DOI QR코드

DOI QR Code

The Effect of Green Oak Acorn (Quercus ilex) Based Diet on Growth Performance and Meat Fatty Acid Composition of Broilers

  • Bouderoua, Kaddour (Laboratoire de Technologie Alimentaire et Nutrition, Universite de Mostaganem) ;
  • Mourot, Jacques (INRA, UMR 1079 Systemes d'elevage Nutrition Animale etHumaine) ;
  • Selselet-Attou, Ghalem (Laboratoire de Technologie Alimentaire et Nutrition, Universite de Mostaganem)
  • 투고 : 2008.10.06
  • 심사 : 2009.01.31
  • 발행 : 2009.06.01

초록

This experiment was conducted to compare the effects of oak acorns and corn on broilers growth performance, carcass characteristics and meat fatty acid (FA) composition according to different ages of broilers. Two separate groups of 400 male broilers, reared for six weeks, were fed diets containing 33.5% green oak acorns (GO) and 67% of corn (C), respectively. At day 35, the body weight of the chickens fed the GO diet was 12% lower (p<0.05) compared with controls (C). However, at day 56 birds reached similar final weights. Abdominal adipose tissue (AAT) was 78% higher in the controls compared to those fed the oak acorn-based diet. The total lipids (TL) of thigh muscle were higher in the controls compared to dietary treatment GO (3.1 against 2.5 g/100 g of muscle). There were significant differences in fatty acid (FA) composition of the muscle between two groups. The broilers fed oak acorn exhibited more C18:2, as well as a higher proportion of polyunsaturated fatty acid (PUFA) and PUFA:SFA (saturated fatty acid) ratio than those on the control diet, but no significant differences were observed among groups for the age of birds. There was a higher proportion of linolenic acid in broilers fed the oak acorn compared to the controls (0.8 vs. 0.6%). Furthermore, linolenic acid content decreased with age (p<0.001) in both groups. The results indicated no significant differences in FA with the age of birds. In conclusion, the meat fatty acids provided by the GO diet appeared to improve the nutritional quality preferred by the consumer.

키워드

참고문헌

  1. Ajuyah, A. O., K. H. Lee, R. T. Hardin and J. S. Sim. 1991. Changes in the yield and in the fatty acid composition of whole carcass and selected meat portions of broiler chickens fed full- fat oils seeds. Poult. Sci. 70:2304-2314 https://doi.org/10.3382/ps.0702304
  2. An, B. K., H. J. Im and C. W. Kang. 2007. Nutritional value of red Pepper seed oil meal and effect of its supplementation on performance and physiological responses of broilers chicks. Asian-Aust. J. Anim. Sci. 20(6):971-975
  3. Armstrong, W. D., W. R. Featbersbn and J. C. Rogler. 1974. Effects of bird resistant sorghum grain and various commercial tannins on chick performance. Poult. Sci. 53:2137-2142 https://doi.org/10.1016/S0377-8401(96)01076-0
  4. Ayerza, R., R. Coates and M. Lauriat. 2002. Chia Seed (Salvia hispanica L.) as an $\omega$-3 fatty acid source for broilers: Influence on fatty acid composition, cholesterol and fat content of white and dark meats, growth performance, and sensory characteristics. Poult. Sci. 81:826-837
  5. Bouderoua, K. and G. Selselet-Attou. 2003. Fatty acid composition of abdominal adipose tissue in broilers fed green-oak (Quercus ilex), cork oak acorn (Quercus Suber L.) based diets. Anim. Res. 52:377-382 https://doi.org/10.1051/animres:2003027
  6. Cantos, E., J. Espin, C. Carlos-Lopez-Bote, L. De La Hoz, J. A. Ordonez and F. A. Tomas-Barberan. 2003. Phenolic compounds and fatty acids from acorns (Quercus spp.), the main dietary contituent of free ranged iberian pigs. J. Agric. Food Chem. 51:6248-6255 https://doi.org/10.1021/jf030216v
  7. Choi, S. H., H. L. Lee, M. H. Shin, Jo Cheroun, S. K. Lee and B. D. Lee. 2008. Nutritive and economic values of corn distiller's dried grains with soluble in broilers diets. Asian-Aust. J. Anim. Sci. 21(3):414-419
  8. Crespo, N. and E. Esteve-Garcia. 2001. Dietary fatty acid profile modifies abdominal fat deposition in broilers chickens. Poult. Sci. 80:71-78
  9. Dodd, R. S., Z. A. Rafii and E. Zavarin. 1993. Chemosystematic variation in acorn fatty acids of Californian live oaks (Quercus agrifolia and Q. wislizenii). Biochem. Syste. Ecol. 21(2):279-285 https://doi.org/10.1016/0305-1978(93)90046-T
  10. Doughs, J. A., T. W. Sullivan, N. J. Gonzalez and M. M. Beck. 1993. Differential age response of turkeys to protein and sorghum tannin level. Poult. Sci. 72:1944-1951 https://doi.org/10.3382/ps.0721944
  11. Folch, J., M. Lees and G. H. Sloane Stanley. 1957. A simple method for isolation and purification of total lipids from animal tissues. J. Biol. Chem. 226:497-509
  12. Food and Agriculture Organization 1994. Fats and oils in human nutrition: Report of a joint expert consultation. Food and Nutrition Paper N:57. FAO, Rome
  13. Girolami, A., I. Marsico, G. D'Andrea, A. Braghieri, F. Napolitano and G. F. Cifuni. 2003. Fatty acid profile, cholesterol content and tenderness of ostrich meat as influenced by age at slaughter and muscle type. Meat Sci. 64:309-315 https://doi.org/10.1016/S0309-1740(02)00202-4
  14. Hrdinka, C., W. Zollitsch, W. Knaus and F. Lettner. 1996. Effects of dietary fatty acid pattern on melting point and composition of adipose tissues and intramuscular fat of broiler carcasses. Poult. Sci. 75:208-215 https://doi.org/10.3382/ps.0750208
  15. Hulan, H. W., R. G. Ackman, W. M. N. Ratanayake and F. G. Proudfoot. 1988. Omega-3 fatty acid levels and general performance of commercial broilers fed practical levels of Red fish meal. Poult. Sci. 68:153-162
  16. Hur, Sam N., Abdul L. Molan and Jang O. Cha. 2005. Effect of feeding condensed tannin-containing plants on natural coccidian infection in goats. Asian-Aust. J. Anim. Sci. 18(9): 1262-1266
  17. Kekos, D. and B. Kaukios. 1985. Acid hydrolysate of acorn polysacharid as substrates of Candida utilisis growth. Biotech. Letters 7:345-348 https://doi.org/10.1007/BF01030285
  18. Leclercq, B., J. P. Blum and P. Sauveur. 1984. Alimentation et nutrition du poulet de chair a croissance rapide, in Alimentation et nutrition des monogastriques, INRA ed
  19. Legrand, P., J. Mallard, M. A. Bernard-Griffiths, M. Douaire and P. Lemarchal. 1987. Hepatic lipogenesis in genetically lean and fat chickens. In vitro studies. Comp. Biochem. Physio. B87: 789-792 https://doi.org/10.1016/0305-0491(87)90389-0
  20. Li, D., A. Sinclair, A. Wilson, S. Nakkote, F. Kelly, L. Abedin, N. Mann and A. Turner. 1999. Effect of dietary alpha-linolenic acid on thrombotic risk factors in vegetarian men. Am. J. Cli. Nutr. 69:872-882
  21. Lopes, I. and M. G. Bernardo-Gil. 2005. Characterization of acorn oils extracted by hexane and by supercritical carbon dioxide. Europ. J. Lipid. Sci. Technol. 107(1):12-19 https://doi.org/10.1002/ejlt.200401039
  22. Lopez-Ferrer, S., M. D. Baucells, A. C. Barroeta and M. A. Grashorn. 2001. N-3 enrichment of chicken meat. 1. Use of very long-chain fatty acids in chicken diets and their influence on meat quality: Fish oil. Poult. Sci. 80:741-752
  23. Loria, R. M. and D. A. Padgett. 1997. Alpha-linolenic acid prevents the hypercholesteremic effects of cholesterol addition to a corn oil diet. J. Nutr. Biochem. 8:140-146 https://doi.org/10.1016/S0955-2863(97)00011-9
  24. Mantzioris, E., L. G. Cleland, R. A. Gibson, M. A. Neumann, M. Demasi and M. J. James. 2000. Biochemical effects of a diet containing foods enriched with n-3 fatty acids. Am. J. Clin. Nutr. 72:42-48
  25. Morisson, W. R. and M. L. Smith. 1964. Preparation of fatty acids methyl esters and dimethlacetals from lipid with boron fluoride-methanol. J. Lipid. Re. 5:600-608
  26. Mourot, J. and D. Hermier. 2001. Lipids in monogastric animal meat. Repr. Nutr. Devel. 41:109-118 https://doi.org/10.1051/rnd:2001116
  27. Ofcarcik, R. P. and E. E. Burns. 1971. Chemical and physical properties of selected acorns. J. Sci. Food Agric. 36:576-578
  28. Ozcan, C. O. and M. Sahin. 2006. Comparison of in situ dry matter degradation with in vitro gas production leaves supplemented with or without polyethylene glycol (PEG). Asian-Aust. J. Anim. Sci. 19(8):1120-1126
  29. Pan, D. A. and L. H Storlien. 1993. Dietary lipid profile is a determinant of tissue phospholipid fatty acid composition and rate of weight gain in rats. J. Nutr. 123:512-519 https://doi.org/10.1016/0026-0495(95)90277-5
  30. Petrovic, S., S. Obajic, S. Rakic, S. Tomic and A. J. Kukic. 2004. Investigation of kernel oils of Quercus robur and Quercus cerris. Chem. Natural Comp. 40:420-422 https://doi.org/10.1007/s10600-005-0003-4
  31. Pikul, J. 1985. Total lipids, fat composition and malonaldehyde concentration in chicken liver, heart, adipose tissue and plasma. Poult. Sci. 64:469-475 https://doi.org/10.3382/ps.0640469
  32. Rakic, S., S. Petrovic, J. Kukic, M. Jadranin, V. Tesevic, D. Povrenovic and S. Siler-Marinkovic. 2007. Influence of thermal treatment on phenolic compounds and antioxidant properties of oak acorns from Serbia. Food Chem. 104:830-834 https://doi.org/10.1016/j.foodchem.2007.01.025
  33. Raes, K., L. Haak, A. Balcaen, E. Claeys, D. Demeyer and S. De Smet. 2004. Effect of linseed feeding at similar linoleic acid levels on the fatty acid composition of double-muscled Belgian Blue young bull. Meat Sci. 66:307-315 https://doi.org/10.1016/S0309-1740(03)00105-0
  34. Ratnayake, W. M. N., R. G. Ackman and H. W. Hulan. 1989. Effect of redfish meal enriched diets on the taste and N-3 PUFA of 42-day-old broiler chickens. J. Sci. Food Agric. 49:59-74 https://doi.org/10.1002/jsfa.2740490107
  35. Rey, A. I., A. C. DazaLopez-Carrasco and C. J. Lopez-Bote. 2005. Feeding Iberian pigs with acorns and grass in either free-range or confinement affects the carcass characteristics and fatty acids and tocopherols accumulation in Longissimus dorsi muscle and backfat. Meat Sci. 73(1):66-74 https://doi.org/10.1016/j.meatsci.2005.10.018
  36. Rostagno, H. S., W. R. Feptberston and J. C. Rogkr. 1973. Studies on the nutritional value of sorghum grains with varying tannin contents for chicks: Growth studies. Poult. Sci. 52:765-772 https://doi.org/10.3382/ps.0520765
  37. Sanz, M., C. J. Lopez-Boote, A. Flores and J. M. Carmona. 2000. Effect of the inclusion time of dietary saturated and unsaturated fats before slaughter on the accumulation and composition of abdominal fat in female broilers chickens. Poult. Sci. 79:1320-1325
  38. SAS Institute Inc 1989: SAS/STAT User's guide/Version 6. SAS Institue Inc., Cary, North Carolina
  39. Shimada, T. 2001. Nutrient compositions of acorns and horse chestnuts in relation to seed-hoarding. Ecol. Res. 16(4):803-808 https://doi.org/10.1046/j.1440-1703.2001.00435.x
  40. Short, H. L. 1976. Composition and squirrel use of acorns of black and white oak groups. J. Wild Manage 40:479-483 https://doi.org/10.2307/3799950
  41. Singleton, V. L. and J. A. Rossi. 1965. Colorimetry of total phenolic with phosphomolybdicphosphotungstic acid reagents. Am. J. Enol. Vitic. 16:144-158
  42. Wood, J. D. and M. Enser. 1997. Factors influencing fatty acids in meat and the role of antioxidants in improving meat quality. Br. J. Nutr. 78: S49-S60

피인용 문헌

  1. Dietary nutrient manipulation to improve the performance and tibia characteristics of broilers fed oak acorn (Quercus Brantii Lindl) vol.17, pp.1, 2015, https://doi.org/10.1590/1516-635x170117-24
  2. Carcass and Meat Quality Traits in an Embden×Toulouse Goose Cross Raised in Organic Dehesa vol.29, pp.6, 2016, https://doi.org/10.5713/ajas.15.0583
  3. Association analysis of g.68G → A SNP in CAPN1 gene with carcass and meat quality traits in goose raised in organic dehesa vol.59, pp.4, 2009, https://doi.org/10.5194/aab-59-423-2016
  4. Egg quality traits, blood biochemical parameters and performance of laying hens fed diet included processed oak fruit vol.7, pp.2, 2009, https://doi.org/10.1002/vms3.381