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Structure and general distribution of free neuromasts in the black goby, Gobius niger

Published online by Cambridge University Press:  11 May 2009

N.J. Marshall
Affiliation:
St Andrews University, St Andrews, Fife, Scotland

Introduction

This paper on Gobius niger describes the ultrastructure of free neuromast papillae of both standard and mandibular types, emphasizing the polarity of the hair cells in each row or column. Evidence to suggest a functional difference between mandibular and standard neuromasts is reviewed, together with an hypothesis concerning the developmental origin of the mandibular row, relevant to the evolution of lateral line organs in general.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 1986

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References

REFERENCES

Blaxter, J. H. S., Gray, J. A. B. & Best, A. C. G., 1983. Structure and development of the free neuromasts and lateral line system of the herring. Journal of the Marine Biological Association of the United Kingdom, 63, 247260.Google Scholar
Denton, E. J. & Gray, J. A. B., 1982. The rigidity offish and patterns of lateral line stimulation. Nature, London, 297, 670681.Google Scholar
Dijkgraaf, S., 1963. The function and significance of the lateral line organs. Biological Reviews, 38, 51105.Google Scholar
Flock, A., 1965. Transducing mechanisms in the lateral line canal organ receptors. Cold Spring Harbor Symposia on Quantitative Biology, 30, 133145.Google Scholar
Iwai, T., 1967. Structure and development of lateral line cupulae in teleost larvae. In Lateral Line Detectors (ed. P., Cahn), pp. 2744. Indiana University Press.Google Scholar
Kuiper, J. W., 1967. Frequency characteristics and functional significance of the lateral line organ. In Lateral Line Detectors (ed. P., Cahn), pp. 105118. Indiana University Press.Google Scholar
Lowenstein, O., 1957. The acoustic-lateralis system. In The Physiology of Fishes, vol. 2 (ed. Brown, M. E.), pp. 155186. New York: Academic Press.Google Scholar
Miller, P. J., 1973. The osteology and adaptive features of Rhyacichthys aspro (Teleostei: Gobioidei) and the classification of gobioid fishes. Journal of Zoology, 171, 397434.Google Scholar
Miller, P. J. & El-Tawil, M. Y., 1974. A multidisciplinary approach to a new species of Gobius (Teleostei: Gobiidae) from southern Cornwall. Journal of Zoology, 174, 539574.Google Scholar
Pfüller, A., 1914. Beitra'ge zur Kenntnis der Seitensinnesorgane und Kopfanatomie der Macruriden. Zeitschrift für Naturwissenschaften, 52, 134.Google Scholar
Stensio, E. A., 1926. On the sensory canals of Pteraspis and Palaeaspis. Arkiv für zoologi, 18A (19), 14 pp.Google Scholar
Webb, C. J., 1980. Systematics of the Pomatoschistus minutus complex (Teleostei: Gobioidei). Philosophical Transactions of the Royal Society (B), 291, 201241.Google Scholar
White, E. I., 1935. The ostracoderm Pteraspis kaier and the relationships of the agnathous vertebrates. Philosophical Transactions of the Royal Society (B), 225, 381457.Google Scholar