[Amundsen P.-A., Gabler H.-M., Riise L.S. 2001 – Intraspecific food resource partitioning in Atlantic salmon (Salmo salar) parr in a subarctic river – Aquat. Living Resour. 14: 257-265.]Search in Google Scholar
[Bartelme D. 2006 – Metabolism, energy use and feeding behaviors in fish diseases – Advanced Aquarists 1: 3-26.]Search in Google Scholar
[Birt T.P., Green J.M. 1986 – Parr-smolt transformation in female and sexually mature male anadromous Atlantic salmon Salmo salar – Can. J. Fish. Aquat. Sci. 43: 680-686.10.1139/f86-082]Search in Google Scholar
[Botros M., Sikaris K.A. 2013 – The De Ritis Ratio: The Test of Time. – The Clinical Biochemist Reviews 34: 117-130.]Search in Google Scholar
[Bradford M.M. 1976 – A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding – Anaytical Biochemistry 72: 248-254.10.1016/0003-2697(76)90527-3]Search in Google Scholar
[Costantini D. 2018 – Meta-analysis reveals that reproductive strategies are associated with sexual differences in oxidative balance across vertebrates – Curr. Zool. 64: 1-11.10.1093/cz/zox002]Search in Google Scholar
[Dal Bosco A., Mugnai C., Roscini V., Castellini C. 2013 – Fillet fatty acid composition, estimated indexes of lipid metabolism and oxidative status of wild and farmed Brown Trout (Salmo trutta L.) – Ital. J. Food Sci. 25: 83-89.]Search in Google Scholar
[Debowski P., Glogowski J., Dobosz S., Robak S. 1999 – Gill Na+,K+-ATPase activity and body silvering as indices of smoltification of hatchery-reared sea trout – Arch. Pol. Fish. 7: 245-256.]Search in Google Scholar
[Dorohova I.I. 2013 – Sexual features of the activity of aminotransferases in the liver of Black Sea fishes. – In: Biodiversity and the role of animals in ecosystems, Adverta, Dnipropetrovsk: 90-91.]Search in Google Scholar
[Dziewulska K., Krzemieniecki A., Domagała J. 2008 – Basic physico-chemical parameters of milt from sea trout (Salmo trutta m. trutta), brook trout (Salvelinus fontinalis) and rainbow trout (Oncorhynchus mykiss)–J. Appl. Ichthyol. 24: 497-502.]Search in Google Scholar
[Eschenko N.D., Volski G.G. 1982 – Determination of succinic acid level and succinate dehydrogenase activity – In: Methods of biochemical study. Sankt-Petersburg National University, Leningrad (in Russian).]Search in Google Scholar
[Ferguson A, Reed TE, Cross TF, McGinnity P, Prodöhl PA. 2019 – Anadromy, potamodromy and residency in brown trout Salmo trutta: the role of genes and the environment – J. Fish Biol. 95: 692-718.]Search in Google Scholar
[Gabriel U.U., Akinrotimi O.A., Ariweriokuma V.S. 2012 – Changes in metabolic enzymes activities in selected organs and tissue of Clarias gariepinus exposed to cypermethrin – J. Environ. Eng. Tech. 1: 13-19.10.12691/aees-1-3-3]Search in Google Scholar
[Glatzle D., Vuilleumier J.P., Weber F., Decker, K. 1974 – Glutathione reductase test with whole blood, a convenient procedure for the assessment of the riboflavin status in human – Experientia 30: 665-666.]Search in Google Scholar
[Guéraud F., Atalay M., Bresgen N., Cipak A., Eckl P.M., Huc L., Jouanin I., Siems W., Uchida K. 2010 – Chemistry and biochemistry of lipid peroxidation products – Free Radic. Res. 44: 1098-1124.10.3109/10715762.2010.498477]Search in Google Scholar
[Halliwell B., Gutteridge J. 2007 – Free Radicals in Biology and Medicine. Fourth ed. – Oxford University Press, New York.]Search in Google Scholar
[Hensley K., Robinson K.A., Gabbita S., Salsman S., Floyd R.A., 2000 – Reactive oxygen species, cell signaling, and cell injury – Free Radical Biol. Med. 28: 1456-1462.10.1016/S0891-5849(00)00252-5]Search in Google Scholar
[Herasimov I., Plaksina O. 2000 – Non enzymatic determination of lactate and pyruvate concentrations in blood sample – Laboratorna Diagnostyka 2: 46-48 (in Ukrainian).]Search in Google Scholar
[Hochachka P.W., Somero G.N. 2002 – Biochemical adaptation: mechanism and process in physiological evolution. New York: Oxford University Press, 480 p.]Search in Google Scholar
[Jensen A.J., Johnson B.O. 1982 – Difficulties in aging Atlantic salmon (Salmo salar) and brown trout (Salmo trutta) from cold rivers due to lack of scales as yearlings – Can. J. Fish. Aquat. Sci. 39: 321-325.10.1139/f82-044]Search in Google Scholar
[Kamyshnikov V.S. 2004 – Reference book on clinic and biochemical researches and laboratory diagnostics. MEDpress-inform, Moscow (in Russian).]Search in Google Scholar
[Koroliuk M.A., Ivanova L.I., Majorova I.G., Tokarev V.E. 1988 – A method of determining catalase activity – Laboratornoe Delo 1: 16-19 (in Russian).]Search in Google Scholar
[Kostiuk V.A., Potapovich A.I., Kovaleva Zh.V. 1990 – A simple and sensitive method of determination of superoxide dismutase activity based on the reaction of quercetin oxidation. – Biomeditsinskaya Khimiya 36: 88-91 (in Russian).]Search in Google Scholar
[Kurhaluk N. 2019 – Formation of an antioxidant profile in the sea trout (Salmo trutta m. trutta L) from the Slupia River – Zoology 133: 54-65.10.1016/j.zool.2019.02.00230979390]Search in Google Scholar
[Kurhalyuk N., Tkachenko H., Palczynska, K. 2011a – Resistance of erythrocytes from brown trout (Salmo trutta m. trutta L.) affected by ulcerative dermal necrosis syndrome – Pol. J. Vet. Sci. 14: 443-448.10.2478/v10181-011-0065-021957739]Search in Google Scholar
[Kurhalyuk N., Tkachenko H., Palczynska K., Wysocka-Lipinska N. 2011b – The influence of ulcerative dermal necrosis on antioxidant defence system of spawn and milt of sea trout (Salmo trutta m. trutta L.) from basin of river Slupia during spawning – Słupskie Prace Biol. 8: 73-88.]Search in Google Scholar
[Laiz-Carrion R., Sangiao Alvarellos S., Guzman J., Martin M., Miguez J., Soengas J., Mancera J. 2002 – Energy metabolism in fish tissues related to osmoregulation and cortisol action: Fish growth and metabolism. Environmental, nutritional and hormonal regulation – Fish Physiol. Biochem. 27: 179-188.]Search in Google Scholar
[Lun L.M., Zhang S.C., Liang Y.J. 2006 – Alanine aminotransferase in amphioxus: Presence, localization and up-regulation after acute lipopolysaccharide exposure – J. Biochem. Mol. Biol. 39: 511-515.]Search in Google Scholar
[Maitre D., Selmoni O.M., Uppal M, Cunha L.M., Wilkins L.G. E., Roux J., Kenyon B. Mobley K.B., Castro I., Knörr S., Robinson-Rechavi M., Wedekind C. 2017 – Sex differentiation in grayling (Salmonidae) goes through an all-male stage and is delayed in genetic males who instead grow faster – Sci. Rep. 7: 15024.10.1038/s41598-017-14905-9567024329101375]Search in Google Scholar
[Martines-Alvares R.M., Morales A.E, Sanz A. 2005 – Antioxidant defenses in fish: Biotic and abiotic factors – Rev. Fish Biol. Fish. 15: 75-88.10.1007/s11160-005-7846-4]Search in Google Scholar
[Martínez P., Vińas A.M., Sánchez L., Díaz N., Ribas L. Piferrer F. 2014 – Genetic architecture of sex determination in fish: applications to sex ratio control in aquaculture – Front. Genet. 5: 340.10.3389/fgene.2014.00340417968325324858]Search in Google Scholar
[Moin V.M. 1986 – A simple and specific method for determining glutathione peroxidase activity in erythrocytes – Laboratornoe Delo 12: 724-727 (in Russian).]Search in Google Scholar
[Obolewski K. 2010 – Use of Macroinvertebrates as Bioindicators for the Assessment of Surface Water Quality in Urban Areas: A Case Study. – Ochr. Śr. 32: 35-42.]Search in Google Scholar
[Pedersen S., Christiansen R., Glusing H. 2006 – Comparison of survival, migration and growth in wild, offspring from wild (F1) and domesticated sea-run trout (Salmo trutta L.) – In: Sea Trout: Biology, Conservation and Management (Eds) G. Harris, N. Milner, Blackwell Publishing Ltd, Oxford.]Search in Google Scholar
[Pemberton R.G. 1976 – Sea trout in the North Argyll sea lochs; 1: Population, distribution and movements – J. Fish Biol. 9: 157-179.]Search in Google Scholar
[Phypers B., Pierce T. 2006 – Lactate physiology in health and disease – Contin. Educ. Anaesth. Crit. Care Pain 6: 128-132.10.1093/bjaceaccp/mkl018]Search in Google Scholar
[Pratten D.J., Shearer W.M. 1983 – Sea trout of the North Esc. – Fish Management 14: 49-65.10.1111/j.1365-2109.1983.tb00056.x]Search in Google Scholar
[Reitman S., Frankel S. 1957 – A colorimetric method for determination of serum oxaloacetic and glutamic pyruvic transaminases – Am. J. Clin. Pathol. 28: 56-63.10.1093/ajcp/28.1.5613458125]Search in Google Scholar
[Sevela M., Tovarek J. 1959 – A method for the estimation of lactic dehydrogenase – J. Czech Physiol. 98: 844-848.]Search in Google Scholar
[Shulman G.E., Love R.M. 1999 – The Biochemical Ecology of Marine Fishes – Advances in Marine Biology, Acad. Press, San Diego.]Search in Google Scholar
[Solan M., Whiteley N 2016 – Stressors in the Marine Environment: Physiological and ecological responses; societal implications – Oxford University Press, Oxford.10.1093/acprof:oso/9780198718826.001.0001]Search in Google Scholar
[Tkachenko H., Kurhaluk N., Andriichuk A., Gasiuk E., Beschasniu, S. 2014 – Oxidative Stress Biomarkers in Liver of Sea Trout (Salmo trutta m. trutta L.) affected by Ulcerative Dermal Necrosis Syndrome. – Turk. J. Fish. Aquat. Sci. 14: 391-402.10.4194/1303-2712-v14_2_09]Search in Google Scholar
[Zar J.H. 1999 – Biostatistical Analysis – 4th ed., Prentice Hall Inc., New Jersey.]Search in Google Scholar
[Zoremba N., Homola A., Rossaint R., Syková E. 2014 – Inter-stitial lactate, lactate/pyruvate and glucose in rat muscle before, during and in the recovery from global hypoxia – Acta Vet. Scand. 56: 72.]Search in Google Scholar