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  • Comparison of corpus analysis and of fatty acid profiles between rainbow trout of river and farm (Oncorhynchus mykiss) and red speckled trout (Salmo trutta fario) from Haraz River

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Manuscript ID : 537683 Visit : 118 Page: 31 - 44

Article Type: Original Research

Comparison of corpus analysis and of fatty acid profiles between rainbow trout of river and farm (Oncorhynchus mykiss) and red speckled trout (Salmo trutta fario) from Haraz River

Subject Areas : Breeding and Aquaculture Sciences Journal

Niloofar Fallah 1 , Mehrnoush Norouzi 2 , Taghi Mohammadi Fotemi 3

1 - Ph.D. Candidate, Fishery Department, Babol Branch, Islamic Azad University, Babol, Iran
2 - Assistant Professor, Fishery Department, Tonekabon Branch, Islamic Azad University, Tonekabon, Iran
3 - Ph.D. Candidate, Fishery Department, Babol Branch, Islamic Azad University, Babol, Iran

Received: 2018-01-16 Accepted : 2018-01-16 Published : 2017-11-22

Keywords: Corpus analysis, Profiles of fatty acid, Rainbow trout of farm, Speckled trout,

Abstract :

The purpose of this study was to determine the chemical composition and fatty acid profile of muscle tissue in three groups of salmonids including:Rainbow trout river and farmed (Oncorhynchus mykiss) and red speckled trout (Salmo trutta fario(.A total of 27 rainbow trout of river and red speckled trout from the river Haraz and farmed fish were sampled from around the Haraz River. The samples were transferred frozen to the laboratory. The carcass composition biometry was conducted and then the fatty acid profiles were prepared with three replications. According to biometric and carcass analysis (ash, moisture, protein and fat), there was no significant difference between the three groups (P <0.05).The highest amount of saturated fatty acids content of (SFA) 24.85 ± 0.87, monounsaturated (MUFA) of 48.33 ± 1.06 and polyunsaturated fatty acid (PUFA) of 45.95 in river trout, speckled red and farmed there was a significant difference between the three species (p < 0.05). But in the omega-3, omega-6 EPA and DHA, there was no significant difference between species. The ratio of ω-3/ω-6 was higher than one in all species. The highest ratio of ω-3/ω-6 were observed in farmed trout 3.30± 0/625, red spotted trout 2.44± 0.458 and river trout 2.36± 0.706. In all three groups of ω-3/ω-6 was higher than the recommended dose of experts. Based on the results a river trout, farmed and red speckled trout are very rich in nutritional value.

References:


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_||_

  1. Alizadeh, M. (2000). Effects of dietary protein and energy levels in rainbow trout in brackish water. Iranian scientific Fisheries journal. 4(1): 78-88. (in Persian).
    2.
  2. Aberoumad, A., Pourshafi, K. (2010). Chemical and proximate composition properties of different fish species obtained from Iran. World journal of fish marine science. 2(3): 237‐239.
    3.
  3. Alasalvar, C. (2002).Seafoods: quality, technology and nutraceutical application an overview. In Seafoods-quality, technology and nutraceutical application. ed. Cesarettin Alasalvar and Tony Taylor, New York: Springer-Verlag Berlin Heidelberg. pp. 1-5.
    4.
  4. Alasalvar, C., Taylor, K.D.A., Zubcov, E., Shahidi, F., Alexis, M. (2002). Differentiation of cultured and wild sea bass (Dicentrarchus labrax): total lipid content, fatty acid and trace mineral composition. Food Chemistry. 79: 145-150.
    5.
  5. AOAC (Association of Official Analytic Chemists). (2005). Official Methods of Analysis AOAC, Washington DC.1963 p.
    6.
  6. Committee on Medical Aspects of Food Policy. (1994). Nutritional Aspects of Cardiovascular Disease, Department of Health Report on Health and Social Subjects, No. 46, HMSO, London.
    7.
  7. FAO, (2012). FAO Yearbook of fishery statistics. Food and Agriculture Organization of the United Nations, Rome.
    8.
  8. Hadizadeh, Z., Mouraki, N., Moeini, S. (2013). Detection of amino acid and fatty acid profiles in the meat of Talang queen (Scomberoides commersonnianus). Journal of Marine Biology.  5(1): 35-50. (in Persian).
    9.
  9. Ghomi, M.R., Jadid Dokhani, D., Hasandoost, M. (2011). Comparison of fatty acids and amino acids profile and proximate composition in rainbow trout (Oncorhynchus mykiss), common carp (Cyprinus carpio) and kutum (Rutilus frisii kutum). Journal of Fisheries. 5(4): 1-16. (in Persian).
    10.
  10. Holub, B. J. (1992). Potential health benefits of the omega-3 fatty acids in fish. University of Nova Scotia halifax, Canada. 63 p.
    11.
  11. Huss H.H. (1995). Quality and changes in fresh fish. FAO, Fisheries Technical Papers, 348 P.
    12.
  12. Jabeen, F., Chaudhry, A. S. (2011). Chemical compositions and fatty acid profiles of three freshwater fish species. Food Chemistry.125: 991–996.
    13.
  13. Kinsella, J.E., Shimp, J.L., Mai, J., Weihrauch, J. (1997). Fatty acid content and composition of freshwater finfish. Journal of American Oil Chemists Society. 54: 424-429.
    14.
  14. Kris-Etherton P.M., Harris W.S., Appel L.J. (2003). Fish consumption, fish oil, omega-3 fatty acids, and cardiovascular disease. Arteriosclerosis Thrombosis Vascular Biology.23: 20–31.
    15.
  15. Luzzana, U., Serrini, G., Moretti, V.M., Gianesini, C. (1994). Effect of expanded feed with high fish oil content on growth and fatty acid composition of rainbow trout. Aquaculture International. 2(4):239-248.
    16.
  16. New, M.B., Wijkstroem, U.N. (2002). Use of fishmeal and fish oil in aquafeeds. Further thoughts on the fishmeal trap. FAO Fisheries. Circular No. 975, Rome, Italy. 61 p.
    17.
  17. Millar, J.A., Wall-Manning, H.J. (1992). Fish Oil in Treatment of Hypertension.N. Z.Med. J., 105.pp. 155-163.
    18.
  18.  Muraleedharan, V., Antony, K. P., Perigreen, P. A., Gopakumar. (1996). Utilization of unconventional fish resources for surimi preparation. Proceeding of the second workshop on scientific results of FORV SAGAR sampada, dept. of ocean development, New Delhi, (India), pp. 539‐543.
    19.
  19. Murph, R. G., (1993). Handbook of lipids research, 7, Mass spectrometry of lipids. Plenum press. 290 p.
    20.
  20. Ojagh, S. M., Rezaei, M., Khorramgah, M. (2009). The investigation of nutritional composition and fatty acids in muscle of common carp (Cyprinus carpio) and grass carp (Ctenopharyngodon idella). Journal of Food Science and Technology. 6(1). 77-83. (in Persian).
    21.
  21. Osman, H., Suriah, A. R., Law, E. C. (2001). Fatty acid composition and cholesterol content of selected marine fish in malaysian waters. Food Chemistry.73: 55-60.
    22.
  22. Ozogul, Y., Ozogul, F., Alagoz, S. (2007). Fatty acid profiles and fat contents of commercially important seawater and freshwater fish species of Turkey: A comparative study. Food Chem. 103: 217-223.
    23.
  23. Palmeri. G., Turchini, G.M., De Silva, S.S. (2007). Lipid characterization and distribution in the fillet of the farmed Australian native fish, Murray cod (Maccullochella peelii). Food Chemistry. 102: 796–807.
    24.
  24. Pepping, J. (1999). Omega-3 essential fatty acids. Am. J. Health-Syst. Pharm. 56: 719-724.
    25.
  25. Periago, M.J., Ayala, MD., López-Albors, O., Abdel, I., Martínez, C., Garcia-Alcázar, A., Ros, G., Gil, F., (2005). Muscle cellularity and flesh quality of wild and farmed sea bass, Dicentrarchus labrax L. Aquaculture. 249: 175-188.
    26.
  26. Praparsi, P., Kunchit, J., Eakkarach, K. (1999). Proximate composition of raw and cooked Thai freshwater and marine fish. Journal of Food Composition and Analysis. 12: 9-16.
    27.
  27. Rasoarahona, J.R.E., Bamathan, G.B., Bianchi, J. P., Gaydou E. M. (2005). Influence of season on the lipid content and fatty acid profiles of three tilapia species (Oreochromis niloticus, O. macrochir and Tilapia rendalli) from Madagascar. Food Chemistry. 91: 683-694.
    28.
  28. Radrigo, J., Roso, G., Lopez, C., Ortuno, J. (1997). Proximate and mineral composition of dried salted roe of hake. Food Chemistry. 63: 221-225.
    29.
  29. Rehbein, H., Oehlenschläger, J. (2009). Fishery products Quality, Safety and Authenticity.
    30.
  30. Sathivel, S., Prinyawiwatkul, W., Grimm, C. C., King, M. J., Lioyd, S. (2002). Fatty acid composition of crude oil recovered from catfish viscera. Journal of American Oil Chemistry Society. 79: 989-992.
    31.
  31. Stansby, M.E. (1962). Proximate composition of fish. Fish in Nutrition. Ed by Erik Heen and Rudolf erenzer, Fishing News (Books) Ltd., Ludgate, 110 Fleet Street, London, E.C 4, England.
    32.
  32. Suriah, AR. Osman, H, Nik, M.D. (1995). Fatty acid composition of some Malaysian fresh water fish. Food Chem. 54: 45-49.
    33.
  33. Tucker, B. W., Pigott, G. M. (1990). Effects of technology on nutrition. Marcel Decker pub., New York. 243 p.
    34.
  34. Usydus, Z., Adamczyk, M. Szatkowska, U. (2011). Marine and farmed fish in the polish market: Comparison of the nutritional value, Food Chemistry. 126: 78-84.
    35.
  35. Vlieg, P., Body, D.R. (1988). Lipid contents and fatty-acid composition of some New-Zealand freshwater finfish and marine finfish, shellfish, and roes. New Zealand Journal of Marine and Freshwater Research. 22: 151-162.
    36.
  36. Ziyaiyannourbakh, H. (2012). Determine the fatty acid profile and ingredients in Otolithes ruber. Journal of food technology and nutrient. 4:77-84. (in Persian).
    37.

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