The lateral line can mediate rheotaxis in fish

John C. Montgomery; Cindy F. Baker; Alexander G. Carton

doi:10.1038/40135

journal article Oct 01, 1997

The lateral line can mediate rheotaxis in fish

John C. Montgomery Cindy F. Baker Alexander G. Carton

Nature Vol. 389 No. 6654 pp. 960-963 · Springer Science and Business Media LLC

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References

16

[1]

Arnold, G. P. Rheotrophism in fishes. Biol. Rev. 49, 515–576 (1974). 10.1111/j.1469-185x.1974.tb01173.x

[2]

Münz, H. in The Mechanosensory Lateral Line Neurobiology and Evolution (eds Coombs, S., Gorner, P. & Münz, H.) 285–298 (Springer, New York, (1989)). 10.1007/978-1-4612-3560-6_14

[3]

Dijkgraaf, S. in The Mechanosensory Lateral Line Neurobiology and Evolution (eds Coombs, S., Gorner, P. & Münz, H.)7–14 (Springer, New York, (1989)). 10.1007/978-1-4612-3560-6_2

[4]

Montgomery, J. C., Coombs, S. & Halstead, M. Biology of the mechanosensory lateral line in fishes. Rev. Fish Biol. Fish. 5, 399–416 (1995). 10.1007/bf01103813

[5]

Coombs, S. & Montgomery, J. C. Function and evolution of superficial neuromasts in an antarctic notothenioid fish. Brain Behav. Evol. 44, 287–298 (1994). 10.1159/000113590

[6]

Montgomery, J. C. & Milton, R. C. Use of the lateral line for feeding in the Torrent fish (Cheimarrichthys fosteri). N Z J. Zool. 20, 121–125 (1993). 10.1080/03014223.1993.10422868

[7]

Montgomery, J. C. & Macdonald, J. A. Sensory tuning of lateral line receptors in Antarctic fish to the movements of planktonic prey. Science 235, 195–196 (1987). 10.1126/science.235.4785.195

[8]

Abdel-Latif, H., Hassan, E. S. & von Campenhausen, C. Sensory performance of blind Mexican cave fish after destruction of the canal neuromasts. Naturwissenschaften 77, 237–239 (1990). 10.1007/bf01138492

[9]

Karlsen, H. E. & Sand, O. Selective and reversible blocking of the lateral line in freshwater fish. J. Exp. Biol. 133, 249–262 (1987). 10.1242/jeb.133.1.249

[10]

Kroese, A. B. A. & van den Bercken, J. Effects of ototoxic antibiotics on sensory hair cell functioning. Hearing Res. 6, 183–197 (1982). 10.1016/0378-5955(82)90053-3

[11]

Song, J., Yan, H. Y. & Popper, A. N. Damage and recovery of hair cells in fish canal (but not superficial) neuromasts after gentamicin exposure. Hear. Res. 91, 63–71 (1995). 10.1016/0378-5955(95)00170-0

[12]

Montgomery, J. C. & Pankhurst, N. W. in Deep-sea Fish (eds Randall, D. J. & Farrell, A. P.) 325–349 (Academic, San Diego, (1997)). 10.1016/s1546-5098(08)60233-2

[13]

Able, K. P. & Able, M. A. Interactions in the flexible orientation system of a migratory bird. Nature 375, 230–232 (1995). 10.1038/375230a0

[14]

Baxter, J. H. S. & Fuiman, L. A. in The Mechanosensory Lateral Line Neurobiology and Evolution (eds Coombs, S., Gorner, P. & Münz, H.) 481–499 (Springer, New York, (1989)). 10.1007/978-1-4612-3560-6_24

[15]

Andriashev, A. P. & Jakubowski, M. Morphological grounds for generic separation of the Antarctic broadhead-fishes (Trematomus borchgrevinki) Boulenger and T. brachysoma Pappenheim) and a new status of the genus Pagothenia Nichols et Lamonte (Nototheniidae). Zool. Zh. 50, 1041–1055 (1971).

[16]

Schemmel, C. Vergleichende Untersuchungen an den Hautsinnesorganen ober- und unterirdisch lebender Astyanax-Formen ein Beitrag zur Evolution der Cavernicolen. Z. Morphol. Tiere 61, 255–316 (1967). 10.1007/bf00400988

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Published: Oct 01, 1997
Vol/Issue: 389(6654)
Pages: 960-963
License: View

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Cite This Article

John C. Montgomery, Cindy F. Baker, Alexander G. Carton (1997). The lateral line can mediate rheotaxis in fish. Nature, 389(6654), 960-963. https://doi.org/10.1038/40135

The lateral line can mediate rheotaxis in fish

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