Medullary lateral line units of rudd, Scardinius erythrophthalmus, are sensitive to Kármán vortex streets

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• 作者：Adrian Klein ; Jan Winkelnkemper ; Evelyn Dylda…
• 关键词：Lateral line ; Mechanosensory ; Neuromast ; Vortex ; MON
• 刊名：Journal of Comparative Physiology A
• 出版年：2015
• 出版时间：July 2015
• 年：2015
• 卷：201
• 期：7
• 页码：691-703
• 全文大小：1,525 KB
• 参考文献：Ali R, Mogdans J, Bleckmann H (2010) Responses of medullary lateral line units of the goldfish, Carassius auratus, to amplitude-modulated sinusoidal wave stimuli. Int J Zool 2010:1-4View Article
  Beckmann M, Er?s T, Schmitz A, Bleckmann H (2010) Number and distribution of superficial neuromasts in twelve common european cypriniform fishes and their relationship to habitat occurrence. Int Rev Hydrobiol 95:273-84View Article
  Bleckmann H (1988) Prey identification and prey localization in surface-feeding fish and fishing spiders. In: Atema J, Fay RR, Popper AN, Tavolga WN (eds) Sensory biology of aquatic animals. Springer, New York, pp 619-41View Article
  Bleckmann H (2007) Peripheral and central processing of lateral line information. J Comp Physiol A 194:145-58View Article
  Bleckmann H, Zelick R (1993) The responses of peripheral and central mechanosensory lateral line units of weakly electric fish to moving objects. J Comp Physiol A 172:115-28View Article
  Bleckmann H, Przybilla A, Klein A, Schmitz A, Kunze S, Brücker C (2012) Station holding of trout: behavior, physiology and hydrodynamics. In: Tropea C, Bleckmann H (eds) Nature-inspired fluid mechanics. Notes on numerical fluid mechanics and multidisciplinary design. Springer, Heidelberg, pp 161-87
  Burt de Perera T (2004a) Fish can encode order in their spatial map. Proc R Soc Lond B 271:2131-134View Article
  Burt de Perera T (2004b) Spatial parameters encoded in the spatial map of the blind Mexican cave fish, Astyanax fasciatus. Anim Behav 68:291-95View Article
  Chagnaud B, Bleckmann H, Engelmann J (2006) Neural responses of goldfish lateral line afferents to vortex motions. J Exp Biol 209:327-42PubMed View Article
  Chagnaud B, Bleckmann H, Hofmann M (2007a) Kármán vortex street detection by the lateral line. J Comp Physiol A 193:753-63View Article
  Chagnaud B, Hofmann M, Mogdans J (2007b) Responses to dipole stimuli of anterior lateral line nerve fibres in goldfish, Carassius auratus, under still and running water conditions. J Comp Physiol A 193:249-63View Article
  Chagnaud BP, Bleckmann H, Hofmann MH (2008a) Lateral line nerve fibers do not respond to bulk water flow direction. Zoology 111:204-07PubMed View Article
  Chagnaud B, Brücker C, Hofmann M, Bleckmann H (2008b) Measuring flow velocity and flow direction by spatial and temporal analysis of flow fluctuations. J Neurosci 28:4479-487PubMed View Article
  Coombs S, Conley R (1997) Dipole source localization by mottled sculpin II. The role of lateral line excitation patterns. J Comp Physiol A 180:401-16PubMed View Article
  Coombs S, Janssen J, Webb J (1988) Diversity of lateral line systems: evolutionary and functional considerations. In: Atema J, Fay RR, Popper AN, Tavolga WN (eds) Sensory biology of aquatic animals. Springer, New York, pp 553-93View Article
  Coombs S, Mogdans J, Halstead M, Montgomery J (1998) Transformation of peripheral inputs by the first-order lateral line brainstem nucleus. J Comp Physiol A 182:609-26View Article
  Dowben R, Rose J (1953) A metal-filled microelectrode. Science 118:22-4PubMed View Article
  Engelmann J, Hanke W, Bleckmann H (2002) Lateral line reception in still- and running water. J Comp Physiol A 188:513-26View Article
  Faucher K, Parmentier C, Vandewalle N, Vandevalle P (2010) Fish lateral system is required for accurate control of shoaling behavior. Anim Behav 79:679-87View Article
  Hanke W, Bleckmann H (2004) The hydrodynamic trails of Lepomis gibbosus (Centrarchidae), Colomesus psittacus (Tetraodontidae) and Thysochromis ansorgii (Cichlidae) investigated with scanning particle image velocimetry. J Exp Biol 207:1585-596PubMed View Article
  Hanke W, Brücker C, Bleckmann H (2000) The ageing of the low frequency water disturbances caused by swimming goldfish and its possible relevance to prey detection. J Exp Biol 203:1193-200PubMed
  Hassan E (1989) Hydrodynamic imaging of the surroundings by the lateral line of the blind cave fish Anoptichthys jordani. In: Coombs S, Gorner P, Münz H (eds) The mechanosensory lateral line: neurobiology and evolution. Springer, New York, pp 217-28View Article
  Hofmann M, Chagnaud B, Wilkens L (2005) Response properties of electrosensory afferent fibers and secondary brain stem neurons in the paddlefish. J Exp Biol 208:4213-222PubMed View Article
  Kaus S, Schwartz E (1986) Reaction of young Betta splendens to surface waves of the water. In: Barth FG, Seyfarth EA (eds) Verh Dtsch Zool Ges. Gustav Fischer, Stuttgart, pp 218-19
  Klein A, Bleckmann H (2011) Determination of object position, vortex shedding frequency and flow velocity using artificial lateral line canals. Beilstein J Nanotechnol 2:276-83 PubMed Central PubMed View Article
  Kottelat M, Freyhoff J (2007) Handbook of European freshwater fishes. Publications Kottelat, Switzerland
  Kr?ther S, Mogdans J, Bleckmann H (2002) Brainstem lateral line responses to sinusoidal wave
• 作者单位：Adrian Klein (1)
  Jan Winkelnkemper (1)
  Evelyn Dylda (1)
  Horst Bleckmann (1)
  
  1. Institute for Zoology, Poppelsdorfer Schloss, University of Bonn, 53115, Bonn, Germany
  
• 刊物主题：Animal Physiology; Neurosciences; Zoology;
• 出版者：Springer Berlin Heidelberg
• ISSN：1432-1351

文摘

We investigated the responses of medullary lateral line units of the rudd, Scardinius erythrophthalmus, to bulk water flow (7?cm?s?) and to water flow that contained vortices shed by an upstream half cylinder (diameter 1, 2, and 3?cm). Thirty-five percent of the medullary units either increased or decreased their discharge rate with the increasing cylinder diameter. In some units, the spike patterns revealed the vortex shedding frequency, i.e., in these units the amplitude of spike train frequency spectra was similar or identical to the vortex shedding frequency.