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Abdel-Latif, H., Hassan, E. S. and von Campenhausen, C (1990). Sensory performance of blind Mexican cave fish after destruction of the canal neuromasts. Naturwissenschaften 77, 237-.[Medline]

Baker, C. F. and Montgomery, J. C (1999). Lateral-line mediated rheotaxis in the Antarctic fish Pusothenia borchgrevinki. Polar Biol 21, 305-.

Barber, V. C. and Emerson, C. J (1979). Cupula\320receptor cell relationships with evidence provided by SEM microdissection. Scanning Electron Microsc 3, 939-.

Braun, C. B. and Coombs, S (2000). The overlapping roles of the inner ear and lateral line: the active space of dipole source detection. Phil. Trans. R. Soc. Lond 355, 1115-.[Medline]

Conley, R. A. and Coombs, S (1998). Dipole source localization by mottled sculpin. III. Orientation after site-specific, unilateral blockage of the lateral line system. J. Comp. Physiol 183, 335-.

Coombs, S (1994). Nearfield detection of dipole sources by the goldfish, Carassius auratus and mottled sculpin, Cottus bairdi. J. Exp. Biol 190, 109-.[Abstract]

Coombs, S (1999). Signal detection theory, lateral line excitation348patterns and prey capture behavior of the mottled sculpin. Anim. Behav 58, 421-.[Medline]

Coombs, S. and Conley, R. A (1997). Dipole source localization by mottled sculpin. I. Approach strategies. J. Comp. Physiol 180, 387-.

Coombs, S. and Conley, R. A (1997). Dipole source localization by mottled sculpin. II. The role of lateral line excitation patterns. J. Comp. Physiol 180, 401-.

Coombs, S., Hastings, M. and Finneran, J (1996). Measuring and modeling lateral line excitation patterns to changing dipole source locations. J. Comp. Physiol 178, 359-.

Denton, E. J. and Gray, J. A. B (1982). The rigidity of fish and patterns of lateral line stimulation. Nature 297, 679-.[Medline]

Hoekstra, D. and Janssen, J (1986). Lateral line receptivity in the mottled sculpin ( Cottus bairdi ). Copeia 1986, 91-.

Janssen, J., Coombs, S., Hoekstra, D. and Platt, C (1987). Postembryonic growth and anatomy of the lateral line system in the mottled sculpin, Cottus bairdi (Scorpaeniformes: Cottidae). Brain Behav. Evol 30, 210-.[Medline]

Jones, W. R. and Janssen, J (1992). Lateral line development and feeding behavior in the mottled sculpin, Cottus bairdi (Scorpaeniformes: Cottidae). Copeia 1992, 485-.

Kroese, A. B. A. and Schellart, N (1992). Velocity-and acceleration-sensitive units in the trunk lateral line of the trout. J. Neurophysiol 68, 2212-.[Abstract/Free Full Text]

Kroese, A. B. A., van der Zalm, J. M. and van den Bercken, J (1978). Frequency response of the lateral-line organ of Xenopus laevis. Pflugers Arch 375, 167-.[Medline]

Lekander, B (1949). The sensory line system and the canal bones in the head of some Ostariophysi. Acta. Zool 30, 1-.

Montgomery, J. C., Baker, C. F. and Carton, A. G (1997). The lateral line can mediate rheotaxis in fish. Nature 389, 960-.

Montgomery, J. C., Carton, G., Voight, R., Baker, C. and Diebel, C (2000). Sensory processing of water currents by fish. Phil. Trans. R. Soc. Lond. B 355, 1325-.

Montgomery, J., Coombs, S. and Janssen, J (1994). Form and function relationships in the lateral line system: Comparative data from six species of Antarctic notothenioid fish. BrainBehav. Evol 44, 299-.[Medline]

Mukai, Y., Yoshikawa, H. and Kobayashi, H (1994). The relationship between the length of the cupulae of free neuromasts and feeding ability in larvae of the willow shiner Gnathopogon elongatus caerulescens (Teleostei, Cyprinidae). J. Exp. Biol 197, 399-.[Abstract]

Song, J., Hong, Y. Y. and Popper, A. N (1995). Damage and recovery of hair cells in fish canal (but not superficial) neuromasts after gentamycin exposure. Hearing Res 91, 63-.[Medline]

Strivastava, C. B. L. and Strivastava, M. D. L (1968). Lateral line organs in some teleosts: Cirrhina mrigala Ham. Buch (Cyrpinidae), Ophicephalus (Channa) punctatus Bloch (Channidae) and Gobius striatus Day (Gobiidae). J. Comp. Neurol 134, 339-.[Medline]

Webb, J. F. and Northcutt, R. G (1997). Morphology and distribution of pit organs and canal neuromasts in non-teleost bony fishes. Brain Behav. Evol 50, 139-.[Medline]

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This Article Summary Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Similar articles in PubMed Alert me to new issues of the journal Download to citation manager Citing Articles Citing Articles via HighWire Citing Articles via Google Scholar Google Scholar Articles by Coombs, S. Articles by Donovan, B. Search for Related Content PubMed PubMed Citation Articles by Coombs, S. Articles by Donovan, B.