Food Science of Animal Resources (한국축산식품학회지)

Korean Society for Food Science of Animal Resources (한국축산식품학회)
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Effects of Dietary Mugwort Powder on the VBN, TBARS, and Fatty Acid Composition of Chicken Meat during Refrigerated Storage

쑥 분말의 급여가 계육의 저장기간 중 VBN, TBARS 및 지방산 조성에 미치는 영향

  • 박창일 (대구대학교 동물자원학과) ;
  • 김영직 (대구대학교 동물자원학과)
  • Published : 2008.10.31
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Abstract

The goal of this study was to investigate the effects of dietary mugwort on the proximate composition, volatile basic nitrogen (VBN), thiobarbituric acid reactive substance (TBARS) and fatty acid in chicken meats. One hundred sixty broiler chicks (1 d old) were assigned to one or four dietary groups: Control; commercial feed supplemented with 1% mugwort (T1); commercial feed with 3% mugwort (T2) and commercial feed with 5% mugwort (T3). After 42 d, broilers from each group were slaughtered and meat samples were vacuum packaged and stored at $4{\pm}1^{\circ}C$ over a period of 0, 1,2,3, and 4 wk. Chicken breast was not influenced by all treatments in moisture, crude protein and crude fiber, while crude fat was lowered (p<0.05) in chickens fed with the T2 and T3 diets compared to the control and T1 diets. All treatments with mugwort diets tended to have decreased VBN values for chicken breast and thigh compared to control. As storage time increased, VBN was increased for all chickens (p<0.05). No significant differences in TBARS were observed among all treatments at 0 wk. TBARS values were reduced with the T2 and T3 diets and initially increased from 0 through 3 wk, then abruptly decreased at 4 wk. Dietary mugwort supplementation resulted in increased stearic acid (excepted T2) and oleic acid and decreased linoleic acid. Stearic acid in thigh meat was decreased in the T1, T2 and T3, however linoleic acid levels tended to increase with mugwort powder supplementation. It is concluded that dietary mugwort has a positive effect on increasing unsaturated fatty acid contents and decreasing saturated fatty acids.

본 시험은 육계병아리(Arbor Acare, male) 160수를 6주간 사양하면서 쑥 분말을 후기 3주 동안 급여한 후 도계한 계육을 분석하였다. 쑥을 급여하지 않은 처리구를 대조구로하고, 1% 급여구를 T1, 3% 급여구를 T2 그리고 5% 급여구를 T3 등 4개 처리구로 나누어 사양하였다. 가슴살과 다리살을 진공 포장하여 냉장온도($4{\pm}1^{\circ}C$)에서 4주 동안 저장하면서 계육의 일반성분, VBN, TBARS 및 지방산 조성의 변화를 조사하였다. 가슴살의 일반성분 중에 수분, 조단백질, 조섬유는 유의성이 없으나, 조지방은 대조구와 T1보다 T2, T3에서 낮은 함량을 보였다(p<0.05). VBN은 가슴살과 다리살 모두 대조구보다 쑥 급여구에서 낮은 결과를 나타내었고, 모든 처리구에서 저장기간이 지남에 따라 증가하였다(p<0.05). TBARS는 처리구간에 있어서 0주에는 유의성이 없었으나, 가슴살과 다리살 모두 대조구와 T1보다 T2와 T3에서 낮은 결과를 보였다. 그리고 저장기간이 경과하면서 3주까지 거의 직선적으로 증가한 후 4주에는 감소하는 결과이었다. 쑥 분말을 급여함에 따라 가슴살은 T2에서 stearic acid가 대조구와 차이가 없으나, stearic acid와 oleic 함량이 낮았고, linoleic acid는 높았으며, 다리살의 stearic acid는 대조구보다 T1, T2 및 T3에서 낮은 함량을 보였고, linoleic acid는 대조구보다 쑥 급여구에서 높은 함량을 나타내어 쑥을 급여하면 stearic acid는 감소하고, linoleic acid는 증가하여 포화지방산은 감소하고 불포화 지방산은 증가하는 경향이었다. 본 실험 결과 닭에게 5%의 쑥 분말을 급여하면 지방함량을 줄여주며, 단백질의 분해를 지연시키고 지방 산화를 억제시켜 주며, 포화지방산은 감소되고 불포화지방산은 증가되는 긍정적인 효과를 나타내었다.

Keywords

References

  1. An, J. H. and Kim, Y. J. (2003) Effect of feeding mugwort powder on the physico-chemical properties of pork. Korean J. Food Sci. Ani. Resour. 23, 16-20
  2. AOAC. (1994) Official Methods of Analysis 15th (ed), Association of official Analytical Chemists, Washington. DC
  3. Chen, T. C. and Wailmaleongoraek, C. (1981) Effect of pH values of ground raw poultry meat. J. Food Si. 46, 1946-1958 https://doi.org/10.1111/j.1365-2621.1981.tb04525.x
  4. Choi, Y. M., Chung, B. H., Lee, J. S., and Cho, Y. G. (2006) The antioxidant activities of Artemisia spp. Collections. J. Crop Sci. 51, 209-214
  5. Cresopo, F. L., Millan, R., and Moreno, A. S. (1978) Chemical changes during ripening of spanish dry sausage. III. Changes on water soluble N-compounds. Ax Archiuos de Zootechia. 27, 105-111
  6. Das, D. N. (1963) Effect of tea and its tannins upon capillary resistance of quinea-pigs. Ann. Biochem. Exp. Med. 23, 219-224
  7. Demeyer, D. I. and Vandekerckhove, P. (1979) Compounds determining pH in dry sausage. Meat Sci. 3, 161-168 https://doi.org/10.1016/0309-1740(79)90033-0
  8. Demeyer, D. I., Hoozer, J., and Meadom, H. (1974) Specificity of lipolysis during dry sausage ripening. J. Food Sci. 29, 293-299
  9. Dickul, J. Leszcyncki, D. E., and Kummerovo, F. A. (1983) Elimination of simple autooxidation by butylated hydroxytoluene additions before thiobarbituric acid assay for malonaldehyde in fat from chicken meat. J. Agric. Food Chem. 31, 1338-1345 https://doi.org/10.1021/jf00120a047
  10. Duncan, D. B. (1955) Multiple range and multiple F test. Biometrics 11, 1-2 https://doi.org/10.2307/3001478
  11. Faure, M., Lissi, E., Torrs, R. T., and Videla, L. A. (1990) Antioxidant activities of lignans and flavonoid. Phytochemistry 29, 3773-3775 https://doi.org/10.1016/0031-9422(90)85329-E
  12. Field, R. A. and Chang, Y. D. (1969) Free amino acid in bovine muscle and their relationship to tenderness. J. Food Sci. 34, 329-334 https://doi.org/10.1111/j.1365-2621.1969.tb10356.x
  13. Folch, J. Lees, M., and Sloane-Stanley, G. H. (1975) A simple methods for the isolation and purification of total lipids from animal tissues. J. Biol. Chem. 226, 497-501
  14. Graham, H. N. (1992) Green tea composition, consumption and polyphenol chemistry. Prev. Med. 2, 334-336
  15. Grundy, S. M. (1986) Comparison of monounsaturated fatty acids and carbohydrates for lowering plasma cholesterol. New Engl. J. Med. 314, 745-756 https://doi.org/10.1056/NEJM198603203141204
  16. Hatano, T., Yosida, T., Fujita, Y., Okuda, T., Kimura, Y., Okuda, H., and Arichi, S. (1984) Effect of tannins of wakanyaku on lipid peroxidation and fat cells. Wakan-Yaku Gakkashi. 1, 40-46
  17. Haw, I. W., Lee, S. D., and Hwang, W. I. (1985) A study on the nutritional effects in rats by feeding basal diet supplemented with mugwort powder. J. Korean Soc. Food Nutr. 14, 123-138
  18. Hood, R. L. (1984) Cellular and biochemical aspects of fat deposition in the broiler chicken. Poult. Sci. 40, 160-164 https://doi.org/10.1079/WPS19840014
  19. Kada, T., Kaneco, K., Matsuzaki, K., and Hara, Y. (1985) Detection and chemical identification of natural bio antimutagens. A case of the green tea factor. Mutation Res. 150, 127-135 https://doi.org/10.1016/0027-5107(85)90109-5
  20. Kim, D. W. and Choi, K. J. (1985) Changes in composi- tion of fatty acid according to drying methods of mugwort. J. Korean Soc. Food Nutr. 14, 95-98
  21. Kim, B, K., Kang, S. S., and Kim, Y. J. (2001) Effect of oriental medicine refuse and mugwort powder on physico-chemical properties of pork. Korean J. Food Sci. Ani. Resour. 21, 208-214
  22. Kim, M. J. and Lee, C. H. (1998) The effect of extracts from mugwort on the blood ethanol concentration and liver function. Korean J. Food Sci. Ani. Resour. 18, 348-356
  23. Kim, Y. J. (2006) Effect of mugwort and fish oil addi- tion on quality and shelf-life in meat type chicken. Korean J. Poult.Sci. 33, 1-6
  24. Kwon, M. N., Choi, J. S., and Byun, D. S. (1993) Effect of flavonoid(+) catechin as stabilize in rat fed fresh and peroxidized fish oil. J. Korean Soc. Food Nutr. 22, 381-391
  25. Laleye, C. L., Simard, R. E., Lee, B. H., and Holley, R. A. (1984) Shelf-life of vacuum of nitrogen packed pastrami, effects of packing atmospheres, temperature and duration of storage on microflora changes. J. Food Sci. 49, 827-837 https://doi.org/10.1111/j.1365-2621.1984.tb13222.x
  26. Lee, C. H., Han, K. H., Choi, I. S., Kim, C. Y., and Cho, J. K. (1999) Effect of mugwort-water extracts on cadmium toxicity in rats. Korean J. Food Sci. Ani. Resour. 19, 188-197
  27. Lee, G. D., Kim, J. S., Bae, J. O., and Yoon, H. S. (1992) Antioxidative effectiveness of water extract and ether extract in Worn-wood(Artemisia montana Pampan). J. Korean Soc. Food Nutr. 21, 17-23
  28. Lee, M. J. (1965) Medicinal Plant, Dongmeongsa, pp. 287-289
  29. Lia, A. G., Hallmans, A., and Sandberg, B. (1995) B-Glucan increase bile acid excretion in a fiber-rich barley fraction increase cholesterol excretion in ilestomy subjects. Am. J. Clin. Nutr. 62, 1245-1251 https://doi.org/10.1093/ajcn/62.6.1245
  30. Lim, S. S. and Lee, J. H. (1997) Effect of Artemisia prineceps var. oriental and Circium japonicum var. vssuriense on cardiovascular system of hyperlipidemic rat. J. Korean Nutr. Soc. 30, 797-802
  31. Matsuzaki, T. and Hara, Y. (1985) Antioxidative activity of tea leaf catechins. Nippon Nogeikagaku Kaishi. 59, 35-36
  32. Okuda, T., Kimura, Y., Yosida, T., Hatano, T., Okuda, H., and Arichi, S. (1983) Studies on the activities of tannins and related compounds from medicinal plants and drugs. I. Inhibitory effects on lipid peroxidation on mitochondria and microsomes of liver. Chem. Pharm. Bull. 31, 625-630
  33. Palanska, O. and Nosal, V. (1991) Meat quality of bulls and heifers of commercial cross breeds of the improved Slovak Spotted Cattle with the Limousine breed. Vedecke Prace Vyskumbneho Ustaru Zivocisnej Vyroby Nitre (CSFR). 24, 59-68
  34. Park, E. J., Park, K. J., and Kim, Y. H. (1995) Quality changes of chicken meat during chilled and freeze storage. Korean J. Anim. Sci. 37, 249-260
  35. Park, G. B., Kim, Y. J., Lee, H. B., Kim, J. S., and Kim, Y. H. (1988) Changes in freshness of meat during postmortem storage. Korean J. Anim. Sci. 30, 561-566
  36. SAS Institute Inc. (1998) SAS user's guide, Statical Analysis Ststems Institute, Cary, NC
  37. Witte, V. C., Krause, G. F., and Baile, M. E. (1970) A new extraction method for determining 2-thiobarbituric acid values of pork and beef during storage. J. Food Sci. 35, 582-589 https://doi.org/10.1111/j.1365-2621.1970.tb04815.x
  38. 高坂知久. (1975) 肉製品の鮮度保持と測定. 食品工業. 18, 105-107
  39. 허준. (1978) 한방동의보감. 민정사. pp. 184-186

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