Malya Kuzularında Karkas Bölgelerinin Yağ Asidi Kompozisyonu

Bu çalışma açık ağıl şartlarında besiye alınan Malya erkek kuzuların, karkaslarının farklı bölgelerinde yağ asidi kompozisyonu ve CLA (Conjuge linoleik asid) içeriklerini belirlemek amacıyla yapılmıştır. Yaklaşık 20 kg ağırlıkta 58 gün süreyle besiye alınan kuzular, ortalama 37.94 kg canlı ağırlıkta kesime gönderilmiştir. Kuzuların günlük canlı ağırlık artışları ortalama 319 g, soğuk karkas ağırlıkları 18.59 kg olarak bulunmuştur. Besi süresince kuzulara ad-libitum kesif yeme ek olarak 150 g/baş kuru yonca otu verilmiştir. Kesimden sonra karkasın pelvis, bel, döş ve kuyruk bölgelerinden alınan numunelerde yağ asitleri kompozisyonuna bakılmıştır. Analizler sonucunda pelvis bölgesinde toplam SFA, MUFA, PUFA, Trans ve CLA sırasıyla (%) 51.19, 35.93, 5.64, 6.59 ve 0.648 olarak tespit edilmiştir. Bel, döş ve kuyruk bölgelerinde SFA, MUFA, PUFA, Trans ve CLA sırayla 41.82, 43.44, 9.64, 4.35 ve 0.757; 39.52, 51.40, 4.45, 3.67 ve 0,960; 45.01, 41.57, 5.75, 6.90 ve 0.767 olarak tespit edilmiştir.

Fatty Acid Composition of Carcass Regions in Malya Lambs

This study was carried out to determine the fatty acid composition and CLA (Conjuge linoleik asid) content ofdifferent carcass regions of Malya male lambs fattened open sheep barn. Lambs begin fattened about 20 kg of live weight The live weight of about 20 kg at the beginning of fattening period, an average of 37.94 kg of live weight of lambs sent to slaughter after 58 days of fattening period. The lambs were fed with ad libitum concentrate feed together with 150 g/head of dehydrated alfalfa per day during fattening period. Daily live weight gain (g) and cold carcass weight (kg) were found as 319 g and 18.59 kg, respectively. The fatty acid composition in the samples taken from pelvic, lower back, brisket and tail regions of carcass were analyzed after slaughter. As a result of analysis, SFA, MUFA, PUFA, Trans and CLA in pelvic region were found as 51.19%, 35.93%, 5.64%, 6.59% and 0.648%, respectively. SFA, MUFA, PUFA, Trans and CLA were found as 41.82%, 43.44%, 9.64%, 4.35% and 0.757% in lower back, 39.52%, 51.40%, 4.45%, 3.67% and 0,960% in brisket region and 45.01%, 41.57%, 5.75%, 6.90% and 0.767% in tail region, respectively.

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  • Anonim 2011. FAO. Statistics . http://faostat.fao.org. (02013)
  • Anonim 2012. Turkish Statistic Institute. Animal Statistic. http://www.tuik.gov.tr . (09.1012)
  • Boutonnet, J. P. 1999. Persepectives of the sheep meat world market on future production systems and trends. Small Rum. Res. 34: 189–195.
  • Castro, T., Manso, T., Mantecon, A. R., Guirao, J., Jimeno, V. 2005. Fatty acid composition and carcass characteristics of growing lambs fed diets containin palm oil supplements. Meat Sci. 69:757– 7
  • Dannenberger, D., Nuernberg, G., Scollan, N., Steinhart, H., Ender K. 2005. Effect of pasture vs. concentrate diet on CLA isomer distribution in different tissue lipids of beef cattle. Lipids 40(6): 589–598.
  • Diaz, M.T., Velasco, S., Caneque, V., Lauzurica, S., Ruiz de Huidobro, F., Perez, C., Gonzalez, J., Manzanares, C. 2002. Use of concentrate or pasture for fattening lambs and its effect on carcass and meat quality. Small Rum Res. 43: 257-268.
  • Folch, J., Lees M., Sloane-Stanley, G.H. 1957. A simple method for the isolation and purification of total lipids from animal tissues. J Biological Chem. 226: 497–509.
  • Ganji, S.H., Kamanna, V.S. and Kashyap, M.L. 2003. Niacin and cholesterol: role in cardiovascular disease (review). J. Nutr. Biochem. 14: 298-305.
  • Guler, G.O., Aktumsek, A. 2010. Akkaraman Süt Kuzularının Yağ Asidi Kompozisyonu ve CLA İçeriği. Sel. Tar. ve Gıda Bil. Der. 24(3): 30-36.
  • Guler, G.O., Aktumsek, A. 2011. Effect of feeding regime on fatty acid composition and conjugated linoleic acid content of perirenal. omental and tail fat in Akkaraman lambs. African J. Biotec. 10(36): 7099-7108.
  • Guler, G.O., Aktumsek, A., Karabacak, A. 2011. Effect of Feeding Regime on Fatty Acid Composition of Longissimus dorsi Muscle and Subcutaneous Adipose Tissue of Akkaraman Lambs. J. Kafkas Uni. Vet. Fac. 17(6): 885-89221.
  • Ha, Y.L., Storkson, J., Pariza, M.W. 1990. Inhibition of benzo(α)pyreneinduced mouse orestomach neoplasia by conjugated dienoic derivatives of linoleic acid. Cancer Res. 50(4): 1097-1101.
  • Ip, C., Singh, M., Thompson, H.J., Scimeca, J.A. 1994. Conjugated linoleic acid suppresses mammary carcinogenesis and proliferative activity of the mammary gland in the rat. Cancer Res. 54: 121212
  • ISO-International Organization for Standardization 19 Animal and vegetable fats and oils– preparation of methyl esters of fatty acids. ISO. geneve. method ISO 5509, pp. 1-6.
  • Karabacak, A., Boztepe, S., Güler, O.G. and Aktümsek, A. 20 Fatty acıd composıtıon of muscle Lıpids of Fıve sheep breeds. Acad. J. of Sci. 2(1):119–123. Katan, M. B. 2000. Nutritional interventions: The evidence. P. Nutr. Soc. 59: 417-418.
  • Kritchevsky, D. 2003. Conjugated linoleic acids in experimental atherosclerosis. In: Sebedio JL. Christie WW and Adolf RO (eds). Adv. in Conjug. Linoleic Acid Res. 2: 292-301.
  • Ledoux, M., Chargigny, J.M., Darbois M., Soustre Y., Sebedio J.L., Laloux L. 2005. Fatty acid composition of French butters. with special emphasis on conjugated linoleic acid (CLA) isomers. J. of Food Com. and Analy. 18: 409-25.
  • Lee, K.N., Kritchevsky, D., Pariza, M.W. 1994. Conjugated linoleic acid and atherosclerosis in rabbits. Atherosclerosis 108(1): 19-25.
  • Minitab (14), 1995. Minitab reference manual. release 10 Xtra. Minitab Inc. State Coll.. PA 16801.USA.
  • Manso, T., Bodas, R., Castro, T., Jimeno, V., Mantecon, A.R. 2009. Animal performance and fatty acid composition of lambs fed with different vegetable oil. Meat Sci. 83: 511–516.
  • Mozaffarian, D., Cao, H., King, I. B., Lemaitre, R. N., Song, X., Siscovick, D. S. and Hotamisligil, G. S. 20 Circulating palmitoleic acid and risk of metabolic abnormalities and new-onset diabetes. Am. J. Clin. Nutr. 92:1350–8.
  • Pariza, M.W., Park, Y., Cook, M., Albright, K., Liu, W. 19 Conjugated linoleic acid (CLA) reduces body fat. FASEB J. 10: 3227.
  • Park, Y., Pariza, M.W. 2007. Mechanisms of body fat modulation by conjugated linoleic acid (CLA). Food Res. Int. 40(3): 311-323.
  • Parodi, P.W. 1997. Cow’s milk fat components as potential anticarcinogenesis agents. J. Nutr. 127: 1055-1060.
  • Raes, K., De Smet, S., Demeyer, D. 2004. Effect of dietary fatty acids on incorporation of long chain polyunsaturated fatty acids and conjugated linoleic acid in lamb, beef and pork meat: a review. Anim. Feed Sci. and Tech. 113: 199–221.
  • Whigham, L.D., Cook, M.E., Atkinson, R.L. 2000. Conjugated linoleic acid: implications for human health. Phar. Res. 42: 503-510.
  • Wood, J.D., Enser, M., Fisher, A.V., Nute, G.R., Sheard, P.R., Richardson, R.I., Hughes, S.I. and Whittington, F.M. 2008. Fat deposition, fatty acid composition and meat quality: A review. Meat Sci. 78: 343–358.