fet Seasonal Variations of Proximate and Total Fatty Acid Composition of Wild Brown Trout in Munzur River, Tunceli-Turkey

Yıl 2013, , - , 01.08.2013

Mehmet Ateş Gül Çelik Çakıroğulları Mehmet Kocabaş Murathan Kayım Erkan Can Volkan Kızak

https://doi.org/10.4194/1303-2712-v13_4_06

Öz

Bu çalışmada Munzur Nehri, Tunceli-Türkiye’den yakalanan doğal kahverengi alabalıkların (Salmo trutta macrostigma Dumeril, 1858) vücut kompozisyonu ve yağ asidi profillerinin mevsimsel olarak değişimi araştırılmıştır. Doğal kahverengi alabalıkların en çoktan aza doğru sırasıyla mono-doymamış, çoklu-doymamış ve doymuş yağ asitlerini içerdiği tespit edilmiştir. C18:1 ω-9 (oleik asit) %20,27-29,35 arasında değişen oranlarla birlikte bütün mevsimlerde en baskın yağ asidi olarak bulunmuştur. C22:6 ω-3 (dokosahekzaenoik asit-DHA), C18:3 ω-3c (cis-linolenik asit), C18:2 ω-6c (linoleik asit) ve C20:5 ω-3 (eikosapentaenoik asit-EPA) çoklu doymamış yağ asitleri arasında en baskın olanlarıdır. Sonuç olarak, vücut ve yağ kompozisyonu açısından değerlendirilmiş besinsel kalite sonuçlarına göre, Munzur nehri’nde yaşayan doğal kahverengi alabalıkların önemli bir protein ve ω-3 yağ asidi kaynağı olduğu düşünülebilir.

Anahtar Kelimeler

Salmo trutta macrostigma, çoklu doymamış yağ asitleri, besinsel kalite.

fet Seasonal Variations of Proximate and Total Fatty Acid Composition of Wild Brown Trout in Munzur River, Tunceli-Turkey

Öz

Seasonal variations of proximate composition and fatty acid profiles of wild brown trout (Salmo trutta macrostigma Dumeril, 1858) caught from the Munzur River, Tunceli-Turkey were investigated in this study. It was determined that wild brown trout was high in mono-unsaturated, poly-unsaturated and saturated fatty acids, respectively. C18:1 ω-9 (oleic acid) was the most abundant fatty acid in all seasons ranging from 20.27 to 29.35 %. C22:6 ω-3 (docosahexaenoic acid-DHA), C18:3 ω-3c (cis-linolenic acid), C18:2 ω-6c (linoleic acid), and C20:5 ω-3 (eicosapentaenoic acid-EPA) were found to be predominant fatty acids in PUFAs. As a conclusion, wild brown trout living in Munzur river could be considered as an important protein and ω-3 fatty acid source according to the nutritional quality results evaluated in terms of proximate and fatty acid composition.

Anahtar Kelimeler

Salmo trutta macrostigma, polyunsaturated fatty acids, nutritional quality

Kaynakça

• Ackman, R.G. 1989. Nutritional composition of fats in seafoods. Progress in Food and Nutrition Science, 13: 161–241.
• Ackman, R.G. 2000. Fish is more than a brain food. IIFET 2000. Proceedings. Canadian Institute of Fisheries Technology Dalhouise University Halifax, Nova Scotia, Canada. 6 pages.
• Akpinar, M.A., Görgün, S. and Akpinar, A.E. 2009. A comparative analysis of the fatty acid profiles in the liver and muscles of male and female Salmo trutta macrostigma. Food Chemistry, 112: 6– doi:1016/j.foodchem.2008.05.025
• AOAC. 1995. Official Methods of Analysis of the Association of Official Analytical Chemists. 16th ed. Edited by Patricia Cunniff. Arlington, VA, USA.
• Aras, N.M., Bayır, A., Sirkecioglu, A.N., Bayır, M., Aksakal, E. and Haliloglu, H.I. 2009. Seasonal changes in antioxidant defense system of livers and gills of Salmo trutta caspius, Salmo trutta labrax and Salmo trutta macrostigma. Journal of Fish Biology, 74: 842-856. doi:10.1111/j.1095-8649.2008.02164.x
• Aras, N. M., Haliloğlu, H. İ., Bayır, A., Atamanalp, M. and Sirkecioğlu, A. N. 2003. Karasu Havzası Yeşildere Çayı olgun dere alabalıkları (Salmo trutta macrostigma, Dumeril, 1858)'nda farklı dokuların yağ asidi kompozisyonlarının karşılaştırılması. Turkish Journal of Veterinary and Animal Sciences, 27: 8878
• Arslan, M., Sirkecioglu, N., Bayir, A., Arslan, H. and Aras, M. 20 The influence of substitution of dietary fish oil with different vegetable Oils on performance and fatty acid composition of brown trout, Salmo trutta. Turkish Journal of Fisheries and Aquatic Sciences, 12: 391-399. doi: 10.4194/1303-2712-v12_3_04
• Arts, M. T., Ackman, R. G. and Holub, B. J. 2001. “Essential fatty acids” in aquatic ecosystems: A crucial link between diet and human health and evolution. Canadian Journal of Fisheries and Aquatic Sciences, 58: 122–137. doi: 1139/f00-224
• Bayır, A., Sirkecioglu, A. N., Aras, M. N., Aksakal, E., Haliloglu, H. I. and Bayır, M. 2010. Fatty acids of neutral and phospholipids of three endangered trout: Salmo trutta caspius Kessler, Salmo trutta labrax Pallas and Salmo trutta macrostigma Dumeril. Food Chemistry, 119: 1050–1056. doi:1016/j.foodchem.2009.07.064
• Çelik, M., Diler, A. and Küçükgülmez, A. 2005. A comparison of the proximate compositions and fatty acid profiles of zander (Sander lucioperca) from two different regions and climatic conditions. Food Chemistry, 92: 637–641. doi:1016/j.foodchem.2004.08.026
• EN ISO 5508. 1990. Animal and vegetable fats and oils—
• Analysis by gas chromatography of methyl esters of fatty acids. EN ISO 5509. 2000. Animal and vegetable fats and oils— Preparation of methyl esters of fatty acids.
• Gökçe, M. A., Taşbozan, O., Çelik, M. and Tabakoğlu, S. S. 200 Seasonal variations in proximate and fatty acid compositions of female common sole (Solea solea). Food Chemistry, 88: 419–423. doi:1016/j.foodchem.2004.01.051
• Henderson, R.J. and Tocher, D.R. 1987. The lipid composition and biochemistry of freshwater fish. Progress in Lipid Research, 26: 281–347.
• Hunter, B.J. and Roberts, D.C.K. 2000. Potential impact of the fat composition of farmed fish on human health. Nutrition Research, 20: 1047-1058. Jabeen, F. and Chaudhry, A.S. 20 Chemical compositions and fatty acid profiles of three freshwater fish species. Food Chemistry, 125: 991996 . doi:10.1016/j.foodchem.2010.09.10
• Kaushik, S. J., Corraze, G., Radunz-Neto, J., Larroquet, L. and Dumas, J. 2006. Fatty acid profiles of wild brown trout and Atlantic salmon juveniles in the Nivelle basin. Journal of Fish Biology, 68: 1376–1387. doi:1111/j.1095-8649.2006.01005.x
• Kayım, M., Öksüz, A., Özyılmaz, A., Kocabaş, M., Can, E., Kızak, V. and Ateş, M. 2011. Proximate composition, fatty acid profile and mineral content of wild brown trout (Salmo trutta sp.) from Munzur River in Tunceli, Turkey. Asian Journal of Chemistry, 23: 3533-3537.
• Kris-Etherton, P. M., Harris, W. S. and Appel, L.J. 2002. Fish consumption, fish oil, omega-3 fatty acids, and cardiovascular disease. Circulation, 106: 2747–2757. doi: 1161/01.CIR.0000038493.65177.94
• Lauritzen, L., Hansen, H. S., Jorgensen, M. H. and Michaelsen, K. F. 2001. The essentiality of long chain n-3 fatty acids in relation to development and function of the brain and retina. Progress in Lipid Research, 40: 1–94.
• Love, R. M. 1997. Biochemical dynamics and the quality of fresh and frozen fish. In G. M. Hall (Ed.), Fish processing technology 1–31. London, UK. Blackie Academic and Professional.
• Rose, D. P. 1997. Dietary fatty acids and cancer. The American Journal of Clinical Nutrition, 66 (Suppl): 998–1003.
• Sargent, J., Bell, G., McEvoy, L., Tocher, D. and Estevez, A. 1999. Recent developments in the essential fatty acid nutrition of fish. Aquaculture, 177: 191–199.
• Sidhu, K.S. 2003. Health benefits and potential risks related to consumption of fish or fish oil. Regulatory Toxicology and Pharmacology, 38: 336–344. doi:1016/j.yrtph.2003.07.002 Smedes, F. and Thomasen, T.K. 1996. Evaluation of the Bligh and Dyer lipid determination method. Marine Pollution Bulletin, 32: 681–688.
• Sushchik, N.N., Gladyshev, M.I. and Kalachova, G.S. 2007. Seasonal dynamics of fatty acid content of a common food fish from the Yenisei river, Siberian grayling, Thymallus arcticus. Food Chemistry, 104: 1353– 13 doi:10.1016/j.foodchem.2007.01.050
• Şahin, Ş. A., Başçınar, N., Kocabaş, M., Tufan, B., Köse, S. and Okumuş, İ. 2011. Evaluation of meat yield, proximate composition and fatty acid profile of cultured brook trout (Salvelinus fontinalis Mitchill, 1814) and Black Sea Trout (Salmo trutta labrax Pallas, 1811) in comparison with their hybrid. Turkish Journal of Fisheries and Aquatic Sciences, 11: 2612 doi: 10.4194/trjfas.2011.0211
• Tapiero, H., Nguyen Ba, G., Couvreur, P. and Tew, K. D. 200 Polyunsaturated fatty acids and eicosanoids in human health and pathologies. Biomedicine Pharmacotherapy, 56: 215 222. Turchini, G.M., Mentasti, T., Frİyland, L., Orban, E., Caprino, F., Moretti, V. M. and Valfre´, F. 2003. Effects of alternative dietary lipid sources on performance, tissue chemical composition, mitochondrial fatty acid oxidation capabilities and sensory characteristics in brown trout (Salmo trutta L.). Aquaculture, 225: 251–267. doi:10.1016/S00448486(03)00294-1
• Watkins, B.A., Li, Y., Lippman, H. E. and Feng, S. 2003. Modulatory effect of omega-3 polyunsaturated fatty acids on osteoblast function and bone metabolism. Prostaglandins, Leukotrienes and Essential Fatty Acids, 68: 387–398. doi:1016/S09523278(03)00063-2