한국동물위생학회지 (Korean Journal of Veterinary Service)

  • 제36권4호
  • /
  • Pages.263-272
  • /
  • 2013
  • /
  • 3022-7372(pISSN)
  • /
  • 2287-7630(eISSN)
한국동물위생학회 (The Korean Society of Veterinary Service)
권호 표지
DOI QR코드

DOI QR Code

전남지방 산양유의 성분 및 체세포수의 계절적 변화

Seasonal variation of goat milk composition and somatic cell count in Jeonnam province

  • Kim, Hye-Ra (Seoul Public Health and Environment Research Institute Livestock Product Department) ;
  • Jung, Ji-Young (Jeollanamdo Livestock Sanitation Office) ;
  • Cho, In-Young (College of Veterinary Medicine, Chonnam National University) ;
  • Yu, Do-Hyeon (College of Veterinary Medicine, Chonnam National University) ;
  • Shin, Sung-Shik (College of Veterinary Medicine, Chonnam National University) ;
  • Son, Chang-Ho (College of Veterinary Medicine, Chonnam National University) ;
  • Ok, Ki-Seok (College of Veterinary Medicine, Chonnam National University) ;
  • Hur, Tai-Young (National Institute of Animal Science, RDA) ;
  • Jung, Young-Hun (National Institute of Animal Science, RDA) ;
  • Choi, Chang-Yong (National Institute of Animal Science, RDA) ;
  • Suh, Guk-Hyun (College of Veterinary Medicine, Chonnam National University)
  • 투고 : 2013.10.17
  • 심사 : 2013.11.27
  • 발행 : 2013.12.30
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

Consistent information on the chemical composition and its seasonal variation of goat udder half milk is limited in Korea. The objective of this study was to analyze the seasonal variation of the chemical composition of goat milk to take establish various parameters into consideration on the pricing of the goat milk. Variations in chemical composition, somatic cell count (SCC) and bacterial count of 1,038 udder half milk samples from 650 heads raised in 7 farms of Jeonnam province were determined by season. Fat, protein, lactose, non-fat solids, milk urea nitrogen (MUN), pH, SCC and bacterial counts were also analyzed. The average composition of the milk was: fat $3.80{\pm}1.36%$, protein $3.23{\pm}0.80%$, lactose $4.39{\pm}0.54%$, total solids $12.18{\pm}1.80%$, non-fat solids $8.38{\pm}0.80%$, and milk urea nitrogen $28.44{\pm}5.00mg/dL$. The average pH was $6.81{\pm}0.24$. The average of SCC and bacterial counts were $2.54{\pm}4.60{\times}10^6cells/mL$ and $1.25{\pm}3.76{\times}10^5CFU/mL$, respectively. Chemical composition, pH, SCC and bacterial counts of dairy goat milk varied widely during the lactation period and by season. The fat concentration was the lowest in spring ($3.39{\pm}1.53%$) and the highest in autumn and winter ($3.98{\pm}1.30%$ and $3.98{\pm}1.48%$). Protein concentration was the lowest during summer ($2.92{\pm}0.48%$) and the highest in winter ($2.92{\pm}0.48%$). Lactose concentration was the lowest in autumn ($4.24{\pm}0.41%$) and the highest in spring ($4.58{\pm}0.35%$). The lowest total solid value was obtained in the spring season ($11.75{\pm}1.80%$) which was then increased in winter ($12.85{\pm}1.96%$). Non-fat solid concentration was the lowest in summer ($8.07{\pm}0.64%$) and the highest in autumn ($8.94{\pm}0.82%$). MUN concentration was the highest in summer ($8.07{\pm}0.64%$), and the pH concentration was the highest in spring at $6.93{\pm}0.27%$. Seasonal variation of SCC and bacterial count were the lowest in spring ($0.94{\pm}1.54{\times}10^6cells/mL$ and $0.22{\pm}0.61{\times}10^5CFU/mL$, respectively) and was the highest in winter ($3.95{\pm}7.14{\times}10^6cells/mL$ and $2.23{\pm}5.54{\times}10^4CFU/mL$, respectively).

키워드

참고문헌

  1. Ahn JH, Park WY. 2008. Comparative momthly analysis of goat milk component by individual farms. Korean J Organic Agri 6: 321-330.
  2. Attaie R, Richter RL. 2000. Size distribution of fat globules in goat milk. J Dairy Sci 83: 940-944. https://doi.org/10.3168/jds.S0022-0302(00)74957-5
  3. Borges CHP, Cordeiro PRC, Bresslau S. 2004. Seasonal variation of goat milk composition and somatic cell count in southeastern Brazil. International symposium the future of the sheep and goat dairy sectors, Zaragoza, Spain, 28-30 October.
  4. Brendehaug J, Abrahamsen RK. 1986. Chemical composition of milk from a herd of Norwegian goats. J Dairy Res 53:211-221. https://doi.org/10.1017/S002202990002481X
  5. Espie WE, Mullan WMA. 1990. Compositional aspects of goat's milk in Northern Ireland. Milchwissenschaft 45: 361-362.
  6. Goetsch AL, Zeng SS, Gipson TA. 2011. Factors affecting goat milk production and quality. Small Rumin Res 101:55-63. https://doi.org/10.1016/j.smallrumres.2011.09.025
  7. Guo MR, Dixon PH, Park YW, Gilmore JA, Kindstedt PS. 2001. Seasonal changes in the chemical composition of commingled goat milk. J Dairy Sci 84 (E. Suppl): 79-83. https://doi.org/10.3168/jds.S0022-0302(01)70201-9
  8. Guo MR, Wanga S, Lia Z, Qua J, Jina L, Kindstedt PS. 1998. Ethanol stability of goat's milk. Int Dairy Journal 8:57-60. https://doi.org/10.1016/S0958-6946(98)00020-X
  9. Guzeler N, Say D, Kacar. 2010. Compositional changes of saanen${\times}$Kílís goat's milk during lactation. GIDA 35:325-330.
  10. Haenlein GF. 1996. Status and prospects of the dairy goat industry in the United States. J Anim Sci 74: 1173-1181.
  11. Hof G, Vervoorn MD, Lenaers PJ, Tamminga S. 1997. Milk urea nitrogen as a tool to monitor the protein nutrition of dairy cows. J Dairy Sci 80: 3333-3337. https://doi.org/10.3168/jds.S0022-0302(97)76309-4
  12. Jenness R. 1979. Comparative aspects of milk proteins. J Dairy Res 46: 197-210. https://doi.org/10.1017/S0022029900017040
  13. Jenness R. 1980. Composition and Characteristics of Goat Milk: Review 1968-1979. J Dairy Sci 63: 1605-1630. https://doi.org/10.3168/jds.S0022-0302(80)83125-0
  14. Jeong SG, Lee SG, Kim DH, Ham JS. 2008. Characterristics of goat milk-milk fat, somatic cell conter, and goaty flavor. Korean J Dairy Sci Technol 26: 21-26.
  15. Kim MK, Choi A, Han GS, Jeong SG, Oh MH, Jang A, Seol KH, Ham JS. 2010. Non-pathogenic factors somatic cell counts of goat milk. Korean J Dairy Sci Technol 28:1-5.
  16. Lee SG, Kim MK, Lee YJ, Jeong SG, Oh MH, Kim DH, Park KW, Lee WK, Ham JS. 2010. Comparison of measuring methods for somatic cell count in goat milk. Korean J Food Sci Ani Resour 30: 120-123. https://doi.org/10.5851/kosfa.2010.30.1.120
  17. Leitner G, Merin U, Silanikove N. 2004. Changes in milk composition as affected by subclinical mastitis in goats. J Dairy Sci 87: 1719-1726. https://doi.org/10.3168/jds.S0022-0302(04)73325-1
  18. Luengo C, Sanchez A, Corrales JC, Fernandez C, Contreras A. 2004. Influence of intramammary infection and non-infection factors on somatic cell counts in dairy goats. J Dairy Res 71: 169-174. https://doi.org/10.1017/S0022029904000019
  19. Mba AU, Boyoa1 BS, Oyenugaa VA. 1975. Studies on the milk composition of West African dwarf, Red Sokoto and Saanen goats at different stages of lactation: I. Total solids, butterfat, solids-not-fat, protein, lactose and energy contents of milk. J Dairy Res 42: 217-226. https://doi.org/10.1017/S0022029900015259
  20. Moon JS, Joo YS, Jang GC, Yoon YD, Lee BK, Park YH, Son CH. 2000. Interpretation of protein-energy balance of feeding by milk urea nitrogen and milk protein contents in lactation holstein cow. J Anim Sci & Technol 42:499-510.
  21. Morgan F, Massouras T, Barbosa M, Roseiro L, Ravasco F, Kandarakis I, Bonnin V, Fistakoris M, Anifantakis E, Jaubert G, Raynal-Ljutovac K. 2003. Characteristics of goat milk collected from small and medium enterprises in Greece, Portugal and France. Small Rumin Res 47:39-49. https://doi.org/10.1016/S0921-4488(02)00252-3
  22. Mucha S, Strandberg E. 2011. Genetic analysis of milk urea nitrogen and relationships with yield and fertility across lactation. J Dairy Sci 94: 5665-5672. https://doi.org/10.3168/jds.2010-3916
  23. Nam HM. Lim SK, Kim JM, Jang GC, Jung SC, Wee SH, Han HR, Lee CS. 2011. Somatic cell counts and bacterial status in udder half milk samples of lactating goats in Korea during 2008. Kor J Vet Publ Hlth 35: 61-66.
  24. Paape MJ, Contreras A. 1997. Historical perspective on the evolution of the milk somatic cell count. Flemish Vet J 66:93-105.
  25. Paape MJ, Wiggans GR, Bannerman DD, Thomas DL, Sanders AH, Contreras A, Moroni P, Miller RH. 2007. Monitoring goat and sheep milk somatic cell counts. Small Rumin Res 68: 114-125. https://doi.org/10.1016/j.smallrumres.2006.09.014
  26. Park YW, Juarez M, Ramosc M, Haenlein GFW. 2007. Physico-chemical characteristics of goat and sheep milk. Small Rumin Res 68: 88-113. https://doi.org/10.1016/j.smallrumres.2006.09.013
  27. Parkash S, Jenness R. 1980. The composition and characteristics of goat′s milk, a review. J Dairy Sci 63: 1605-1630. https://doi.org/10.3168/jds.S0022-0302(80)83125-0
  28. Pizzillo M, Cogliandro E, Rubino R, Fedele V. 1996. Relationship between somatic cells and milk quality in different goat production systems, Proceedings of International Symposium on Somatic Cells and Milk of Small Ruminants. Small Ruminant Res 77: 269-273.
  29. Raynal-Ljutovac K, Lagriffoulb G, Paccardb P, Guillet I, Chilliard Y. 2008. Composition of goat and sheep milk products: An update. Small Rumin Res 79: 57-72. https://doi.org/10.1016/j.smallrumres.2008.07.009
  30. Saini AL, Gill RS. 1991. Goat milk: an attractive alternate. Indian Dairyman 42: 562-564.
  31. Shin JH, Jeong SG, Han GS, Jang A, Chae HS, Yoo YM, Ahn CN, Woo KT, Choi AH, Lee WK, Ham JS. 2008. Study of the somatic cell count grade of goat milk in Korea. Korean J food Sci Ani Resour 28: 218-221. https://doi.org/10.5851/kosfa.2008.28.2.218
  32. Sung YY, Wu TI, Wang PH. 1999. Evaluation of milk quality of Alpine, Nubian, Saanen and Toggenburg breeds in Taiwan. Small Ruminant Res 33: 17-23. https://doi.org/10.1016/S0921-4488(98)00201-6
  33. Urbiene SA, Margelyte J 1997. Physical and chemical properties and biological value of goat's, cow's and human milk. Milchwissenscharft 52: 427-430.
  34. Voutsinas L, Pappasa1 C, Katsiaria1 M. 1990. The composition of Alpine goats' milk during lactation in Greece. J Dairy Res 57: 53-62. https://doi.org/10.1017/S0022029900026601
  35. Walkden-Brown SW, Restall BJ, Scaramuzzi RJ, Martin GB, Blackberry MA. 1997. Seasonality in male Australian cashmere goats:Long term effects of castration and testosterone or oestradiol treatment on changes in LH, FSH and prolactin concentrations and body growth. Small Rumin Res 26: 239-252. https://doi.org/10.1016/S0921-4488(97)00017-5
  36. Wasiksiri S, Chethanond U, Pongprayoon S, Srimai S, Nasae B. 2010. Quality aspects of raw goat milk in Lower Southern Thailand. Songklanakarin J Sci Technol 32:109-113.
  37. Wilson DJ, Stewart KN, Sears PM. 1995. Effects of stage of lactation, production, parity and season on somatic cell counts in infected and uninfected dairy goats. Small Rumin Res 16: 165-169. https://doi.org/10.1016/0921-4488(95)00622-R
  38. Wittwer FG, Gallardo P, Reyes J, Opitz R. 1999. Bulk milk urea concentrations and their relationship with cow fertility in grazing dairy herds in Southern Chile. Preven Vet Med. 38: 159-165. https://doi.org/10.1016/S0167-5877(98)00121-4
  39. Wooding FBP, Peaker M, Linzell JL. 1970. Theories of milk secretion: Evidence from the electron microscopic examination of milk. Nature 226: 762-764. https://doi.org/10.1038/226762a0
  40. Ying C, Wang HT, Hsu JT. 2002. Relationship of somatic cell count, physical, chemical and enzymatic properties to the bacterial standard plate count in dairy goat milk. Livest Prof Sci 74: 63-77. https://doi.org/10.1016/S0301-6226(01)00290-1
  41. Zeng SS, Escobar EN. 1996. Effect of breed and milking method on somatic cell count, standard plate count and composition of goat milk. Small Rumin Res 19: 169-175. https://doi.org/10.1016/0921-4488(95)00744-X

피인용 문헌

  1. Hydrolysis by Alcalase Improves Hypoallergenic Properties of Goat Milk Protein vol.36, pp.4, 2016, https://doi.org/10.5851/kosfa.2016.36.4.516