight of the free-flying housefly (Musca domestica L.). III. Interactions between angular movement induced by wide- and smallfield stimuli. Phil Trans R Soc Lond B 312:581–595 Wehrhahn C, Poggio T, Bülthoff H (1982) Tracking and chasing in houseflies (Musca). An analysis of 3-D flight trajectories. Biol Cybern 45:123–130 Wolf R, Heisenberg M (1986) Visual orientation in motionblind flies is an operant behavior. Nature 323:154–156 Zeil J (1983) Sexual dimorphism in the visual system of flies. The free flight behavior of male Bibionidae (Diptera). J Comp Physiol 150:395–412