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Comparision of carcass characteristics, meat quality, and fatty acid profiles between Duroc and corssbred pigs (Duroc × Korean native pig)

두록과 교잡돈(두록×재래돼지)의 도체 및 육질 특성과 지방산 조성 비교

  • Kim, Doo-Wan (National Institute of Animal Science, Rural Development Administration) ;
  • Kim, Ki-Hyun (National Institute of Animal Science, Rural Development Administration) ;
  • Hong, Joon-Ki (National Institute of Animal Science, Rural Development Administration) ;
  • Cho, Kyu-Ho (National Institute of Animal Science, Rural Development Administration) ;
  • Sa, Soo-Jin (National Institute of Animal Science, Rural Development Administration) ;
  • Kim, Young-Min (National Institute of Animal Science, Rural Development Administration) ;
  • Park, Jun-Cheol (National Institute of Animal Science, Rural Development Administration) ;
  • Seol, Kuk-Hwan (National Institute of Animal Science, Rural Development Administration)
  • 김두완 (농촌진흥청 국립축산과학원) ;
  • 김기현 (농촌진흥청 국립축산과학원) ;
  • 홍준기 (농촌진흥청 국립축산과학원) ;
  • 조규호 (농촌진흥청 국립축산과학원) ;
  • 사수진 (농촌진흥청 국립축산과학원) ;
  • 김용민 (농촌진흥청 국립축산과학원) ;
  • 박준철 (농촌진흥청 국립축산과학원) ;
  • 설국환 (농촌진흥청 국립축산과학원)
  • Received : 2014.10.01
  • Accepted : 2014.11.11
  • Published : 2014.12.31

Abstract

This study was conducted to develop new crossbred pig using Korean native pig and Duroc. Fifteen pigs of pure Duroc (D) and 26 crossbred gilts (15 of DK1 and 11 of DK2) were reared until $195{\pm}5$ days old, then slaughtered at local slaughterhouse. Pork loin was gathered and vacuum packed from left carcass after 24 h of slaughter to analyze meat quality traits, such as color, pH, water holding capacity (WHC), cooking loss and shear force (SF), and free fatty acid composition. Live weight and carcass weight of Duroc and DK1 were $119.1{\pm}8.7/82.91{\pm}6.1kg$ and $116.3{\pm}6.3/80.91{\pm}4.4kg$, respectively, and it was significantly higher than those of DK2 ($104.7{\pm}8.4/71.36{\pm}5.7kg$) (p<0.05).There was no significant difference in proximate composition between animal groups, however DK2 showed significantly lower shear force (SF) and higher water holding capacity (WHC) than other groups (p<0.05). The redness of DK2 also showed significantly higher than Duroc (p<0.05), however there was no significant difference in lightness and yellowness (p>0.05). DK1 showed the highest monounsaturated fatty acids (MUFAs) contents of $51.45{\pm}2.0%$ and DK2 showed the highest polyunsaturated fatty acids (PUFAs) contents of $8.98{\pm}1.4%$, however there was no significantly difference in PUFA/SFA ratio between pig groups (p>0.05). Duroc and DK2 contain significantly higher amount of linoleic ($7.99{\pm}1.2$ and $8.11{\pm}1.3%$, respectively) and linolenic acid ($0.43{\pm}0.1$ and $0.44{\pm}0.1%$, respectively) than DK1, and DK1 contains significantly higher amount of oleic acid ($47.32{\pm}1.8%$) than others (p<0.05).

본 연구는 우리나라 재래돼지의 고유 특성을 살린 우수한 품종을 개발하기 위하여 수행하였으며, 도체특성은 DK1이, 육질특성과 지방산조성은 DK2가 두록과 비교하여 차이가 없거나 우수한 것으로 나타나 재래돼지를 활용한 우수한 육질의 돼지 품종 개발이 가능할 것으로 사료된다.

Keywords

References

  1. Alonso V, del Mar Campo M, Espanol S, Roncales P, Beltran JA. 2009. Effect of crossbreeding and gender on meat quality and fatty acid composition in pork. Meat Science 81:209-217. https://doi.org/10.1016/j.meatsci.2008.07.021
  2. A.O.A.C. 2000. Americal Official Analytical Chemists. 16th ed, Association of Official Analytical Chemists, Washington DC.
  3. Bouton PE, Carrol FD, Fisher AL, Harris PV, Shothose WR. 1983. Influence of pH and fiber contraction state up on factors affecting the tenderness of bovine muscle. Journal of Food Science 38:404.
  4. Briskey EJ. 1964. Etiological status and associated in studies of pale, soft, exudative porcine musculature. Advances in Food Research 13:89-105. https://doi.org/10.1016/S0065-2628(08)60100-7
  5. Cameron ND, Enser MB. 1991. Fatty acid composition of lipid in longissimus dorsi muscle of Duroc and British Landrace pigs and its relationship with eating quality. Meat Science 29:295-302. https://doi.org/10.1016/0309-1740(91)90009-F
  6. Cameron ND, Warriss PD, Porter SJ, Enser SJ. 1990. Comparison of Duroc and British Landrace pigs for meat and eating quality. Meat Science 27:227-247. https://doi.org/10.1016/0309-1740(90)90053-9
  7. Cho SH, Park BY, Kim JH, Kim MJ, Seong PN, Kim YJ, Kim DH, Ahn CH. 2007a. Carcass yields and meat quality by live weight of Korean native black pigs. Korean Journal of Animal Science and Technology 49:523-530. https://doi.org/10.5187/JAST.2007.49.4.523
  8. Cho SH, Seong PN, Kim JH, Park BY, Kwon OS, Hah KH, Kim DH, Ahn CN. 2007b. Comparison of meat quality, nutritional, and sensory properties of Korean native pigs by gender. Korean Journal for Food Science of Animal Resources 27:475-481. https://doi.org/10.5851/kosfa.2007.27.4.475
  9. Choi YS, Park BY, Lee JM, Lee SK. 2005. Comparison of carcass and meat quality characteristics between Korean Native Black Pigs and commercial crossbred pigs. Korean Journal for Food Science of Animal Resources 25:322-327.
  10. Dutson TR. 1983. Relationship of pH and temperature to disruption of specific muscle proteins and activity of liposomal proteases. Jounal of Food Biochemistry 7:233-245.
  11. Enfalt AC, Lundstrom K, Hansson I, Lundeheim N, Nystrom PE. 1997. Effects of Outdoor Rearing and Sire Breed (Duroc or Yorkshire) on Carcass Composition and Sensory and Technological Meat Quality. Meat Science 45:1-15. https://doi.org/10.1016/S0309-1740(96)00101-5
  12. Forch J, Lees M, Sloane-Stanley GH. 1957. A simple method for the isolation and purification of total lipid from animal tissue. Journal of Biological Chemistry 26:497-507.
  13. Girard JP, Goutefongea R, Monin G, Touraille C. 1986. In: Le pore et son elevage, (Perez, JM, Mornet, P, Rerat, A. (Eds.) Maloine, Paris, 461.
  14. Guignot F, Tourraille, C, Ouali, A, Renerre, M, Monin, G. 1994. Relationships between post-mortem pH changes and some traits of sensory quality in veal. Meat Science. 37: 315-325. https://doi.org/10.1016/0309-1740(94)90049-3
  15. Hong KC, Kim BC, Son YS, Kim BK. 2001. Effects of the mating system on fattening performance and meat quality in commercial pigs. Korean Journal of Animal Science and Technology 43:139-148.
  16. Honikel KO. 1987. How to measure the water-holding capacity of meat: Recommendation of standardized methods. In: Tarrant, PV, Eikelenboom, G, Monin, G. (Ed.) Evaluation and Control of Meat Quality in Pigs. pp. 129. Martinus Nijihoff Publishers, Dordrecht, The Netherlands.
  17. Jin SK, Kim CW, Song YM, Jang WH, Kim YB, Yeo JS, Kim JW, Kang KH. 2001. Physicochemical characteristics of longissimus muscle between the Korean native pig and Landrace. Korean Journal for Food Science of Animal Resources 21:142-148.
  18. Jin SK, Kim IS, Hur SJ, Kim SJ, Jeong KJ. 2006. The influence of pig breeds on qualities of loin. Korean Journal of Animal Science and Technology 48:747-758. https://doi.org/10.5187/JAST.2006.48.5.747
  19. Kim DW, Kim KH, Hong JK, Cho KH, Sa SJ, Park JC, Choi SH. 2013. Comparison of carcass characteristics, meat quality, amino acids contents and fatty acid profiles of Korea Native Pig by gender. The Korean Society of Animal Reproduction 37:129-134. https://doi.org/10.12749/RDB.2013.37.3.129
  20. Kim YB, Rho JH, Richardson I, Wood J. 2000. Comparison of physicochemical properties of pork from 4 different pig breeds. Korean Journal of Animal Science and Technology 42:195-202.
  21. Kwon OS. 2006. Preservation background and environmental status of Korean native black pigs. Symposium Proceedings of Preservation and Utilization of Korean Native Black Pigs. National Institute of Animal Science, RDA. April 21, Korea. pp. 3-20.
  22. Kristensen L, Purslow PP. 2001. The effect of ageing on the water-holding capacity of pork: role of cytoskeletal protein. Meat Science 58:241-247.
  23. Langlois L, Minvielle G. 1989. Comparisons of three-way and backcross swine: II. Wholesale cuts and meat quality. Journal of Animal Science 67:2025-2032.
  24. Martens H. 1998. Physiologie der Muskulature und das MHS-Gen Schweines: Zur Diskussion um eine Eliminierung des mutierten Ryanodin Rezptors aus der deutschen Schweinezucht. Archiv Tierzucht Dummerstorf 41:179-192.
  25. Ministry of Agriculture, Food and Rural Affairs. 2013. 2013 Major statistics of agricultural food. Sejong-si. pp. 332-333.
  26. Oh HS, Kim HY, Yang HS, Lee JI, Joo YK, Kim CU. 2008. Comparison of meat quality characteristics between crossbreeds. Korean Journal for Food Science of Animal Resources 28:171-180. https://doi.org/10.5851/kosfa.2008.28.2.171
  27. Oliver MA, Gispert M, Diestre A. 1993. The effects of breed and halothane sensitivity on pig meat quality. Meat Science 35:105-118. https://doi.org/10.1016/0309-1740(93)90073-Q
  28. Park JC, Kim YH, Jung HJ, Park BY, Lee JI, Moon HK. 2005. Comparison of meat quality and physicochemical characteristics of pork between Korean Native Black Pigs (KNBP) and Landrace by market weight. Korean Journal of Animal Science and Technology 47:91-98. https://doi.org/10.5187/JAST.2005.47.1.091
  29. Virgili R, Degni M, Schivazappa C, Faeti V, Ploetti E, Marchetto G, Pacchioli MT, Mordenti A. 2003. Effects of age at slaughter on carcass traits and meat quality of italian heavy pigs. Journal of Animal Science 81:2448-2456.
  30. Warriss PD, Brown SN, Edwards JE, Knowles TG. 1995. Effect of lairage time on levels of stress meat quality in pigs. Proceedings of EU-Seminar: New Information on welfare and meat quality of pigs related to holding, transport and lairage conditions, Mariensee, Germany. pp. 163-170.
  31. Watanabe A, Daly CC, Devine CE. 1996. The effects of the ultimate pH of meat on tenderness changes during aging. Meat Science 42:67-78. https://doi.org/10.1016/0309-1740(95)00012-7

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