Chemosensory Orientation to Conspecifics and Rainbow Trout in Adult Lake Whitefish Coregonus Clupeaformis (Mitchill)

  • Gunnar Bertmar

Abstract

Functions subserved by chemosensory orientation (scanning the area for chemical cues) have been known for many years (Stoddart, 1980; Kleerekoper, 1982). Pheromones (chemical cues for communication within a species) have been implicated in a number of fish behaviours, including schooling, aggression, sexual attraction, individual recognition, recognition of offspring and parents, homing, recognition of predators, and alarming conspecifics (Pfeiffer, 1977, 1982). Both behavioural (Höglund and Åstrand, 1973; Newcombe and Hartman, 1973; Groot et al., 1986; Quinn and Tolson, 1986; Stabell, 1987) and physiological (Döving et al., 1974; Hara and McDonald, 1976; Olsén, 1989) experiments have demonstrated the existence of species- or population-specific chemical signals in salmonids. Reactions to pollutants have also been reported in salmonids (Bertmar, 1979, 1982; Brown et al., 1982). However, experiments have usually been performed on young and subadult fishes, and no chemical orientation between salmonid species (allomones) has been described.

Keywords

Rainbow Trout Test Fish Salmonid Species Salvelinus Alpinus Lake Whitefish 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Bertmar, G. 1978, Home range, migrations and orientation mechanisms of the River Indalsälven trout, Salmo trutta, Report Inst. Freshwater Research, Drottningh, 58: 5–26.Google Scholar
  2. Bertmar, G., 1982, Structure and function of the olfactory mucosa of migrating Baltic trout under environmental stresses, with special reference to water pollution, in “Chemoreception in Fishes”, Vol. 8, T.J. Hara, ed., Elsevier, Amsterdam.Google Scholar
  3. Bertmar, G., 1985, General ecology of primitive fishes, in “Evolutionary Biology of Primitive Fishes,” R.E. Foreman, A. Gorbman, J.M. Dodd and R. Olsson, eds., Plenum Press, London.Google Scholar
  4. Brown, S.B., Evans, R.E., Thompson, B.E. and Hara, T.J., 1982, Chemoreception and aquatic pollutants, in “Chemoreception in Fishes”, Vol. 8, T.J. Hara, ed., Elsevier, Amsterdam.Google Scholar
  5. Döving, K.B., Nordeng, H. and Oakley, B. 1974, Single unit discrimination of fish odours released by char ( Salmo alpinus L.) populations, Comp. Biochem. Physiol., 47A: 1051–1063.CrossRefGoogle Scholar
  6. Groot, C., Quinn, T.P., and Hara, T.J., 1986, Responses of migrating adult sockey salmon ( Onchorhynchus nerka) to population specific odours, Can. J. Zool., 64: 926–932.CrossRefGoogle Scholar
  7. Hara, T.J. and McDonald, S., 1976, Olfactory responses to skin mucous-substances in rainbow trout Salmo;;airdneri, Comp. Biochem. Physiol., 54A: 41–44.CrossRefGoogle Scholar
  8. Hara, T.J., McDonald, S., Evans, R.E., Mauri, T. and Arai, S., 1984, Morpholine, bile acids and skin mucus as possible chemical cues in salmonid homing: electrophysiological re-evaluation, in “Mechanisms of Migration in Fishes”, J.D. McCleave, G.P. Arnold, J.J. Dodson and W.H. Neill, eds., Plenum Press, London.Google Scholar
  9. Höglund, L.B. and Astrand, M., 1973, Preference among juvenile charr (Salvelinus alpinus) to intraspecii:ic odours and water currents studied with the fluviarium technique, Report Inst. Freshw. Res Drottningholm, 53: 21–30.Google Scholar
  10. Jones, K.A. and Hara, T.J., 1985, Behavioural responses of fishes to chemical cues: results from a new bioassay, J. Fish Biol., 27: 495–504.Google Scholar
  11. Kleerekoper, H. 1982, The role of olfaction in the orientation of fishes, in “Chemoreception in Fishes,” Vol. 8, T.J. Hara, ed., Elsevier, Amsterdam.Google Scholar
  12. Olsen, K.H., 1989, Sibling recognition in juvenile Arctic charr, Salvelinus alpinus ( L.), J. Fish Biol., 34: 571–581.CrossRefGoogle Scholar
  13. Newcombe, C. and Hartman, G., 1973, SOME chemical signals in the spawning behavior of rainbow trout (Salmo g_.irdneri). J. Fresh Res. Board Can., 30: 995–997.Google Scholar
  14. Pfeiffer, W. 1977, The distribution of fright reaction and alarm substance cells in fishes, Copeia, 77: 653–665.CrossRefGoogle Scholar
  15. Pfeiffer, W. 1982, Chemical signals in communication, in “Chemoreception in Fishes,” Volume 8, T.J. Hara, ec., Elsevier, Amsterdam.Google Scholar
  16. Quinn, T.P. and Tolson, G.M., 1986, Evidence of chemically mediated population recognition in coho salmon ( Oncorhynchus kisutch ), Can. J. Zool., 64: 84–87.CrossRefGoogle Scholar
  17. Stabell, O.B. 1987, Intraspecific pherorone discrimination and substrate marking by Atlantic salmon parr, J. Chem. Ecol., 13: 1625–1643.Google Scholar
  18. Stoddart, D.M., 1980, “The Ecology of Vertebrate Olfaction,” Chapman and Hall, London.Google Scholar

Copyright information

© Springer Science+Business Media New York 1992

Authors and Affiliations

  • Gunnar Bertmar
    • 1
  1. 1.Department of Animal EcologyUmeå UniversityUmeåSweden

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