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Publikationen

Publikationen PD Dr. J. Modgans

Originalarbeiten zur mechanosensorischen Seitenlinie

Mogdans J (2019) Sensory Ecology of the Fish Lateral Line System: Morphological and Physiological Adaptations for the Perception of Hydrodynamic Stimuli. J Fish Biol DOI - 10.1111/jfb.13966

Mogdans J, Müller C, Frings M, Raap F (2017) Adaptive responses of peripheral lateral line nerve fibers to sinusoidal wave stimuli. J Com Physiol A, 203: 329-342

Herzog H, Mogdans J, Bleckmann H (2016) Smart Mechanical Dipole: a device for the measurement of sphere motion in behavioral and neurophysiological experiments. J Exp Biol 219: 2823-2827

Schmitz A, Bleckmann H, Mogdans J (2014) The lateral line receptor array of cyprinids from different habitats, Carassius auratus. J Morphol 275: 357–370

Mogdans J, Bleckmann H (2012) Coping with flow: behavior, neurophysiology and modeling of the fish lateral line system. Biol Cybern 106: 627–642

Meyer G, Klein A, Mogdans J Bleckmann H (2012) Toral lateral line units of goldfish, Carassius auratus, are sensitive to the position and vibration direction of a vibrating sphere. J Comp Physiol A 198: 639-653

Mogdans J, Nauroth I (2011) The Oscar, Astronotus ocellatus, detects and discriminates dipole stimuli with the lateral line. J Comp Physiol A 197:959–968

Nauroth I, Mogdans J (2009) Dipole detection in still and running water by two species of fish with different peripheral sensory morphologies. Naturwissenschaften 12: 1401-1409

Mogdans J, Geisen S (2009) Anterior lateral line responses to moving objects. J Com Physiol A 195: 151–165

Kröther S, Bleckmann H, Mogdans J (2004) Effects of running water on brainstem lateral line responses in trout, Oncorhynchus mykiss, to sinusoidal wave stimuli. J Comp Physiol A 190: 437-448

Bleckmann H. Mogdans J, Kröther S, Engelmann J, Hanke W (2004) Das Seitenliniensytem der Fische: Bau und Funktion. BIUZ 6: 358-365

Engelmann J, Kröther S, Bleckmann H, Mogdans J (2003) Effects of running water on lateral line responses to moving objects. Brain Behav Evol 61: 195-212

Engelmann J, Kröther S, Mogdans J, Bleckmann H (2002) Responses of primary and secondary lateral line units to dipole stimuli under still and running water conditions. Bioacoustics 12: 158-161

Kirsch J, Hofmann MH, Mogdans J, Bleckmann H (2002) Response properties of diencephalic neurons to visual, acoustic and hydrodynamic stimulation in the goldfish Carassius auratus. Zoology 105: 61-70

Kröther S, Mogdans J, Horst Bleckmann (2002) Brainstem lateral line responses to sinusoidal wave stimuli in still and running water. J Exp Biol 205: 1471-1484

Mogdans J, Barenbrock J, Bleckmann H (2002) Sighted topminnows, Aplocheilus lineatus, use the lateral line for surface wave discrimination. Copeia 102: 190-194

Kirsch J, Hofmann MH, Mogdans J, Bleckmann H (2001) Responses of diencephalic neurons in the goldfish, Carassius auratus, to sensory stimulation. Brain Res Bull 57: 419-421

Mogdans J, Kröther S (2001) Brainstem lateral line responses to sinusoidal wave stimuli in the goldfish, Carassius auratus. Zoology 104: 153-166

Engelmann J, Hanke W, Mogdans J, Bleckmann H (2000) Hydrodynamic stimuli and the fish lateral line. Nature 408: 51-52

Mogdans J, Goenechea L (2000) Responses of medullary lateral line units in the goldfish, Carassius auratus, to sinusoidal and complex wave stimuli. Zoology 102: 227-237

Plachta D, Mogdans J, Bleckmann H (1999) Responses of units in the midbrain of the goldfish, Carassius auratus, to constant-amplitude and amplitude-modulated water wave stimuli. J Comp Physiol A 185: 405-417

Mogdans J, Bleckmann H (1999) Peripheral lateral line responses to amplitude-modulated sinusoidal wave stimuli. J Comp Physiol A 185: 173-180

Mogdans J, Wojtenek W, Hanke W (1999) The puzzle of hydrodynamic information processing: how are complex water motions analyzed by the lateral line? Europ J Morphol 37:195-199

Mogdans J, Bleckmann H (1998) Representation of hydrodynamic stimuli by primary lateral   line discharges. In Blickhan R, Wisser A, Nachtigall W (eds.) Biona Report 13. Motion systems, Fischer Verlag, Jena,  pp. 218-219

Wojtenek W, Mogdans J. Bleckmann H (1998) Responses of midbrain lateral line units in the goldfish, Carassius auratus, to moving objects. Zoology 101:69-82

Mogdans J, Bleckmann H (1998) Responses of the goldfish trunk lateral line to moving objects. J Comp Physiol A 182: 659-676

Coombs S, Mogdans J, Halstead M, Montgomery J (1998) Transformation of peripheralinput by the first order lateral line brainstem nucleus. J Comp Physiol A 182: 609-626

Mogdans J, Bleckmann H, Menger N (1997) Sensitivity of central units in the goldfish, Carassius auratus, to transient hydrodynamic stimuli. Brain Behav Evol 50: 261-283

Bleckmann H, Mogdans J, Fleck A (1996) Intergration of hydrodynamic information in the hindbrain of fishes. Mar Fresh Behav Physiol 27: 77-94

 

Mogdans J, Knudsen EI (1994) Site of auditory plasticity in the brainstem (VLVp) of the owl revealed by early monaural occlusion. J Neurophysiol 72: 2875-2891

Mogdans J, Knudsen EI (1994) Representation of interaural level differences in the VLVp, the first site of binaural comparison in the barn owl's auditory system. Hearing Res 74: 148-164

Mogdans J, Knudsen EI (1993) Early monaural occlusion alters the neural map of interaural level differences in the inferior colliculus of the barn owl. Brain Res 619: 29-38

Mogdans J, Knudsen EI (1992) Adaptive adjustment of unit tuning to sound localization cues in response to monaural occlusion in developing owl optic tectum. J Neurosci 12: 3473-3484

Knudsen EI, Mogdans J (1992) Vision-independent adjustment of unit tuning to sound localization cues in response to monaural occlusion in developing owl optic tectum. J Neurosci 12: 3485-3493

 

Originalarbeiten zur Echoortung bei Fledermäusen

Mogdans J, Schnitzler H-U, Ostwald J (1993) Discrimination of two-wavefront echoes in the big brown bat, Eptesicus fuscus: behavioral experiments and receiver simulations. J Comp Physiol A 172: 309-323

Mogdans J, Schnitzler H-U (1990) Range resolution and the possible use of spectral information in the echolocating bat, Eptesicus fuscus. J Acoust Soc Am 88: 754-757

Mogdans J, Ostwald J, Schnitzler H-U (1988) The role of pinna movement for the localization of vertical and horizontal wire obstacles in the greater horseshoe bat, Rhinolophus  ferrumequinum. J Acoust Soc Am 84: 1676-1679

 

Reviews und Buchkapitel

Bleckmann H, Mogdans J (2014) Neuronal basis of source localization and the processing of bulk water flow with the fish lateral line. In: Bleckmann H, Mogdans J, Coombs S (eds) Flow Sensing in Air and Water. Springer, Berlin, pp 371-395

Bleckmann H, Mogdans J (2014) Central processing of lateral line information. In: Coombs S, Bleckmann H, Fay RR, Popper AN (eds) The Lateral Line System. Springer, Berlin, pp 253-280

Webb JF, Montgomery JC, Mogdans J (2008) Bioacoustics and the Lateral Line System of Fishes. In: Popper AN, Fay RR (eds) Springer Handbook of Auditory Research: Fish Bioacoustics. Springer Verlag, pp. 145-182

Mogdans J, Engelmann J, Kröther S (2004) Neurobiology of the Fish Lateral Line:  Adaptations for the Detection of Hydrodynamic Stimuli in Running Water. In: von der Emde G, Mogdans J, Kapoor BG (eds)The Senses of Fishes: Adaptations for the Reception of Natural Stimuli. Narosa Publishing House, New Delhi, pp 265-287

Mogdans J, Engelmann J, Hanke W, Kröther S (2003) The fish lateral line: how to detect hydrodynamic stimuli. In: Barth FG, Humphrey JAC, Secomb TW (eds) Sensors and Sensing in Biology and Engineering. Springer, Wien New York, pp 173-185

Bleckmann H, Mogdans J, Dehnhardt G (2003) Processing of dipole and more complex hydrodynamic stimuli under still- and running-water condition. In: Collin SP, Marshall NJ (eds) Sensory Processing in Aquatic Environments. Springer, Berlin, pp 108-121

Mogdans J, Bleckmann H (2001) The mechanosensory lateral line of jawed fishes. In: Kapoor BG, Hara TJ (eds) Sensory Biology of Jawed Fishes - New Insights. Science Publishers Inc, Enfield, pp 181-213

Bleckmann H, Mogdans J, Dehnhardt G (2001) The importance of using natural stimuli in studies of sensory systems. In: Barth FG, Schmid A (eds) Ecology of Sensing. Springer, Berlin, pp 149-167

von der Emde G, Mogdans J (1998) Analysis of natural stimuli by hair-cell sensory systems. In: Elsner N and Wehner R (eds) New Neuroethology on the Move (Proceedings of the 26th Göttingen Neurobiology Conference, Vol 1), Thieme Verlag Stuttgart, pp 222-228

Bleckmann H, Mogdans J, Fleck A (1997) Intergration of hydrodynamic  information in the hindbrain of fishes. In: Lenz PH, Hartline DK, Purcell JE, Macmillan DL (eds) Zooplankton: Sensory Ecology and Physiology. Gordon Breach Publishers, Canada, pp 67-84

Bleckmann H, Mogdans J, Coombs S (2014) Flow Sensing in Air and Water. Behavioral, Neural and Engineering Principles of Operation. Springer, Heidelberg, New York, Dordrecht, London

von der Emde G, Mogdans J, Kapoor BG (2004) The Senses of Fishes: Adaptations for the Reception of Natural Stimuli. Narosa Publishing House, New Delhi

 

 

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