Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Abdel-Latif H, Hassan ES, von Campenhausen C (1990) Sensory performance of blind Mexican cavefish after destruction of the canal neuromasts. Naturwissenschaften 77:237–239.
Bartels M, Münz H, Claas B (1990) Representation of lateral line and electrosensory systems in the midbrain of the axolotl, Ambystoma mexicanum. J Comp Physiol A 167:347–356.
Behrend O, Branoner F, Zhivkov Z, Ziem U (2006) Neural responses to water surface waves in the midbrain of the aquatic predator Xenopus laevis. Eur J Neurosci 23:729–744
Blaxter JHS, Gray JAB, Denton EJ (1981) Sound and startle responses in herring shoals. J Mar Biol Assoc UK 61:851–869.
Bleckmann H (1980) Reaction time and stimulus frequency in prey localization in the surface-feeding fish Aplocheilus lineatus. J Comp Physiol A 140:163–172.
Bleckmann H (1982) Reaction time, threshold values and localization of prey in stationary and swimming surface feeding fish Aplocheilus lineatus (Cyprinodontidae). Zool Jahrb Abt Physiol 86:71–81.
Bleckmann H (1985) Discrimination between prey and non-prey wave signals in the fishing spider Dolomedes triton (Pisauridae). In: Kalmring K, Elsner N (eds) Acoustic and Vibrational Communication in Insects. Berlin: Paul Parey, pp. 215–222.
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. New York: Springer-Verlag, pp. 619–641.
Bleckmann H (1994) Reception of hydrodynamic stimuli in aquatic and semiaquatic animals. In: Rathmayer W (ed) Progress in Zoology, Vol 41. Stuttgart: Gustav Fischer, pp. 1–115.
Bleckmann H, Schwartz E (1981) Reaction time of the topminnow Aplocheilus lineatus to surface waves determined by video- and electromyogram recordings. Experientia 37:362–363.
Bleckmann H, Schwartz E (1982) The functional significance of frequency modulation within a wave train for prey localization in the surface-feeding fish Aplocheilus lineatus. J Comp Physiol A 145:331–339.
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 172:115–128.
Bleckmann H, Tittel G, Blübaum-Gronau E (1989) The lateral line system of surface-feeding fish: anatomy, physiology, and behavior. In: Coombs S, Görner P, Münz H (eds) The Mechanosensory Lateral Line. Neurobiology and Evolution. New York: Springer-Verlag, pp. 501–526.
Bleckmann H, Breihaupt T, Blickman R, Tautz J (1991) The time course and frequency content of local flow fields caused by moving fish, frog and crayfish. J Comp Physiol A 168:749–757.
Buwalda RJA (1981) Segregation of directional and nondirectional acoustic information in the cod. In: Tavolga WN, Popper AN, Fay RR (eds) Hearing and Sound Communication in Fishes. New York: Springer-Verlag, pp. 139–172.
Buwalda RJA, van der Steen J (1979) The sensitivity of the cod sacculus to directional and non-directional stimuli. Comp Biochem Physiol A 64:467–471.
Buwalda RJA, Schuijf A, Hawkins AD (1983) Discrimination by the cod of sound from opposing directions. J Comp Physiol A 150:175–184.
Canfield JG, Rose GJ (1996) Hierarchical sensory guidance of Mauthner-mediated escape responses in goldfish (Carassuis auratus) and cichlids (Haplochromis burtoni). Brain Behav Evol 48:137–156.
Casagrand JL, Guzik AL, Eaton RC (1999) Mauthner and reticulospinal responses to onset of acoustic pressure and acceleration stimuli. J Neurophysiol 82:1422–1437.
Chapman CJ (1973) Field studies of hearing in teleost fish. Helgoländer wiss Meeresunters 24:371–390.
Chapman CJ, Hawkins AD (1973) A field study of hearing in the cod, Gadus morhua L. J Comp Physiol 85:147–167.
Chapman CJ, Johnstone ADF (1974) Some auditory discrimination experiments on marine fish. J Exp Biol 61:521–528.
Chapman CJ, Sand O (1974) Field studies of hearing in two species of flatfish Pleuronectes platessa (L.) and Limanda limanda (L.) (Family Pleuronectidae). Comp Biochem Physiol A 47:371–385.
Chiszar, David, Ted Melcer, Robert Lee and David Duvall (1990) Chemical cues used by prairie rattlesnakes (Crotalus viridis) to follow trails of rodent prey. J Chem Ecol 16: 79–86.
Claas B, Münz H, Zittlau KE (1989) Direction coding in central parts of the lateral line system. In: Coombs S, Görner P, Münz H (eds) The Mechanosensory Lateral Line. Neurobiology and Evolution. New York: Springer-Verlag, pp. 409–419.
Coombs S (1994) Nearfield detection of dipole sources by the goldfish (Carassius auratus) and the mottled sculpin Cottus bairdi. J Exp Biol 190:109–129.
Coombs S, Conley RA (1995) Source distance determination by the mottled sculpin lateral line. In: Burrows M, Mattheson T, Newland PL, Schuppe H (eds) Nervous Systems and Behaviour. Stuttgart: Thieme Verlag, pp. 349.
Coombs S, Janssen J (1990) Behavioral and neurophysiological assessment of lateral line sensitivity in the mottled sculpin, Cottus bairdi. J Comp Physiol A 167:557–567.
Coombs S, Montgomery JC (1998) The enigmatic lateral line system. In: Fay RR, Popper AN (eds) Comparative Hearing: Fish and Amphibians. New York: Springer-Verlag, pp. 319–362.
Coombs S, Hastings M, Finneran J (1996) Modeling and measuring lateral line excitation patterns to changing dipole source locations. J Comp Physiol A 178:359–371.
Coombs S, Finneran JJ, Conley RA (2000) Hydrodynamic imaging formation by the lateral line system of the Lake Michigan mottled sculpin, Cottus bairdi. Philos Trans Roy Soc B 355:1111–1114.
Curcic-Blake B, van Netten SM (2006) Source location encoding in the fish lateral line canal. J Exp Biol 209: 1548–1559.
de Munck JC, Schellart NAM (1987) A model for the nearfield acoustics of the fish swimbladder and its relevance for directional hearing. J Acoust Soc Am 81:556–560.
De Perera T (2004) Spatial parameters encoded in the spatial map of the blind Mexican cavefish, Astyanax fasciatus. Anim Behav 68:291–295.
de Vries H (1950) The mechanics of the labyrinth otoliths. Acta Oto-Laryngol 38:262–273.
Dijkgraaf S, Kalmijn AJ (1962) Verhaltensversuche zur Funktion der Lorenzinischen Ampullen. Naturwissenschaften 49:400.
Domenici P, Blake RW (1993) The kinematics and performance of fish fast-start swimming. J Exp Biol 200:1165–1178.
Eaton RC, Emberley DS (1991) How stimulus direction determines the trajectory of the Mauthner-initiated escape response in a teleost fish. J Exp Biol 161:469–487.
Eaton RC, Popper AN (1995) The octavolateralis system and Mauthner cell: interactions and questions. Brain Behav Evol 46:124–130.
Eaton RC, Lavender WA, Wieland CM (1981) Identification of Mauthner initiated response patterns in goldfish: evidence from simultaneous cinematography and electrophysiology. J Comp Physiol A 144:521–531.
Eaton RC, Canfield JG, Guzik AL (1995) Left-right discrimination of sound onset by the Mauthner system. Brain Behav Evol 46:165–179.
Eaton RC, Lee RKK, Foreman MB (2001) The Mauthner cell and other identified neurons of the brainstem escape network of fish. Prog Neurobiol 63:467–485.
Eaton RC, Casagrand JL, Cummins GI (2002) Neural implementation of the phase model for localizing impulse sounds by the Mathner system. Bioacoustics 12:209–212.
Edds-Walton PL (1998) Anatomical evidence for binaural processing in the descending octaval nucleus of the toadfish (Opsanus tau). Hear Res 123:41–54.
Edds-Walton PL, Fay RR (2003) Directional selectivity and frequency tuning of midbrain cells in the oyster toadfish, Opsanus tau. J Comp Physiol A 189:527–543.
Edds-Walton PL, Fay RR (2005a) Sharpening of directional responses along the auditory pathway of the oyster toadfish, Opsanus tau. J Comp Physiol A 191:1079–1086.
Edds-Walton PL, Fay RR (2005b) Projections to bimodal sites in the torus semicircularis of the toadfish, Opsanus tau. Brain Behav Evol 66:73–87.
Edds-Walton PL, Fay RR, Highstein S (1999) Dendritic arbors and central projections of physiologically characterized auditory fibers from the saccule of the toadfish, Opsanus tau. J Comp Neurol 411:212–238.
Elepfandt A, Wiedemer L (1987) Lateral-line responses to water surface waves in the clawed frog, Xenopus laevis. J Comp Physiol A 160:667–682.
Emde G von der, Schwarz S, Gomez L, Budelli R, Grant K (1998) Electric fish measure distance in the dark. Nature 395:890–894.
Engelmann J, Bleckmann H (2004) Coding of lateral line stimuli in the goldfish midbrain in still and running water. Zoology 107: 135–151.
Enger PS (1976) On the orientation of hair cells in the labyrinth of perch (Perca fluviatilis). In: Schuijf A, Hawkins AD (eds) Sound Reception in Fish. Amsterdam: Elsevier, pp. 49–62.
Enger PS, Hawkins AD, Sand O, Chapman C J (1973) Directional sensitivity of saccular microphonic potentials in the haddock. J Exp Biol 59:425–434.
Enger PS, Kalmijn AJ, Sand O (1989) Behavioral investigations on the functions of the lateral line and inner ear in predation. In: Coombs S, Görner P, Münz H (eds) The Mechanosensory Lateral lLine—Neurobiology and Evolution. New York: Springer-Verlag, pp. 575–587.
Faber DS, Fetcho JR, Korn H (1989) Neural networks underlying the escape response in goldfish. Ann NY Acad Sci 563:11–33.
Faber DS, Korn H, Lin JW (1991) Role of medullary networks and postsynaptic membrane properties in regulating Mauthner cell responsiveness to sensory excitation. Brain Behav Evol 37:286–297.
Fay, RR (1984) The goldfish ear codes the axis of acoustic particle motion in three dimensions. Science 225:951–954.
Fay RR, Edds-Walton PL (1997) Directional response properties of saccular afferents of the toadfish, Opsanus tau. Hear Res 111:1–21.
Fay RR, Edds-Walton, PL (2000) Directional encoding by fish auditory systems. Philos Trans Roy Soc Lond B 355:1281–1284.
Fay RR, Olsho LW (1979) Discharge patterns of lagenar and saccular neurons of the goldfish eighth nerve: displacement sensitivity and directional characteristics. Comp Biochem Physiol A 62:377–386.
Fetcho JR., O’Malley DM (1997) Imaging neuronal networks in behaving animals. Curr Opin Neurosci 7:832–838.
Flock AA (1965) Electromicroscopical and electrophysiological studies on the lateral line canal organ. Acta Otolaryngol Suppl 199:1–90.
Forman MB, Eaton RC (1993) The direction change concept for reticulospinal control of goldfish escape. J Neurosci 13:4101–4113.
Gathan E, Sankrithi N, Campos, JB, O’Malley DM (2002) Evidence for a widespread brain stem escape network in larval zebrafish. J Neurophysiol 87:608–614.
Goulet J, Engelmann J, Chagnaud B, Franosch J-MP, Suttner MD, van Hemmen JL (2008) Object localization through the lateral line system of fish: theory and experiment. J Comp physical A 194:1–17.
Guzik AL, Eaton RC, Mathis DW (1999). A connectionist model of left-right sound discrimination by the Mauthner system. J Comput Neurosci 6:121–144.
Hahn G (1960) Ferntastsinn und Strömungssinn beim augenlosen Höhlenfisch Anoptichthys jordani Hubbs und Innes im Vergleich zu anderen Teleosteern. Naturwissenschaften 47:611.
Hale M E (2002) S- and C-start escape responses of the muskellunge (Esox masquinongy) require alternative neuromotor mechanisms. J Exp Biol 205:2005–2016.
Hale ME, Long Jr JH, McHenry M J, Westneat MW (2002) Evolution of behaviour and neural control of the fast-start escape response. Evolution 56:993–1007.
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 207:1585–1596.
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 203:1193–1200.
Harris GG (1964) Considerations on the physics of sound produced by fishes. In: Tavolga WN (ed) Marine Bio-acoustics. Oxford: Pergamon Press, pp. 233–247.
Hassan ES (1989) Hydrodynamic imaging of the surroundings by the lateral line of the blind cavefish Anoptichthys jordani. In: Coombs S, Görner P, Münz H (eds) The Mechanosensory Lateral Line. Neurobiology and Evolution. New York: Springer-Verlag, pp. 217–228.
Hassan ES (1992a) Mathematical description of the stimuli to the lateral line system of fish, derived from a three-dimensional flow field analysis. I. The case of moving in open water and of gliding towards a plane surface. Biol Cyber 66:443–452.
Hassan ES (1992b) Mathematical description of the stimuli to the lateral line system of fish, derived from a three-dimensional flow field analysis. II. The case of gliding alongside or above a plane surface. Biol Cyber 66:453–461.
Hassan E-S (1993) Mathematical description of the stimuli to the lateral line system of fish, derived from a three-dimensional flow field analysis. III. The case of an oscillating sphere near the fish. Biol Cyber 69:535–538.
Hassan ES, Abdel-Latif H, Biebricher R (1992) Studies on the effects of $Ca++$ and $Co++$ on the swimming behavior of the blind Mexican cavefish. J Comp Physiol A 171:413–419.
Hawkins AD, Horner K (1981) Directional characteristics of primary auditory neurons from the cod ear. In: Tavolga WN, Popper AN, Fay RR (eds) Hearing and Sound Communication in Fishes. New York: Springer-Verlag, pp. 311–328.
Hawkins AD, Sand O (1977) Directional hearing in the median vertical plane by the cod. J Comp Physiol A 122:1–8.
Hofer B (1908) Studien über die Hautsinnesorgane der Fische I. Die Funktion der Seitenorgane bei den Fischen. Ber königl Bayer biol Versuchsstation München 1:115–168.
Hoin-Radkovski I, Bleckmann H, Schwartz E (1984) Determination of source distance in the surface-feeding fish Pantodon buchholzi (Pantodontidae). Anim Behav 32:840–851.
Horner K, Sand O, Enger PS (1980) Binaural interaction in the cod. J Exp Biol 85:323–331.
Hudspeth AJ, Corey DP (1977) Sensitivity, polarity and conductance change in the response of vertebrate hair cells to controlled mechanical stimuli. Proc Natl Acad Sci USA 74:2407–2411.
Janssen J, Corcoran J (1993) Lateral line stimuli can override vision to determine sunfish strike trajectory. J Exp Biol 176:299–305.
Janssen J, Coombs S, Hoekstra D, Platt C (1987) Anatomy and differential growth of the lateral line system of the mottled sculpin, Cottus bairdi (Scorpaeniformes: Cottidae). Brain Behav Evol 30:210–229.
Kalmijn AJ (1982) Electric and magnetic field detection in elasmobranch fishes. Science 218:916–918.
Kalmijn AJ (1988) Hydrodynamic and acoustic field detection. In: Atema J, Fay RR, Popper AN, Tavolga WN (eds) Sensory Biology of Aquatic Animals. New York: Springer-Verlag, pp. 83–130.
Kalmijn AJ (1989) Functional evolution of lateral line and inner ear sensory systems. In: Coombs S, Görner P, Münz H (eds) The Mechanosensory Lateral Line—Neurobiology and Evolution. New York: Springer-Verlag, pp. 187–215.
Kalmijn AJ (1997) Electric and near-field acoustic detection, a comparative study. Acta Physiol Scand 161(Suppl) 638: 25–38.
Karlsen HE (1992a) The inner ear is responsible for detection of infrasound in the perch (Perca fluviatilis). J Exp Biol 171:163–172.
Karlsen HE (1992b) Infrasound sensitivity in the plaice (Pleuronectes platessa). J Exp Biol 171:173–187.
Karlsen HE, Sand O (1987) Selective and reversible blocking of the lateral line in freshwater fish. J Exp Biol. 133:249–267.
Karlsen HE, Piddington RW, Enger PS, Sand O (2004) Infrasound initiates directional fast-start escape responses in juvenile roach (Rutilus rutilus). J Exp Biol. 207:4185–4193.
Käse R, Bleckmann H (1987) Prey localization by surface wave-ray tracing—fish track bugs like oceanographers track storm. Experientia 43:290–293.
Kimmel CB, Powell SL, Metcalfe, WK (1982) Brain neurons which project to the spinal cord in young larvae of the zebrafish. J Comp Neurol 205:112–127.
Kleerekoper H, Chagnon EC (1954) Hearing in fish with special reference to Semotilus atromaculatus. J Fish Res Bd Can 11:130–152.
Korn H, Faber DS (1996) Escape behaviour—brainstem and spinal cord circuitry and function. Curr Opin Neurobiol 6:826–832.
Lang HH (1980) Surface wave discrimination between prey and nonprey by the back swimmer Notonecta glauca L. (Hemiptera, Heteroptera). Behav Ecol Sociobiol 6:233–246.
Lee RKK, Eaton RC, Zottoli SJ (1993) Segmental arrangement of reticulospinal neurons in the goldfish hindbrain. J Comp Neurol 327:1–18.
Lighthill J (1980) Waves in Fluids. Cambridge, UK: Cambridge University Press.
Liu KS, Fetcho JR (1999) Laser ablations reveal functional relationships of segmental hindbrain neurons in zebrafish. Neuron 23:325–335.
Lu Z, Popper AN (1998) Morphological polarizations of sensory hair cells in the three otolithic organs of a teleost fish: fluorescent imaging of ciliary bundles. Hear Res 126:47–57.
Lu Z, Popper AN (2001) Neural response directionality correlates of hair cell orientation in a teleost fish. J Comp Physiol A 187:453–465.
Lu Z, Song J, Popper AN (1998) Encoding of acoustic directional information by saccular afferents of the sleeper goby, Dormitator latifrons. J Comp Physiol A 182:805–815.
Lu Z, Xu Z, Buchser WJ (2003) Acoustic response properties of lagenar nerve fibers in the sleeper goby, Dormitator latifrons. J Comp Physiol A 189:889–905.
Lu Z, Xu Z, Buchser WJ (2004) Coding of acoustic particle motion by utricular fibers in the sleeper goby, Dormitator latifrons. J Comp Physiol A 190:923–938.
Ma WLD, Fay RR (2002) Neural representations of the axis of acoustic particle motion in nucleus centralis of the torus semicircularis of the goldfish, Carassius auratus. J Comp Physiol A 188:301–313.
McCormick CA, Hernandez DV (1996) Organization of inner ear endorgan projections in the goldfish, Carassius auratus. Brain Behav Evol 43:189–205.
Metcalfe WK, Mendelson B, Kimmel CB (1986) Segmental homologies among reticulospinal neurons in the hindbrain of the zebrafish larva. J Comp Neurol 251:147–159.
Mohr C, Bleckmann H (1998) Electrophysiology of the cephalic lateral line of the surface-feeding fish Aplocheilus lineatus. Comp Biochem Physiol A 119:807–815.
Moulton JM, Dixon RH (1967) Directional hearing in fishes. In: Tacvolga WN (ed) Marine Bioacoustics, Vol 2. Oxford: Pergamon Press, pp. 187–232.
Müller U, Schwartz E (1982) Influence of single neuromasts on prey-localizing behavior of surface-feeding fish Aplocheilus lineatus. J Comp Physiol A 149:399–408.
Müller HM, Fleck A, Bleckmann H (1993) The responses of central octavolateralis cells to moving sources. J Comp Physiol A 179: 455–471.
Myrberg AA Jr, Banner A, Richaard JD (1969) Shark attraction using a video-acoustic system. Mar Biol 2:264–276.
Myrberg AA Jr, Gordon CR, Klimley AP (1976) Attraction of free ranging sharks by low frequency sound, with comments on its biological significance. In: Schuijf A, Hawkins AD (eds) Sound Reception in Fish. Amsterdam: Elsevier, pp. 205–228.
Nelson DR, Gruber SH (1963) Sharks: attraction by low-frequency sounds. Science 142:975–977.
Parvulescu A (1967) The acoustics of small tanks. In: Tavolga WN (ed) Marine Bio-acoustics II. Oxford: Pergamon Press, pp. 7–14.
Piddington RW (1972) Auditory discrimination between compressions and rarefactions by goldfish. J Exp Biol 56:403–419.
Pohlmann K, Grasso FW, Breithaupt T (2001) Tracking wakes: the nocturnal predatory strategy of piscivorous catfish. Proc Natl Acad Sci USA 98:7371–7374.
Pohlmann K, Atema J, Breithaupt T (2004) The importance of the lateral line in nocturnal predation of piscivorous catfish. J Exp Biol 207: 2971–2978.
Popper AN, Coombs S (1982) The morphology and evolution of the ear in Actinopterygian fishes. Am Zool 22:311–328.
Popper AN, Salmon M, Parvulescu A (1973) Sound localization by two species of Hawaiian squirrelfish, Myripristis berndti and M. argyromus. Anim Behav 21:86–97.
Reinhardt F (1935) Über Richtungswahrnehmung bei Fischen, besonders bei der Elritze(Phoxinus laevis L.) und beim Zwergwels (Amiurus nebulosus Raf.). Z Vergl Physiol 22:570–603.
Ritter DA, Bhatt DH, Fetcho JR (2001) In vivo imaging of zebrafish reveals differences in the spinal networks for escape and swimming movements. J Neurosci 21:8956–8965.
Rogers PH, Popper AN, Cox M, Saidel WM (1988) Prosessing of acoustic signals in the auditory system of bony fish. J Acoust Soc Am 83:338–349.
Sand O (1974) Directional sensitivity of microphonic potentials from the perch ear. J Exp Biol 60:881–899.
Sand O (1981) The lateral-line and sound reception. In: Tavolga WN, Popper AN, Fay RR (eds) Hearing and Sound Communication in Fishes. New York: Springer-Verlag, pp. 459–480.
Sand O (1984) Lateral line systems. In: Bolis L, Keynes RD, Maddrell SHP (eds) Comparative Physiology of Sensory Systems. Cambridge, UK: Cambridge University Press, pp. 3–32.
Sand O, Enger PS (1973) Evidence for an auditory function of the swim bladder in the cod. J Exp Biol 59:405–414.
Sand O, Hawkins AD (1973) Acoustic properties of the cod swim bladder. J Exp Biol 58:797–820.
Sand O, Karlsen HE (1986) Detection of infrasound by the Atlantic cod. J Exp Biol 125:197–204.
Sand O, Karlsen HE (2000) Detection of infrasound and linear acceleration in fish. Philos Trans Roy Soc Lond B 355:1295–1298.
Sand O, Enger PS, Karlsen HE, Knudsen FR (2001) Detection of infrasound in fish and behavioural responses to intense infrasound in juvenile salmonids and European silver eels: a minireview. Am Fish Soc Symp 26:183–193.
Schellart NAM, Buwalda RJA (1990) Directional variant and invariant hearing thresholds in the rainbow trout (Salmo gairdneri). J Exp Biol 149:113–131.
Schellart NAM, de Munck JC (1987) A model for directional and distance hearing in swim bladder-bearing fish based on the displacement orbits of the hair cells. J Acoust Soc Am 82:822–829.
Schuijf A (1975) Directional hearing of cod (Gadus morhua) under approximate free field conditions. J Comp Physiol 98:307–332.
Schuijf A (1976) The phase model of directional hearing in fish. In: Schuijf A, Hawkins AD (eds) Sound Reception in Fish. Amsterdam: Elsevier, pp. 63–86.
Schuijf A (1981) Models of acoustic localization. In: Tavolga WN, Popper AN, Fay RR (eds) Hearing and Sound Communication in Fishes. New York: Springer-Verlag, pp. 267–310.
Schuijf A, Buwalda RJA (1975) On the mechanism of directional hearing in cod (Gadus morhua). J Comp Physiol 98:333–344.
Schuijf A, Hawkins AD (1983) Acoustic distance discrimination by the cod. Nature 302:143–144.
Schuijf A, Siemelink M (1974) The ability of cod (Gadus morhua) to orient towards a sound source. Experientia 30:773–774.
Schuijf A, Baretta JW, Wildschut JT (1972). A field investigation on the discrimination of sound direction in Labrus berggylta (Pisces: Perci-formes). Netherlands J Zool 22:81–104.
Schuijf A, Visser C, Willers AFM, Buwalda RJA (1977) Acoustic localization in an ostariophysian fish. Experientia 33:1062–1063.
Schwartz E (1965) Bau und Funktion der Seitenlinie des Streifenhechtlings (Aplocheilus lineatus Cuv. u. Val.). Z vergl Physiol 50:55–87.
Schwartz E (1970) Ferntastsinnesorgane von Oberflächenfischen. Z Morphol Tiere 67:40–57.
Schwartz E (1971) Die Ortung von Wasserwellen durch Oberflächenfische. Z vergl Physiol 74:64–80.
Steen JB, Wilsson E (1990) How do dogs determine the direction of tracks? Acta Physiol Scand 139:531–534.
Teyke T (1985) Collision with and avoidance of obstacles by blind cavefish Anoptichthys jordani (Characidae). J Comp Physiol A 157:837–843
Teyke T (1988) Flow field, swimming velocity and boundery layer: parameters which affect the stimulus for the lateral line organ in blind fish. J Comp Physiol A 163:53–61.
Teyke T (1989) Learning and remembering the environment in the blind cavefish Anoptichthys jordani. J Comp Physiol A 164:655–662.
Tittel G (1985) Determination of stimulus direction by the topminnow, Aplocheilus lineatus. A model of two dimensional orientation with the lateral line system. In: Barth FG (ed) Verhandlungen der Deutschen Zoologischen Gesellschaft 78. Stuttgart: Gustav Fischer, p. 242.
Tittel G (1991) Verhaltensphysiologische, ultrastrukturelle und ontogenetische Studien am Seitenliniensystem von Aplocheilus lineatus. Ein vorläufiges Modell zur Richtungsdetermination von Beuteobjekten. PhD Thesis, University of Giessen, 445 pp.
Tittel G, Müller U, Schwartz E (1984) Determination of stimulus direction by the topminnow Aplocheilus lineatus. In: Varju D, Schnitzler HU (eds) Localization and Orientation in Biology and Engineering. New York: Springer-Verlag, pp. 69–72.
van Bergeijk WA (1964) Directional and nondirctional hearing in fish. In: Tavolga WN (ed) Marine Bio-acoustics. Oxford: Pergamon Press, pp. 281–299.
van Bergeijk WA (1967) The evolution of vertebrate hearing. In: Neff WD (ed) Contributions to Sensory Physiology, Vol. 2. New York: Academic Press, pp. 1–49.
von Campenhausen C, Riess I, Weissert R (1981) Detection of stationary objects in the blind cavefish Anoptichthys jordani (Characidae). J Comp Physiol A 143:369–374.
von Frisch K, Dijkgraaf S (1935) Können Fische die Schallrichtung Wahrnehmen? Z Vergl Physiol 2:641–655.
Weeg MS, Fay RR, Bass AH (2002) Directionality and frequency tuning of primary saccular afferents of a vocal fish, the plainfin midshipman (Porichthys notatus). J Comp Physiol A 188:631–641.
Weissert R, von Campenhausen C (1981) Discrimination between stationary objects by the blind cavefish Anoptichthys jordani. J Comp Physiol A 143:375–382.
Wojtenek W, Mogdans J, Bleckmann H (1998) The responses of midbrain lateral line units of the goldfish Carassius auratus to moving objects. Zoology 101:69–82.
Wubbels RJ, Schellart NAM (1997) Neuronal encoding of sound direction in the auditory midbrain of the rainbow trout. J Neurophysiol 77:3060–3074.
Wubbels RJ, Schellart NAM (1998) An analysis of the relationship between the response characteristics and topography of directional- and non-directional auditory neurons in the torus semicircularis of the rainbow trout. J Exp Biol 201:1947–1958.
Wubbels RJ, Schellart NAM, Goossens JHHLM (1995) Mapping of sound direction in the trout lower midbrain. Neurosci Lett 199:179–182.
Yan H, Fine ML, Horn NS, Colón WE (2000) Variability in the role of the gasbladder in fish audition. J Comp Physiol A 186:435–445.
Zittlau KE, Claas B, Münz H (1986) Directional sensitivity of lateral line units in the clawed toad Xenopus laevis Daudin. J Comp Physiol A 158:469–477.
Zottoli SJ, Faber DS (2000) The Mauthner cell: what has it taught us? Neuroscientist 6:26–38.
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2008 Springer Science+Business Media, LLC
About this chapter
Cite this chapter
Sand, O., Bleckmann, H. (2008). Orientation to Auditory and Lateral Line Stimuli. In: Webb, J.F., Fay, R.R., Popper, A.N. (eds) Fish Bioacoustics. Springer Handbook of Auditory Research, vol 32. Springer, New York, NY. https://doi.org/10.1007/978-0-387-73029-5_6
Download citation
DOI: https://doi.org/10.1007/978-0-387-73029-5_6
Publisher Name: Springer, New York, NY
Print ISBN: 978-0-387-73028-8
Online ISBN: 978-0-387-73029-5
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)