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http://dx.doi.org/10.22424/jmsb.2018.36.4.196

Rheological Properties and Fatty Acid Profile of Farm Butter Made from Cows' Milk Grazing on Mountain Pasture  

Park, Seung-Young (Dept. of Animal Science, Yonam College)
Lee, Bae-Hun (Dept. of Animal Applied Science, Kangwon National University)
Gang, Hyo-Jin (Dept. of Animal Applied Science, Kangwon National University)
Kim, Gur-Yoo (Dept. of Animal Applied Science, Kangwon National University)
Publication Information
Journal of Dairy Science and Biotechnology / v.36, no.4, 2018 , pp. 196-207 More about this Journal
Abstract
This study was carried out to investigate the rheological properties and composition of unsaturated fatty acid of farm butter made from the milk of cows grazing at high mountain pasture in Pyronogchang SKY ranch (above sea level, 935 m). From two groups containing 7 cows each, a group was fed in-door with TMR (total mixed ration) feed and whereas the other group was grazed pastures for 12 h. The daily intake of feed on basis of dry matter (DMI), milk yields, concentration of milk constituents, and fatty acid profile of pasture milk were compared with control TMR milk. In addition, the physiochemical properties and composition of unsaturated fatty acids of the butter were also compared with those of the butter made from control TMR milk. Upon comparison, the health-promoting index (HPI) of fatty acids; the ratio of omega-6 fatty acids to omega-3 fatty acids (n-6 to n-3 UFA), the atherogenicity index (AI), and the ratio of linoleic acid to ${\alpha}$-linolenic acid (LA to ALA) was apparently improved in farm butter than those of control butter. Thus, it could make the dairy farm visitors to consume the farm butter containing the health-promoting fatty acids from the milk of cows grazing on mountain pasture.
Keywords
farm butter; grazing cows; mountain pasture; health-promoting index of fatty acids; rheological properties;
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1 Vazquez, O. P. and Smith, T. R. 2000. Factors affecting pasture intake and total dry matter intake in grazing dairy cows. J. Dairy Sci. 82:2301-2309.
2 Vithanage, C. R., Grimson, M. J. and Smith, B. G. 2009. The effect of temperature on the rheology of butter, spreadable blend and spread. J. Texture Studies 40:346-369.   DOI
3 Wright, A. J., Scanlon, M. G., Hartel, R. W. and Marangoni, A. G. 2001. Rheological properties of milk fat and butter. J. Food Sic. 66:1056-1071.
4 한국농수산식품유통공사. 2015. 2015 가공식품세분시장: 버터/치즈 시장. 발간등록번호 11-1543000-001037-01(www.aTFIS.or.kr).
5 한국식품의약품안전처. 2017. 축산물의 가공기준 및 성분규격(www.mfds.go.kr).
6 Jessica. L. O. B., Suellen, M. G. M., Josevan, S., Ana, S. B. M., de Figueiredo, R. M. F., Rita, C. and Marta, S. M. 2015. Conjugated linoleic acid concentration and fatty acid composition of Brazilian fermented dairy products: Short comunication. J. Nutr. Food Sci. 5:403.
7 Lerma-Reyes, I., Mendeoza-Matines, G. D., Rojo-Rubio, R., Megia, M., Garcia-Lopez, J. C. and Lee-Rangel, H. A. 2018. Influence of supplemental canola or soybean oil on milk yield, fatty acid profile and postpartum weight changes in grazing dairy goats. Asian-Australas. J. Anim. Sci. 31:225-229.   DOI
8 Bicanic, D., Dimitrovski, D., Luterotti, S., Markovic, K., van Twisk, C. and Buijnsters, J. G. 2010. Correlation of trans-lycopene measurements by the HPLC method with the optothermal and photoacoustic signals and the colour readings of fresh tomato homogenates. Food Biophys. 5:24-33.   DOI
9 Blasko, J., Kubines, R., Gorova, R. A., Fabry, I., Lorenz, W. and Sojak, L. 2010. Fatty acid composition of summer and winter cows' milk and butter. J. Food and Nutr. Res. 49:169-177.
10 Bobe, G., Zimmerman, S., Hammond, E. G., Freeman, G., Porter, P. A., Luhman, C. M. and Beitz, D. C. 2008. Butter composition and texture from cows with different milk fatty acid compositions fed fish oil or roasted soybeans. Iowa State University Animal Industry Report 2008. A.S. Leflet R2302.
11 Chichlowski, M. W., Schroeder, J. W., Park, C. S., Keller, W. L. and Schimek, M. E. 2005. Altering the fatty acids in milk fat by including canola seed in dairy cattle diets. J. Dairy Sci. 88:3084-3094.   DOI
12 Kay, J. K., Roche, J. R., Kolver, E. S., Thomson, N. A. and Baumgard, L. H. 2005. A comparison between feeding system (pasture and TMR) and the effect of vitamin E supplementation on plasma and milk fatty acid profiles in dairy cows. J. Dairy Res. 72:322-332.   DOI
13 Esmaeilifard, N., Bahmaei, M. and Eshratabadi, P. 2016. Comparison of physicochemical characteristics of some margarines and butters in Iranian market during storage. J. Pharm. Health Sci. 4:181-192.
14 Harnett, M. 1989. The rheology of butter. A Ph. D. Thesis, Massey Univ., NZ.
15 Jessica. L. O. B., Suellen, M. G. M., Josevan, S., Ana, S. B. M., de Figueiredo, R. M. F., Rita, C. and Marta, S. M. 2015. Conjugated linoleic acid concentration and fatty acid composition of Brazilian fermented dairy products: Short comunication. J. Nutr. Food Sci. 5:403.
16 Khan, N. A., Yu, P., Ali, M., Cone, J. W. and Hendrics, W. H. 2015. Nutritive value of maize silage in relation to dairy cow performance and milk quality. J. Sci. Food Agric. 95:238-252.   DOI
17 Korea Dairy Committee. 2018. 2018 Dairy Statistics Yearbook (www.dairy.or.kr).
18 Nielsen, T. S., Straarup, E. M., Vestergaard, M. and Sejrsen, K. 2006. Effect of silage type and concentrate level on conjugated linoleic acids, trans-C18:1 isomers and fat content in milk from dairy cows. Reprod. Nutr. Dev. 46:699-712.   DOI
19 NRC. 2001. Nutrient requirements of dairy cattle, Chap 2. Energy, 7'th Rev. Ed., p.13-27. Washington D.C.
20 Park, M. S., Rhu, S. J., Shin, J. S., Lee, K. T. and Park, S. Y. 2018. Effects of avocado butter made from mountain pasture milk for skin recovery of lactating women. 2018 IDF Dairy Summit Conference, Health and Nutrition Abstract No. 114. Daejeon, Korea.
21 Povolo, M., Pelizzola, V., Passolungo, L., Biazzi, E., Tava, A. and Contarini, G. 2013. Characterization of two Agrostis-Festuca alpine pastures and their influence on cheese composition. J. Agric. Food Chem. 61:447-455.   DOI
22 Park, S. Y., Ahn, J. E., Jung, M. Y., Kim, G. B. and Lee, B. H. 2008. Distribution of geometric isomers in dairy foods from the Quebec province of Canada. Kor. Food Sci. Biotechnol. 17:31-37.
23 Piamphon, N., Wachirapakon, C., Wanapat, M. and Navanukra, C. 2009. Effects of protected conjugated lnoleic acid supplementation on milk fatty acid in dairy cow. Asian. Australas. J. Anim. Sci. 22:49-56.   DOI
24 Povolo, M., Pelizzola, V., Lombardi, G., Tava, A. and Contarini, G. 2012. Hydrocarbon and fatty acid composition of cheese as affected by the pasture vegetation type. J. Agric. Chem. 60:299-308.   DOI
25 Rego, O. A., Portugal, P. V., Sousa, M. B., Rosa, H. J. D., Vouzela, C. M., Borba, A. E. S. and Bessa, A. E. S. 2004. Effect of diet on the fatty acid pattern on milk from dairy cows. Anim. Res. 53:213-220.   DOI
26 Rule, D. C., Broughton, K. S., Shellito, S. M. and Maiorano, G. 2002. Comparison of muscle fatty acid profiles and cholesterol concentrations of bison, beef cattle, elk, and chicken. J. Anim. Sci. 80:1202-1211.   DOI
27 Schoeder, G. F., Delahoy, J. E., Vidaurreta, I., Bargo, F., Gagliostro, G. A. and Muller, L. D. 2003. Milk fatty acid composition of cows fed a total mixed ration or pasture plus concentrates replacing corn with fat. J. Dairy Sci. 86:3237-3248.   DOI
28 Sohn, Y. S. and Yang, W. M. 2008. Japanese feeding standard for dairy cattle (2006). Kor. Anim. Sci. Technol., Shinkwang Pub. pp. 36-37.
29 Suh, M. H., Yun, K. and Baick, S. C. 2008. Optimization of the manufacturing of process butter by response surface methodology and its tecture and rheological properties. Kor. J. Dairy Sci. Technol. 26:51-56.