UDC [(597.554.3–11:547.235.2)+574.64](28)

SEASONAL CHANGES OF GENERAL BIOCHEMICAL INDEXES OF CARPS (CYPRINUS CARPIO) UNDER COMPOUND OF ALOCHTHONIC NITROGEN ACT

О. Potrohov, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Hydrobiology of Ukrainian National Academy of Sciences, Kуiv
O. Zinkovskiy, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Hydrobiology of Ukrainian National Academy of Sciences, Kуiv
N. Mogylevych, Institute of Hydrobiology of Ukrainian National Academy of Sciences, Kуiv

Influence allochthonous nitrogen on the contents of the total protein, lipids and glycogen in organs of a carp (Cyprinus carpio) is investigated. It is marked, that the balance between synthesis and utilization high-energy compounds depends on temperature of water, force of action of toxic loading and efficiency of functioning adaptable and compensatory mechanisms in an organism.

REFERENCES
1. Грубинко В.В. Роль глутамина в обеспечении азотистого гомеостаза у рыб (обзор) // Гидро- биол. журн. — 1991. — 27, № 4. — С. 46–56.
2. Практикум по биохимии / Под ред. С.Е. Северина, Г.А. Соловьевой. — М.: Изд-во МГУ, 1989. — 510 с.
3. Шульман Г.Е. Физиолого-биохимические показатели годовых циклов рыб. — М.: Лег. и пищ. пром-сть, 1972. — 368 с.
4. Шульман Г.Е., Аболмасова Г.И., Столбов А.Я. Использование белка в энергетическом обмене гидробионтов // Успехи совр. биол. — 1993. — Vol. 113, № 5. — С. 576–586.
5. Campbell J.W., Aster P.L., Vorhaben J.E. Mitochondrial ammoniagenesis in liver of the channel catfish (Ictalurus punctatus) // Am. J. Physiol. — 1983. — Vol. 244. — P. 709–717.
6. Frick N. T., Wright P.A. Alteration in the nitrogen menabolism of Rivulus marmoratus under con- ditions of prolonged air exposure — adaptations for survival // Fish Toxicology Fish Toxicology. Symposium proceedings. International Congress on the Biology of Fish University of Aberdeen, Scotland, July 23–27. — 2000. — P. 37–39.
7. Hayashi S., Kunihiro K., Itakura T., Ooshiro Z. Biochemical properties of glutamate dehydrogenase purified from eel liver // Bull. Jpn. Soc. Sci. Fish. — 1982. — Vol. 48. — P. 697–701.
8. Huey D.W., Beitinger T.L. A haemoglobin reductase system in channel catfish Ictalurus punctatus // Canadian Journal of Zoology. — 1982. — Vol. 60. — P. 1511–1513.
9. Knight J.A., Anderson Sh., Rawle J.M. Chemical basis of the sulfo-phospho-vanillin reaction for estimating total serum lipids // Clinical chemistry. — 1972. — Vol. 18, № 3. — P. 199–202.
10. Meinnelt T., Schreckenbach K., Stuber A., Steinbert C. Fischtoxizitat von nitric // Ficher und Teich- wirt. — 1997. — Vol. 48, № 10. — P. 421–426.
11. Perrone S.J., Meade T.L. Protective effect of chloride on nitrite toxicity to coho salmon (Oncorhy- nchus kisutch) // J. Fish. Res. Board Can. — 1977. — Vol. 34. — P. 486–492.
12. Saha N., Dutta S., Bhattacharjee A. Role of amino acid metabolism in an air-breathing catfish, Cla- rias batrachus in response to exposure to a high concentration of exogenous ammonia // Comp. Biochem. Physiol. — 2002, B133. — P. 235–250.
13. Smutna V., Vorlova Z., Svobodova Z. Pathobiochemistry of ammonia in the internal environment of fish (Review) // Acte Vet. Brno, 2002. — Vol. 71. — P. 169–181.
14. Yama-gata Y., Niva M. Токсичность нитрита для угрей // Суйсан дзоскку, Aquaculture, 1979. — Vol. 27, № 1. — С. 5–11.