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2013 | 31 | 4 |
Tytuł artykułu

Fatty acid composition of yolk of nine poultry species kept in their natural environment

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Fatty acid (FA) composition of eggs from nine poultry species was determined chromatographically.Twenty six FAs were determined in the lipid composition of eggs. Monounsaturated fatty acids (MUFA) were found in higher amounts than saturated fatty acids (SFA) and polyunsaturated fatty acids (PUFA) in egg yolks. Oleic acid (C18:1 n9) was the major MUFA in egg yolk and, palmitic acid (C16:0) was the major SFA in nine of all different originated eggs. Linoleic acid (C18:2 n6),arachidonic acid (C20:4 n6) and linolenic acid (C18:3 n3), reached the highest levels among the PUFAs. SFA/PUFA ratios were found to be 0.97, 2.51, 2.20, 1.46, 1.67, 1.40, 1.96, 1.27, and 1.34 in chicken, goose, duck, turkey, peacock, guinea fowl, pheasant, quail and partridge, respectively.Eggs of all nine species were found valuable for human consumption as fatty acids source, but the chicken’s egg occured to be the most beneficial to human health according to its highest omega 6 fatty acid (29.8%), highest PUFA / MUFA ratio (0.80) and lowest of SFA / PUFA ratio (0.97).
Opis fizyczny
  • Department of Animal Nutrition and Nutritional Disorders, Faculty of Veterinary Medicine, Selcuk University, Konya 42250 Turkey
  • Department of Animal Science, Faculty of Veterinary Medicine, Selcuk University, Konya 42250 Turkey
  • Bean L.D., Lees on S., 2003 – Long-term effects of feeding flaxseed on performance and egg fatty acid composition of brown and white hens Poultry Science 82, 388-394..
  • Cachaldora P., Garcia -Rebollar P., Alvarez C., De Blas J.C., Mendez J., 2008 – Effect of type and level of basal fat and level of fish oil supplementation on yolk fat composition and n-3 fatty acids, deposition efficiency in laying hens. Animal Feed Science and Technology 141,104-114.
  • Chen T.F., Hsu J.C., 2003 – Incorporation of n-3 long-chain polyunsaturated fatty acids into duck egg yolks. Asian-Australian Journal of Animal Science 16(4), 565-569.
  • Chow K.C., 1992 – Fatty acids in foods and their health implications Marcel Dekker Press, New York, NY.
  • Citil O.B., Yildirim I., Parlat S.S., 2011 – The effects of dietary flaxseed oil supplementations on fatty acids composition of the yolks in quail (Coturnix coturnix japonica) eggs. Journal of the Faculty of Veterinary Medicine, Kafkas University 17 (5) 761-766.
  • Dyerberg J., 1986 – Linolenate-derived polyunsaturated fatty acids and prevention of atherosclerosis Nutrition Reviews 44, 125-134,.
  • Eder , K., 1995 – Gas chromatographic analysis of fatty acid methyl esters. Journal of Chromatography 671, 113-131.
  • FAO: STATISTICAL Database . 2011 – Available at: Rome, Italy.
  • Folch J., Lees M., Sloane Stanley G.H., 1957 – A simple method for the isolation and purification of total lipids from animal tissues. Journal of Biological Chemistry 226, 497-509
  • Hidalgo A., Rossi M., Clerici F., Ratti , S., 2008 – A market study on the quality characteristics of eggs from different housing systems. Food Chemistry 106, 1031-1038.
  • Hoffman D.R., Theuer R.C., Casta ńeda Y.S., Wheat on D.H., Bosw orth R.G.,O’Conn or A.R., Morale S.E., Wiedemann L.E., Birch E.E., 2004 – Maturation of visual acuity is accelerated in breast-fed term infants fed baby food containing DHA-enriched egg yolk.Journal of Nutrition 134, 2307-2313.
  • Krawczyk J., Sokolowicz Z., Szymczyk B., 2011 – Effect of housing system on cholesterol, vitamin and fatty acid content of yolk and physical characteristics of eggs from Polish native hens. Archiv für Geflugelkunde 75 (3), 151-157.
  • Krimpen M.V., Veldkamp T., Binnendijk G., De Veer R., 2011 – Effect of four processed animal proteins in the diet on behavior in laying hens, Applied Animal Behaviour Science 132,138-145.
  • Milinsk M.C., Murakami A.E., Gomes S.T.M., Matsushita M., De Souza N.E. 2003 – Fatty acid profile of egg yolk lipids from hens fed diets rich in n-3 fatty acids. Food Chemistry 83,287-292.
  • Mustonen A.M., Kakela R., Asikainen J., Nieminen P. 2009 – Selective fatty acid mobilization from adipose tissues of the pheasant (Phasianus colchicus mongolicus) during food deprivation. Physiological and Biochemical Zoology 82 (5), 531-540.
  • Parlat S.S., Citil O. B., Yildirim I. 2010 – Effects of dietary fats or oils supplementations on fatty acid composition of yolk of brown eggs. Asian Journal of Chemistry 22 (2), 1445-1452.
  • Poławska E., Horbańczuk J.O., Pierzchała M., Strzałkowska N., Jóźwik A.,Wójcik A., Pomianowski J., Gutkowska K., Wierzbicka A., Hoffman L.C., 2013 – Effect of dietary linseed and rapeseed supplementation on fatty acid profiles in the ostrich. Part 1.Muscles. Animal Science Papers and Reports 31, 3, 239-248.
  • Sauerwald T.U., Hachey D.L., Jensen C.L., Chen H., Anders on R,E., Heird W.C., 1997 – Intermediates in endogenous synthesis of C22:6 omega 3 and C20:4 omega 6 by term and preterm infants. Pediatry Research 41, 183–187.
  • Sinanoglou V.J., Strati I.F., Meimaroglou S.M. 2011 – Lipid, fatty acid and carotenoid content of edible egg yolks from avian species: A comparative study. Food Chemistry 124, 971–977.
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