| Institut für Biologie II | |
Lippert J, Wagner H (2001) A threshold explains modulation of neural responses to opposite-contrast stereograms. Neuroreport 12(15): 3205-3208
Nieder A, Wagner H (2001) Hierarchical processing of horizontal disparity information in the visual forebrain of behaving owls. J Neurosci 21(12): 4514-4522
Poganiatz I, Wagner H (2001) Sound-localization experiments with barn owls in virtual space: influence of broadband interaural level different on head-turning behavior. J Comp Physiol [A] 187(3): 225-233
Kempter R, Leibold C, Wagner H, van Hemmen JL (2001) Formation of temporal-feature maps by axonal propagation of synaptic learning. Proc Natl Acad Sci U S A 98(7): 4166-4171
Johnen A, Wagner H, Gaese BH (2001) Spatial attention modulates sound localization in barn owls. J Neurophysiol 85(2): 1009-1012
Lippert J, Fleet DJ, Wagner H (2000) Disparity tuning as simulated by a neural net. Biol Cybern 83(1): 61-72
Nieder A, Wagner H (2000) Horizontal-disparity tuning of neurons in the visual forebrain of the behaving barn owl. J Neurophysiol 83(5): 2967-2979
Luksch H, Gauger B, Wagner H (2000) A candidate pathway for a visual instructional signal to the barn owl's auditory system. J Neurosci 20(8): RC70
Kubke MF, Gauger B, Basu L, Wagner H, Carr CE (1999) Development of calretinin immunoreactivity in the brainstem auditory nuclei of the barn owl (Tyto alba). J Comp Neurol 415(2): 189-203
Nieder A, Wagner H (1999) Perception and neuronal coding of subjective contours in the owl. Nat Neurosci 1999 2(7): 660-663
Preissl H, Cruse H, Luksch H, Malaka R, Neumann T, von Sengbusch G, Warzecha AK, Konig P, Oram M, Wagner H, Vollmer G, Mayer-Kress G, Egelhaaf M, Pfeifer R. (1998) Group report: the behavior of natural and artificial systems: solutions to functional demands. Z Naturforsch [C] 53(7-8): 765-769
Kempter R, Gerstner W, van Hemmen JL, Wagner H. (1998) Extracting oscillations. Neuronal coincidence detection with noisy periodic spike input. Neural Comput 10(8):1987-2017
Schmidt R, Buschlinger W, Egelhaaf M, Koch M, Kruger J, Malaka R, Pfeifer R, Vollmer G, Wagner H. (1998) Group report: influence of brain and computer design on the performance of natural and artificial organisms. Z Naturforsch [C] 53(7-8):752-764
Kautz D, Wagner H. (1998) GABAergic inhibition influences auditory motion-direction sensitivity in barn owls. J Neurophysiol 80(1):172-185
van der Willigen RF, Frost BJ, Wagner H. (1998) Stereoscopic depth perception in the owl. Neuroreport 9(6):1233-1237
Wagner H, Kautz D, Poganiatz I. (1997) Principles of acoustic motion detection in animals and man. Trends Neurosci 20(12):583-588
Gerstner W, Kempter R, van Hemmen JL, Wagner H. (1996) A neuronal learning rule for sub-millisecond temporal coding. Nature 383(6595):76-81
Fleet D, Wagner H, Heeger D: (1996) Encoding of binocular disparity: position shifts and phase shifts. Vision Res 36(12): 1839-1857
Schaeffel F und Wagner H: Emmetropization and optical development of the eye of the barn owl (Tyto alba). J comp Physiol A (in press)
Meyer SU und Wagner H: Guidance of retinal axons by membrane components derived from the barn owl's optic tectum. Zoology , im Druck
Wagner H (1995) Sound-localization experiments in owls. In Klump GM; Dooling RJ, Fay RR, und Stebbins WC (eds) Methods in comparative Psychoacoustics. Birkhäuser Verlag, Basel, pp 183-194
Wagner H (1994) Tierphysiologie, Tierversuche und Tierschutz. Naturwissenschaftliche Rundschau 47: 260-266
Wagner H und Frost B (1994) Binocular responses of neurons in the barn owl's visual Wulst. J comp Physiol A174: 661-670
Wagner H, Trinath T und Kautz D (1994) Influence of stimulus level on acoustic motion-direction sensitivity in barn owl midbrain neurons. J Neurophysiol 71: 1907-1916
Wagner H und Frost B (1993) Disparity-sensitive cells in the owl have a characteristic disparity. Nature 364: 796-798
Wagner H (1993) Lesion-induced sound-localization deficits in the barn owl. J Neurosci 13: 371-386
Collett T, Nalbach HO und Wagner H (1993) Visual stabilization in arthropods. In Wallmann J und Miles F (eds) Reviews of oculomotor research, Volume 5: Visual motion and its role in the stabilization of gaze. Elsevier, Amsterdam, pp 239-263
Wagner H und Takahashi T (1992) The influence of temporal cues on acoustic motion-direction sensitivity of auditory neurons in the owl. J Neurophysiol 68: 2063-2076
Schaeffel F, und Wagner H (1992) Barn owls have symmetrical accommodation in both eyes, but independent pupillary responses to light. Vis Res 32:1149-1155
Wagner H (1992) On the ability of neurons in the barn owl's inferior colliculus to sense brief appearances of interaural time difference. J comp Physiol A170: 3-11
Wagner H und Schaeffel F (1991) Barn owls (Tyto alba) use accommodation as a distance cue. J comp Physiol A169: 515-521
Wagner H (1991) A temporal window for lateralization of interaural time difference in the barn owl. J comp Physiol A169: 281-289
Wagner H (1990) Receptive fields of neurons in the owl's auditory brainstem change dynamically. Europ J Neurosci 2: 949-959.
Wagner H und Takahashi T (1990) Neurons in the midbrain of the barn owl are sensitive to the direction of apparent acoustic motion. Naturwissenschaften 77: 439-442.
Takahashi TT, Wagner H, und Konishi M (1989) Role of commissural projections in the representation of bilateral auditory space in the barn owl's inferior colliculus. J Comp Neurol 281: 545-554.
Konishi M, Takahashi T, Wagner H, Sullivan WE und Carr CE (1988) Neurophysiological and anatomical substrates of sound localization in the owl. In: Auditory Function, Edelman GM, Gall WE and Cowan WM(eds.). New York: Wiley and sons, pp 721-745.
Wagner H, Takahashi T und Konishi M (1987) Representation of interaural time difference in the central nucleus of the barn owl's inferior colliculus. J Neurosci 7: 3105-3116.
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 B312: 581-595.
Wagner H (1986) Flight performance and visual control of flight of the free-flying housefly (Musca comestica L.). II. Pursuit of Targets. Phil Trans R Soc Lond B312: 553-579.
Wagner H (1986) Flight performance and visual control of flight of the free-flying housefly (Musca domestica L.). I. Organization of the flight motor. Phil Trans R Soc Lond B312: 527-551.
Wagner H (1985) Aspects of the free flight behaviour of houseflies (Musca domestica). In: Insect Locomotion, Eds. Gewecke M, Wendler G. Paul Parey Verlag, Berlin, Hamburg, pp 223-232.
Wagner H (1984) Flight performance and visual control of flight of the free flying housefly (Musca domestica). (a) Organization of the flight motor. (b) Pursuit of targets. (c) Interactions of wide field and target induced angular movements. Dissertation, Eberhard-Karls-Universität Tübingen.
Greiner H und Wagner H (1984) Erste Erfahrungen mit dem Wiesenbrüterprogramm. Vogelschutz 3: 9-12.
Wagner H (1982) Flow-field variables trigger landing in flies. Nature 297: 147-148.
Wagner H (1980) Messung und Beschreibung von Landetrajektorien der Stubenfliege (Musca domestica L.). Diplomarbeit Eberhard-Karls-Universität Tübingen.
Kemptner R, Gerstner W, van Hemmen JL, Wagner H (1995) Temporal coding in the sub-millisecond range: model of barn owl auditory pathway. Winter conference of Neural Information Processing Systems
Kautz DW und Wagner H (1995) Sensitivity to acoustic motion stimuli in the barn owl's midbrain. In: Neural Systems and Behavior. Proceedings of the 4th International Congress of Neuroethology, Eds. Burrows M, Matheson T, Newland PL und Schuppe HJ, Thieme, Stuttgart, p. 50
Wagner H (1995) Neural mechanisms of stereoscopic depth perception. In: Neural Systems and Behavior. Proceedings of the 4th International Congress of Neuroethology, Eds. Burrows M, Matheson T, Newland PL und Schuppe HJ, Thieme, Stuttgart, p. 28
Fleet D, Heeger D und Wagner H (1995) Computatational model of binocular disparity. Invest Ophthalm and Vis Sci 36: S365
Kohler K und Wagner H (1995) Development and distribution of monaminergic cells in the retina of the barn owl. Invest Ophthalm and Vis Sci 36: S290
Wagner H und Meyer SU (1995) Map formation during embryonic development in the barn owl's optic tectum: a repulsive factor for retinal input. In: Proceedings of the 23rd Göttingen Neurobiology Conference 1995 Volume II, Eds Elsner N und Menzel R, Thieme, Stuttgart, p. 144
Kautz DW und Wagner H (1995) Acoustic motion-direction sensitivity in the barn owl: temporal fine structure of spike trains. In: Proceedings of the 23rd Göttingen Neurobiology Conference 1995 Volume I, Eds Elsner N und Menzel R, Thieme, Stuttgart, p. 149
Wagner H (1995) Pathways subserving sound-localization behavior in the barn owl. In: Proceedings of the 23rd Göttingen Neurobiology Conference 1995 Volume I, Eds Elsner N und Menzel R, Thieme, Stuttgart, p. 144
Kautz D und Wagner H (1994) Neural mechanisms of auditory motion-direction sensitivity. Soc Neurosci Abstr 20, p 320
Rose M, Wagner H und Thier, P (1994) A quantitative description of acoustically evoked pinna movements in rhesus monkey. In: Göttingen Neurobiology Report 1994, Eds Elsner N und Breer H, Thieme, Stuttgart, 295
Kautz D und Wagner, H (1994) Micro-iontophoretic studies suggest similar neuronal mechanisms for visual and acoustic motion-direction sensitivity. In: Göttingen Neurobiology Report 1994, Eds Elsner N und Breer H, Thieme, Stuttgart, 391
Wagner, H (1994) Characteristic delay: A new look at an old concept. In: Göttingen Neurobiology Report 1994, Eds Elsner N und Breer H, Thieme, Stuttgart, 390
Wagner H, Nalbach HO und Pappe I. (1993) Optokinetic responses in barn owls. Soc Neurosci Abstr 19. 345
Güntürkün O und Wagner H (1993) The avian auditory midbrain: a histo- and immunocytochemical comparison between a specialist (Tyto alba) and a generalist (Columba liva). In: Gene, Brain, Behavior. Eds. Elsner N und Heisenberg M. Thieme, Stuttgart:, 251
Wagner H und Frost B (1993) Neural representation of visual disparities and of interaural time difference in the owl. In: Gene, Brain, Behavior. Eds. Elsner N und Heisenberg M. Thieme, Stuttgart:, 89
Trinath T und Wagner H (1992) Level dependence of acoustic motion-direction sensitivity in midbrain neurons of the barn owl. In: Rhythmogenesis in neurons and networks. Eds. Elsner N und Richter DW, Thieme, Stuttgart: 238
Kautz D, Wagner H und Takahashi T (1992) A computer model for acoustic motion-direction sensitivity in the barn owl. In: Rhythmogenesis in neurons and networks. Eds. Elsner N und Richter DW, Thieme, Stuttgart: 727
Wagner H (1992) Distribution of acoustic motion-direction sensitive neurons in the barn owl's brainstem. In: Rhythmogenesis in neurons and networks. Eds. Elsner N und Richter DW, Thieme, Stuttgart: 237
Wagner H (1992) A putative acoustic motion detector. Proc Third Int Congr Neuroethology, Montreal, Quebec, Canada: 337
Wagner H (1992) Sound localization in barn owls: bridging the gap between behavior and neurophysiology. Proc Third Int Congr Neuroethology, Montreal, Quebec, Canada, 45-46
Schaeffel F und Wagner H (1991) Schleiereulen benutzen Akkomodation zur Entfernungsmessung beim Picken. Verh Deut Zool Ges 83: 358
Wagner H (1991) Sound-localization deficit induced by lesions in the owl's auditory space map. Soc Neurosci Abstr 17: 1483
Wagner H (1991): Stimulus parameters influencing motion-direction sensitivity of auditory neurons in the barn owl's midbrain. In: Synapse - transmission - modulation. Eds. Elsner N, Penzlin H. Georg Thieme Verlag, Stuttgart, New York,118
Takahashi TT und Wagner H (1990) Directional sensitivity of auditory neurons in the owl. Soc Neurosci Abstr, Vol: 875
Grün S, Aertsen A, Wagner H und Carr C (1990) Sound localization in the barn owl: A quantitative model of binaural interaction in the nucleus laminaris. Soc Neurosci Abstr 16: 871
Wagner H und Takahashi T (1990) Directional sensitivity of auditory neurons in the owl's midbrain. In: Brain - Perception Cognition. Eds. Elsner N, Roth G, Georg Thieme Verlag Stuttgart New York, 138
Grün S, Aertsen A, Wagner H und Carr C (1990) Sound localization in the barn owl: Modeling binaural interaction in the nucleus laminaris. In: Brain - Perception Cognition. Eds. Elsner N, Roth G, Georg Thieme Verlag Stuttgart New York, 137
Wagner H (1989) Dynamic changes in receptive fields of barn owl auditory-midbrain neurons. Soc Neurosci Abstr 15, Part 2,1116
Wagner H (1989) Peering in barn owls. In: Neural mechanisms of behavior. Eds. Erber J, Menzel R, Pflüger HJ und Todt D. Georg Thieme Verlag Stuttgart, New York, 238-239
Wagner H (1989) Spatio-spectro-temporal receptive fields in the auditory midbrain of the barn owl. In Dynamics and Plasticity in Neuronal systems. Eds. Elsner N, Singer W. Georg Thieme Verlag, Stuttgart New York, 285
Wagner H, Takahashi T und Konishi M (1988): Representation of auditory space in the central nucleus of the barn owl's inferior colliculus. In: Sense Organs. Interfaces between Environment and Behavior. Eds. Elsner N, Barth FG. Georg Thieme Verlag, Stuttgart New York, 181
Wagner H, und Konishi M (1988) Schallrichtungswahrnehmung im azimuthalen Ortungssystem von Schleiereulen (Tyto alba) bei kurzen Reizen. Verh Dtsch Zool Ges 81: 217
Wagner H, Takahashi T und Konishi M (1987) Flow of information in the network that computes azimuth in the barn owl. Soc Neurosci Abstr 13: Part I, 322
Wagner H (1987) Ausgefallenes Verhalten von Kormoranen Phalacrocorax carbo: Tübinger Hochhaus dient als Schlafplatz. Anz Orn Ges Bayern 26: 274
Wagner H und Konishi M (1986) The role of stimulus onset in sensitivity to interaural time differences in the barn owl. Soc Neurosci Abstr 12: Part 2,1324
Wagner H und Konishi M (1986) Minimal signal duration required for neuronal selectivity to interaural time differences in the barn owl. Abstr Int Soc Neuroeth, Tokyo, Japan., 61
Wagner H, Takahashi T und Konishi M (1986) The central nucleus of the inferior colliculus as an input stage to the map of auditory space in the barn owl. Abstr Assoc, Res Otolaryng Ed. David J. Lim. 1986, pp 44-45
Wagner H und Wehrhahn C (1985) Head-body coordination in free flying houseflies: Aerodynamic performance and visual flow. Soc Neurosc Abstracts 11: 498
Wagner H (1982) Aspekte der Kinematik und der visuellen Orientierung bei freifliegenden Stubenfliegenweibchen (Musca domestica L.). Verh Dtsch Zool Ges, 338
Wagner H (1981) Fliegen beginnen mit der Landung, wenn die "relative retinal Expansionsgeschwindigkeit" eines Landeobjektes einen kritischen Wert überschreitet. Verh Dtsch Zool Ges, 279
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