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2004 | 34 | 1 |

Tytuł artykułu

Parasitological aspects and biochemical changes of infected cultured tilapia [Oreochromis hybrid]

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Background. Fish farming has been developed due to decline of traditional fishing where tilapia culture is one of the principal sources for fish production. This study was aimed to investigate the prevalence and impact of helminth infection on the health of cultured hybrid tilapia, Oreochromis sp. Materials and Methods. Prevalence and intensity of helminth infection and histopathological response of infected organs were studied. Changes of biochemical composition, and protein electrophoritic pattern, and heavy metals levels of liver and muscle tissues were determined. Results. Helminth infection was restricted to the liver of 60% of the examined fish. Of this number 33% were infected by undifferentiated nematode larvae and heterophyid metacercariae while 67% showed the metacercarial infection only. Infection caused a noticeable alternation in histological architecture of the liver that was accompanied by depletion in hepatic glycogen, total lipids, and total protein. Moreover, biochemical components of the muscle tissues were significantly decreased along with intensity of infection. Protein fractions of the liver and muscle tissues were highly variable. Intensity of the parasitic infection was directly correlated with Fe and Mn levels in both liver and muscle. Conclusion. s. Cultured fish also suffered from helminth infection that significantly impaired the health and condition of fish as shown by histopathological, biochemical, and protein fractions changes recorded in this study. In additions, intensity of helminth infection might increase the capacity of infected organs in accumulation of heavy metals.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

34

Numer

1

Opis fizyczny

p.21-31,fig.,ref.

Twórcy

  • Suez Canal University, Ismailia, Egypt

Bibliografia

  • Anonymous, 1981. Manganese. Environmental Health Criteria 17, World Heath Organisation, Geneva.
  • Arthur J.R., Lumanlan-Mayo S., 1997. Checklist of the parasites of fishes of the Philippines. FAO Fisheries Technical Paper 369.
  • de Bruin A.D., 1976. Biochemical toxicology of environmental agents. Elsevier, New York.
  • Canli M., Ay Ö., Kalay M., 1998. Levels of heavy metals (Cd, Pb, Cu, Cr and Ni) in tissues of Cyprinus carpio, Barbus capito and Chondrostoma regium from the Seyhan River, Turkey. Turkish Journal of Zoology 22: 149–157.
  • Carroll N.V., Longley R.W., Roe J.H., 1956. The determination of glycogen in liver and muscle by use of anthrone reagent. Journal of Biochemistry 220: 583–593.
  • Ellen G., Egmond E., van Loon J.W., Sahertian E.T., Tolsma K. et al. (1990). Dietary intakes of some essential and non-essential trace elements, nitrate, nitrite, and Nnitrosamines,by Dutch adults: estimated via a 24-hour duplicate portion study. Ford Additives and Contaminants 7: 207–221.
  • Esch G.W., Fernandez J.C., 1993. A functional biology of parasitism: ecological and evolutionary implications. Chapman and Hall, London.
  • Etienne M., Jérôme M., Fleurence J., Rehbein H., Kündiger R., Yman I.M., Ferm M.,Craig A., Mackie I., Jessen F., Smelt A., Luten J., 1999. A standardized method of identification of raw and heat-processed fish by urea isoelectronic focusing: a collaborative study. Electrophoresis 20: 1923–1933.
  • Fijan N., 1999. Spring viraemia of carp and other viral diseases and agents of warm-water fish. pp. 177–244. In: Woo P.T.K., Bruno D.W. (eds.) Fish diseases and disorders. Volume 3. Viral, bacterial and fungal infections. CABI Publishing, Wallingford, UK.
  • Guyton A.C., 1961. Textbook of medical physiology 2nd edition. Saunders Philadelphia and London.
  • Hamza-Chaffai H.A., Amiard J.C., Cosson R.P., 1999. Relationship between metallothioneins and metals in a natural population of the clam, Ruditapes decussatus from Sfax coast: a non-linear model using Box-Cox transformation. Comparative Biochemistry and physiology C 123: 153–163.
  • Hrubec T.C., Cardinale J.L., Smith S.A., 2000. Hematology and plasma chemistry reference intervals for cultured tilapia (Oreochromis hybrid). Veterinary Clinical Pathology 29 (1): 7–12.
  • Kabata Z., 1985. Parasites and diseases of fish cultured in the tropics. Taylor and Francis,Philadelphia.
  • Lim L.H.S., 1990. Silurodiscoides Gussev, 1961 (Monogenea: Ancyrocephalidae) from Pangasius sutchi Flowler, 1931 (Pangasiidae) cultured in peninsular Malaysia. Raffles Bulletin of Zoology 38: 55–63.
  • Lim L.H.S., 1991. Fish parasites in integrated farming systems in peninsular Malaysia. Proceedings of the FAO/IPT international workshop on integrated livestock-fish production systems. Kuala Lumpur, Malaysia, December 16–20, 1991. pp. 127–134.
  • Lio-Po G.D., Lim, L.H.S., 2002. Infectious diseases of warmwater fish in fresh water. pp.231–281. In:Woo P.T.K., Bruno D.W., Lim L.H.S. (eds.). Diseases and disorders of finfish in cage culture. CABI Publishing, Wallingford, UK.
  • Mackie I., Craig A., Etienne M., Jérôme M., Fleurence J., Jessen F., Smelt A., Krujit A.,Malmheden-Yman I., Ferm M., Martinez I., Perez-Martin R., Pińeiro C., Rehbein H.,Kündiger R., 2000. Species identification of smoked and gravad fish products by sodium dodecylsulphate polyacrylamide gel electrophoresis urea isoelectric focusing and native isoelectric focusing: Acollaborative study. Food Chemistry 71: 1–7.
  • Paperna I., 1991. Diseases caused by parasites in the aquaculture of warm water fish. Annual Review of Fish Diseases 1: 155–194.
  • Paperna I., 1996. Parasites, infections and diseases of fishes in Africa. An update. CIFA Technical Paper 31.
  • Popma T., Masser M., 1999. Tilapia: life history and biology. Southern Regional Aquaculture Center Publication 283.
  • Rottmann R.W., Francis-Floyd R., Durborow R., 1992. The role of stress in fish disease.Southern Regional Aquaculture Center Publication 474.
  • Smedes F., Thomasen T.K., 1996. Evaluation of the Bligh and Dyer lipid determination method. Marine Pollution Bulletin 32 (8/9): 681–688.
  • Sorensen J.L., 1991. 133Xenon absorption into rubber-protected portable cadmium telluride (CdTe(Cl)) detectors invalidating the 133Xenon washout method for measurement of cutaneous and subcutaneous blood flow rates in man. Acta Physiologica Scandinavica (603): 125–131.
  • Stentiford G.D., Longshaw M., Lyons B.P., Jones G., Green M., Feist S.W., 2003.Histopathological biomarkers in estuarine fish species for the assessment of biological effects of contaminants. Marine Environmental Research 55 (2): 137–159.
  • Sures B., 2001. The use of fish parasites as bioindicators of heavy metals in aquatic ecosystems: a review Aquatic Ecology 35 (2): 245–255.
  • Sures B., Taraschewski H., Rydlo M., 1997. Intestinal fish parasites as heavy metal bioindicators: a comparison between Acanthocephalus lucii (Palaeacanthocephala) and the zebra mussel, Dreissena polymorpha. Bulletin of Environmental Contamination and Toxicology 59: 14–21.
  • Taraschewski H., 2000. Host-parasite interactions in Acanthocephala: a morphological approach. Advances in Parasitology 46: 1–179.
  • Watson C., Yanong R. P., 2002. Use of copper in freshwater aquaculture and farm ponds. Fact Sheet FA-13, Institute of Food and Agricultural Sciences, University of Florida.
  • Zaghloul K.H., Abd El-Monem S., Fayed H.M., Mohamed H.A., 2001. Fish parasites as biological indicators of pollution with heavy metals. Journal of Union of Arab Biologists A 15: 533–561.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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