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Hydrobiological Journal
Editorial Board Executive Secretary: L.I. Kalinina (open in a new tab)

Published 6 issues per year

ISSN Print: 0018-8166

ISSN Online: 1943-5991

SJR: 0.221 SNIP: 0.469 CiteScore™:: 0.9 H-Index: 12

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Peculiarities of Hormonal Responses of Fishes under Temperature Water Thermal Fluctuations

Volume 55, Issue 5, 2019, pp. 72-80
DOI: 10.1615/HydrobJ.v55.i5.70
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ABSTRACT

The change of the hormones' content − prolactin, somatotropin and triiodothyronin in the blood plasma of perch, ruff, roach and redeye under the influence of temperature fluctuation was studied. It was shown, that increase of the water temperature above the climatic norm and periodic fluctuations of the oxygen concentration lead to significant decrease in the content of triiodothyronin, somatotropin and prolactin in blood plasma. Hormonal background in the blood plasma affects content of the energy compounds, particularly glycogen and total lipids. The obtained results indicate that the level of hormones in blood can be used in biomonitoring of the natural fish populations, forecast of the consequences of climatic changes and their effect on the physiological state of fishes.

REFERENCES
  1. Bolotovskiy, A.A. & V.A. Levin. 2012. Seasonal variability of triiodthyronine content in three species of Cyprinidae from the Rybinsk reservoir, the Volga basin. Pp. 54-57 in: Materialy Vseros. konf., Borok, 12 sent. 2012 g. (Proceedings of All-Russian conf., Borok, Sept.12, 2012.) Borok. [Rus.].

  2. Grebin, V.V. 2010. Suchasnyi vodnyi rezhim richok Ukrainy (landshaftno-gidrologichniy analiz) (Actual water regime of the rivers of Ukraine (landscape-hydrological analysis).) Kyiv, Nika-tsentr Press. 316 pp. [Ukr.].

  3. Kurylo, 2016. The main trends of the many-year changes of water mineralization and the main ions content in the rivers of Ukraine. Gidrologiya, gidrokhimiya i gidroekologiya 41: 85-90. [Ukr.].

  4. Niemova, N.N. 2010. Mechanisms of biochemical adaptation in the aquatic organisms. Pp. 198-214 in: Ekologicheskiye i evolutsionniye aspekty. (Ecological and evolutionary aspects.) [Rus.].

  5. Praktikum po biokhimiyi. Pod. red. S.Ye Severina, G.A. Soloviyevoy. 1989. (Training on bio-chemistry. Ed. by S.Ye Severin, G.A. Soloviyeva.) Moscow, Moscow University Publishing House. 509 pp. [Rus.].

  6. Romanenko, V.D., O.M. Arsan & V.D. Solomatina. 1991. Mekhanizmy temperaturnoy akklimatsii ryb. (Mechanisms of temperature acclimation in fishes.) Kyiv, Naukova Dumka Press. 192 pp. [Rus.].

  7. Sautin, Yu.Yu. 1986. On participation of the prolactin-like hormone of hypophysis in control of energy and structural lipids under changes of thermal conditions. Pp. 57 in: Energeticheskiy obmen u ryb. (Enwrgy metabolism in fishes.) Moscow. [Rus.].

  8. Shakhmatova, O.A. 2012. Aquatic organisms' response to stress factors of marine ecosystems. Ekosistemy, ikh optimizatsiya i okhrana 7: 98-113. [Rus.].

  9. Arjona, F.J., J. Ruiz-Jarabo, L. Vargas-Chacoff et al. 2010. Acclimation of Soleasene galensis to different ambient temperatures: implications for thyroidal status and osmoregulation. Mar. Biol. 157: 1325-1335.

  10. Davidson, M.B. 1987. Effect of growth hormone on carbohydrate and lipid metabolism. Endocr. Rev. 8: 115-231.

  11. Chang, J., M. Wang, W. Gui Znao et al. 2012. Changes in thyroid hormone levels during zebrafish development. Zool. Sci. 29: 181-184.

  12. Harris, J., P.M. Stanford, S.R. Oakes etal. 2004. Prolactin and the prolactin receptor: newtarget of an old hormone. Annals in Medicine 36: 414-426.

  13. Hochacka, P.W. & G.N. Somero. 2002. Biochemical adaptation mechanism and process in physiological evolution. New York, London: Oxford University Press. 466 pp.

  14. Manzon, L.A. 2002. The role of prolactin in fish osmoregulation: a review. Gen. Comp. Endocrinol. 125: 291-310.

  15. Janauer, G.A. 2012. Aquatic vegetationin river flood plains: Climate change effects, river restoration and ecohydrology aspects. Pp. 149-155 in: Climate change. New York: Springar.

  16. Potrokhov, O.S., O.G. Zinkovskyi, M.V. Prychepa & Y.M. Khudiyash. 2018. Tolerance of roach for modified water mineralization levels and temperatures expressed by biochemical in-dicators. Fisheries and aquatic life 26: 165-172.

  17. Prychepa, M.V. & O.S. Potrokhov. 2015. Physiological and biochemical status of fishes of the fam. Percidae in winter. Hydrobiol. J. 51(1): 90-97.

  18. Prychepa, M.V. & O.S. Potrokhov. 2016. Hormonal regulation of adaptive processes in fishes to impact of abiotic factors. Ibid. 52(3): 86-98.

  19. Sangiao-Alvarellos, S., R. Laiz-Carrion, J.M Guzman et al. 2003. Acclimation of S. auratato various salinities alters energy metabolism of osmoregulatory and nonosmoregulatory organs. Am. J. Physiol. Regul. lntegr. Comp. Physiol. 285: 897-907.

  20. Specker, J.L. 1988. Preadaptive role of thyroid hormone in larval and juvenile salmon: growth, the gut and evolutionary considerations. Am. Zool. 28: 337-349.

  21. Varghese, S. & O.V. Oommen. 1999. Thyroid hormones regulate lipid metabolism in a teleost Anabastes tudineus (Bloch.). Comp. Biochem. Physiol. B. 124: 445-450.

  22. Yousefian, M.S.E. 2011. The review of the effect of growth hormone on immune system, metabolism and osmoregulation offish. Austral. Basic and Appl. Sci. 5(5): 467-475.

  23. Weber, G.M. & E.G. Grau. 1999. Changes in serum concentrations and pituitary content of the two prolactins and growth hormone during the reproductive cycle in female tilapia, Oreochromis mossambicus, compared with changes during fasting. Comp. Biochem. Physiol. C. 124(3): 323-335.

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