PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2008 | 38 | 2 |

Tytuł artykułu

Gonadal differentiation in Atlantic cod, Gadus morhua L., and haddock, Melanogrammus aeglefinus [L.]

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Background. The purpose of this study was to determine the timing of gonadal differentiation in two gadoids: Atlantic cod, Gadus morhua L., and haddock, Melanogrammus aeglefinus (L.). This information is required to develop a practical protocol for the production of monosex populations of these species for aquaculture. Materials and Methods. Cultured larvae and juveniles were collected weekly, measured (total length; TL), prepared histologically and then examined microscopically for the presence of characteristic stages of gonadal differentiation. Results. In Atlantic cod, undifferentiated gonads were present by 18 mm TL, at 84 days post hatch (dph), and definitive germ cells by 19 mm TL (90 dph). Ovarian cavities were first observed at 27 mm TL (102 dph), and by 35 mm TL (112 dph) anatomical divergence into two types of gonads was clear. In haddock, undifferentiated gonads were observed at 21 mm TL (64 dph) and an ovarian cavity was evident at 29 mm TL (71 dph). Conclusion. Gonadal differentiation in Atlantic cod and haddock occurs at roughly the same size in both species (27 and 29 mm TL, respectively). For successful sex reversal, the administration of steroids should therefore begin at approximately 25 mm TL, shortly after weaning onto dry feed.

Wydawca

-

Rocznik

Tom

38

Numer

2

Opis fizyczny

p.127-133,fig.,ref.

Twórcy

autor
  • Department of Biology, University of New Brunswick, Fredericton NB, Canada
autor

Bibliografia

  • Bekkevold D., Hansen M.M., Nielsen E.E. 2006. Genetic impact of gadoid culture on wild fish populations: predictions,lessons from salmonids, and possibilities for minimizing adverse effects. ICES Journal ofMarine Science 63: 198–208.
  • Chiasson M., Benfey T.J. 2007. Gonadal differentiation and hormonal sex reversal in Arctic charr (Salvelinus alpinus).Journal of Experimental Zoology A 307: 527–534.
  • Devlin R.H., Nagahama Y. 2002. Sex determination and sex differentiation in fish: an overview of genetic, physiological,and environmental influences. Aquaculture 208: 191–364.
  • Felip A., Zanuy S., CarrilloM., Piferrer F. 2001. Induction of triploidy and gynogenesis in teleost fish with emphasis on marine species. Genetica 111: 175–195.
  • Hendry C.I., Martin-Robichaud D.J., Benfey T.J. 2002.Gonadal sex differentiation in Atlantic halibut. Journal of Fish Biology 60: 1431–1442.
  • Hendry C.I., Martin-Robichaud D.J., Benfey T.J. 2003.Hormonal sex reversal of Atlantic halibut (Hippoglossus hippoglossus). Aquaculture 219: 769–781.
  • Humason G. 1972. Animal Tissue Techniques. WH Freeman,San Francisco.
  • Jřrstad K.E., van der Meeren T., Paulsen O.I., Thomsen T.,Thorsen A., Svĺsand T. 2008. “Escapes” of eggs from farmed cod spawning in net pens: Recruitment to Wild stocks. Reviews in Fisheries Science 16: 285–295.
  • Kjesbu O.S., Taranger G.L., Trippel E.A. 2006. Gadoid mariculture:development and future challenges. ICES Journal of Marine Science 63: 187–191.
  • Laurence G.C., Rogers C.A. 1976. Effects of temperature and salinity on comparative embryo development and mortality of Atlantic cod (Gadus morhua L.) and paddock (Melanogrammus aeglefinus L.). ICES Journal of Marine Science 36: 220–228.
  • Morrison C.M. 1990. Histology of the Atlantic cod, Gadus morhua: an atlas. Part three. Reproductive tract. Canadian Special Publication of Fisheries and Aquatic Sciences 110:1–35.
  • Nakamura M. 1982. Gonadal sex differentiation in whitespotted char, Salvelinus leucomaenis. Japanese Journal of Ichthyology 28: 431–436.
  • Nakamura M., Kobayashi T., Chang X.T., Nagahama Y.1998. Gonadal sex differentiation in teleost fish. Journal of Experimental Zoology 281: 362–372.
  • Patińo R., Takashima F. 1995. Gonads. Pp. 128–153.In: Takashima F., Hibiya T. (eds.) An Atlas of Fish Histology,Normal and Pathological Features. Kodansha, Tokyo.
  • Peruzzi S., Kettunen A., Primicerio R., Kaurić G. 2007.Thermal shock induction of triploidy in Atlantic cod (Gadus morhua L.). Aquaculture Research 38: 926–932.
  • Piferrer F. 2001. Endocrine sex control strategies for the feminization of teleost fish. Aquaculture 197: 229–281.
  • Rommens M. 1997. Swim bladder inflation in paddock (Melanogrammus aeglefinus). MSc Thesis. Department of Biology, University of New Brunswick, Fredericton NB,Canada.
  • Rosenlund G., Skretting M. 2006.Worldwide status and perspective on gadoid culture. ICES Journal of Marine Science 63:194–197.
  • Sacobie C.F.D., Benfey T.J. 2005. Sex differentiation and Elary gonadal development in brook trout. North American Journal of Aquaculture 67: 181–186.
  • Strüssmann C.A., Nakamura M. 2002. Morphology,endocrinology and environmental modulation of gonadal sex differentiation in teleost fishes. Fish Physiology and Biochemistry 26: 13–29.
  • Takashima F., Patińo R., Nomura M. 1980. Histological studiem on the sex differentiation in rainbow trout. Bulletin of the Japanese Society of Scientific Fisheries 46: 1317–1322.
  • Trippel E.A., Benfey T.J.,Neil S.R.E.,Cross N., Blanchard M.J.,Powell F. 2008. Effects of continuous light and triploidy on growth and sexual maturation in Atlantic cod, Gadus morhua. Cybium 32 (Suppl. 2): 136–138.
  • van den Hurk R., Slof G.A. 1981. A morphological and experimental study of gonadal sex differentiation in the rainbow trout, Salmo gairdneri. Cell and Tissue Research 218:487–497.
  • van der Meeren T., Mangor-Jensen A., Pickova J. 2007.The effect of green water and light intensity on survival,growth and lipid composition in Atlantic cod (Gadus morhua) during intensive larval rearing. Aquaculture 265:206–217.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-5ed96ebf-031e-441c-9568-61386f76c253
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.