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The Tropical Abalone Haliotis Asinina as a Model Species to Investigate the Molecular and Cellular Mechanisms Controlling Growth in Abalone

  • Regina T. Counihan
  • Nigel P. Preston
  • Bernard M. Degnan
Chapter

Abstract

Many marine invertebrates, including bivalves (clams, oysters, mussels, cockles), gastropods (abalone, Trochus) and crustaceans (prawns, crabs, lobster), are being cultivated for food around the world. While success and expansion of these shellfish aquaculture industries depend upon the economical production of a marketable product, in many cases a species’ life history may impede progress in obtaining this goal. An understanding of the molecular and cellular bases of commercially-problematic life history features, such as prolonged or complex larval stages and slow growth rates, provides an essential foundation for future alleviation of this problem. This background information, along with the ability to produce transgenic animals, has the potential to improve growth and reproduction rates, disease resistance and other features of cultivated organisms (Degnan, 1997).

Keywords

Great Barrier Reef Slow Growth Rate Short Generation Time Marine Gastropod Diversicolor Supertexta 
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. Capinpin, E.C. 1995. Philippine J. Sci. 124, 215–232.Google Scholar
  2. Capinpin, E.C., Corre, K.G. 1996. Aquaculture 144, 81–89.CrossRefGoogle Scholar
  3. Chen, H. 1989. In: CRC Handbook of Culture of Abalone and Other Marine Gastropods (Ed. K. Hahn). CRC Press, Florida. pp. 265–283.Google Scholar
  4. Degnan, B.M. 1997. In: Molecular Approaches to the Study of the Ocean (Ed. K. Cooksey). Chapman and Hall, London, pp. 343–358.Google Scholar
  5. Degnan, B.M., Degnan, S.M., Morse, D.E. 1997. Dev. Genes Evol. 206, 464–471.CrossRefGoogle Scholar
  6. Degnan, B.M., Morse, D.E. 1993. Mol. Mar: Biol. Biotech. 2, 1–9.Google Scholar
  7. Ebert, E.E., Hamilton, R.M. 1983. Calif Fish Garne. 69, 115–120.Google Scholar
  8. Hahn, K.O. 1989. CRC Handbook of Culture of Abalone and Other Marine Gastropods. CRC Press, Florida.Google Scholar
  9. Kikuchi, S., Uki, N. 1974. Bull. Tohoku Reg. Fish. Res. Lab. 34, 73.Google Scholar
  10. Lee, Y.-H., Vacquier, V.D. 1995. Mar. Biol. 124, 267–278.CrossRefGoogle Scholar
  11. McNamara, D.C., Johnson, C.R. 1995. Mar. Freshwater Res. 46, 571–574.CrossRefGoogle Scholar
  12. Morse, D.E. 1984. Aquaculture. 39, 263–282.CrossRefGoogle Scholar
  13. Powers, D.A., Kirby, V.L., Cole, T., Hereford, L. 1995. Molc. Mar: Biol. Biotech. 4, 369–376.Google Scholar
  14. Siebert et al. 1995. Nucleic Acids Res. 23, 1087–1090.CrossRefGoogle Scholar
  15. Singhagraiwan, T., Sasaki, M. 199la. Thai Mar. Fish. Res. Bull. 2, 83–94.Google Scholar
  16. Singhagraiwan, T. Sasaki, M. 1991b. Thai Mar Fish. Res. Bull. 2, 95–100.Google Scholar

Copyright information

© Springer Science+Business Media New York 1998

Authors and Affiliations

  • Regina T. Counihan
    • 1
  • Nigel P. Preston
    • 2
  • Bernard M. Degnan
    • 1
  1. 1.Department of ZoologyUniversity of QueenslandBrisbaneAustralia
  2. 2.Division of Marine ResearchCSIROClevelandAustralia

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