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Investigation of the vitamins A and E and β-carotene content in milk from UK organic and conventional dairy farms

Published online by Cambridge University Press:  09 October 2007

Kathryn A Ellis ,
Ana Monteiro ,
Giles T Innocent ,
Dai Grove-White ,
Peter Cripps ,
W Graham McLean ,
C Vyvyan Howard  and
Monika Mihm
Kathryn A Ellis*
Affiliation:
Division of Animal Production and Public Health, University of Glasgow Veterinary School, Bearsden Road, Bearsden, Glasgow, G61 1QH, UK
Ana Monteiro
Affiliation:
Division of Cell Sciences, Institute of Comparative Medicine, University of Glasgow Veterinary School, Bearsden Road, Bearsden, Glasgow, G61 1QH, UK
Giles T Innocent
Affiliation:
Division of Animal Production and Public Health, University of Glasgow Veterinary School, Bearsden Road, Bearsden, Glasgow, G61 1QH, UK
Dai Grove-White
Affiliation:
Division of Livestock Health and Welfare, University of Liverpool Faculty of Veterinary Medicine, Leahurst, Neston, CH64 7TE, UK
Peter Cripps
Affiliation:
Division of Livestock Health and Welfare, University of Liverpool Faculty of Veterinary Medicine, Leahurst, Neston, CH64 7TE, UK
W Graham McLean
Affiliation:
Department of Pharmacology & Therapeutics School of Biomedical Sciences, Sherrington Buildings, Ashton Street, Liverpool, Merseyside, L69 3GE, UK
C Vyvyan Howard
Affiliation:
Centre for Molecular Biosciences, University of Ulster, Cromore Road, Coleraine, Co. Londonderry, BT52 1SA, UK
Monika Mihm
Affiliation:
Division of Cell Sciences, Institute of Comparative Medicine, University of Glasgow Veterinary School, Bearsden Road, Bearsden, Glasgow, G61 1QH, UK
*
*For correspondence; e-mail: k.ellis@vet.gla.ac.uk
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Abstract

During a 12-month longitudinal study, bulk-tank milk was collected from organic (n=17) and conventional (n=19) dairy farms in the UK. Milk samples were analysed for vitamin A (retinol), vitamin E (α-tocopherol) and β-carotene content. The farming system type, herd production level and nutritional factors affecting the milk fat vitamin content were investigated by use of mixed model analyses. Conventionally produced milk fat had a higher mean content of vitamin A than organically produced milk fat, although there were no significant differences in the vitamin E or β-carotene contents between the two types of milk fat. Apart from farming system, other key factors that affected milk fat vitamin content were season, herd yield and concentrate feeding level. Milk vitamin content increased in the summer months and in association with increased concentrate feeding, whilst higher-yielding herds had a lower milk vitamin E and β-carotene content. Thus, conventional dairy farms in the UK produced milk with a higher vitamin A content, possibly owing to increased vitamin A supplementation in concentrate feeds. However, knowledge of the effects of season, access to fresh grazing or specific silage types and herd production level may also be used by all producers and processors to enhance the vitamin content in milk.

Keywords

Organic farmingvitamin Avitamin Eβ-carotene
Type
Research Article
Information
Journal of Dairy Research , Volume 74 , Issue 4 , November 2007 , pp. 484 - 491
Copyright
Copyright © Proprietors of Journal of Dairy Research 2007

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References

Anon 2005a Organic Market Report 2005. Soil Association PublicationsGoogle Scholar
Anon 2005b Compendium of UK Organic StandardsGoogle Scholar
Arnaud, J, Fortis, I, Blachier, S, Kia, D & Favier, A 1991 Simultaneous determination of retinol, α-tocopherol and β-carotene in serum by isocratic high-performance liquid chromatography. Journal of Chromatography 572 103116CrossRefGoogle ScholarPubMed
Bergamo, P, Fedele, E, Iannibelli, L & Marzillo, G 2003 Fat soluble vitamin contents and fatty acid composition in organic and conventional Italian dairy products. Food Chemistry 82 625631Google Scholar
Budavari, S, O'Neil, MJ, Smith, A, Heckelman, PE & Kinneary, JF 1996 The Merck Index. Twelfth Edition p. 1620Google Scholar
Burri, BJ 1997 β-Carotene and human health: a review of current research. Nutrition Research 17 547580Google Scholar
Calderón, F, Chauveau-Duriot, B, Martin, B, Graulet, B, Doreau, M & Nozière, P 2007 Variations in carotenoids, vitmains A and E and color in cows' plasma and milk during late pregnancy and the first three months of lactation. Journal of Dairy Science 90 23352346Google Scholar
Chamberlain, AT & Wilkinson, JM 1998 Feeding the Dairy Cow. 2nd Edn. Ipswich, UK: Chalcombe PublicationsGoogle Scholar
Ellis, KA, Innocent, G, Grove-White, D, Cripps, P, McLean, WG, Howard, CV & Mihm, M 2006 Comparing the fatty acid composition of organic and conventional milk. Journal of Dairy Science 89 19381950CrossRefGoogle ScholarPubMed
Hewavitharana, AK, Van Brakel, AS & Harnett, M 1996 Simultaneous liquid chromatographic determination of vitamins A, E and β-carotene in commom dairy foods. International Dairy Journal 6 613624Google Scholar
Jensen, SK, Johannsen, AKB & Hermansen, JE 1999 Quantitative secretion and maximal secretion capacity of retinol, β-carotene and α-tocopherol into cows’ milk. Journal of Dairy Research 66 511522CrossRefGoogle ScholarPubMed
Lampkin, N 2002 Organic Farming, 2nd Edn. Ipswich, UK: Old Pond PublishingGoogle Scholar
Larson, LL, Wallen, SE, Owen, FG & Lowry, SR 1983 Relation of age, season, production and health indices to iodine and β-carotene concentrations in cows' milk. Journal of Dairy Science 66 25572562CrossRefGoogle Scholar
Lindmark-Månsson, H, Fondén, R & Pettersson, H 2003 Composition of Swedish dairy milk. International Dairy Journal 13 409425CrossRefGoogle Scholar
Marks, J 1968 The Vitamins in Health and Disease. First Edn. London, UK: J & A Churchill Ltd. pp. 21172Google Scholar
McDowell, LR 2000 Vitamins in Animal and Human Nutrition. Second Edn. Ames IW, USA: Iowa State University PressGoogle Scholar
Nielsen, JH, Lund-Nielsen, T & Skibsted, L 2004 Higher antioxidant content in organic milk than in conventional milk due to feeding strategy. Accessed at http://www.darcof.dk/enews/sep04/milk.htmlGoogle Scholar
Nozière, P, Graulet, B, Lucas, A, Martin, B, Grolier, P & Doreau, M 2006a Carotenoids for ruminants: from forages to dairy products. Animal Feed Science and Technology 131 418450Google Scholar
Nozière, P, Grolier, P, Durand, D, Ferlay, A, Pradel, P & Martin, B 2006b Variations in carotenoids, fat-soluble micronutrients and color in cows' plasma and milk following changes in forage and feeding level. Journal of Dairy Science 89 26342648CrossRefGoogle ScholarPubMed
O' Brien, B, Lennartsson, T, Mehra, R, Cogan, TM, Connolly, JF, Morrissey, PA & Harrington, D 1999 Seasonal variation in the composition of Irish manufacturing and retail milks. Irish Journal of Agricultural and Food Research 38 7585Google Scholar
Salo-Väänänen, P, Ollilainen, V, Mattila, P, Lehikoinen, K, Salmela-Molsa, E & Piironen, V 2000 Simultaneous HPLC analysis of fat-soluble vitamins in selected animal products after small-scale extraction. Food Chemistry 71 535543CrossRefGoogle Scholar
Shingfield, KJ, Salo-Vaananen, P, Pahkala, E, Toivonen, V, Jaakkola, S, Piironen, V & Huhtanen, P 2005 Effect of forage conservation method, concentrate level and propylene glycol on the fatty acid composition and vitamin content of cows’ milk. Journal of Dairy Research 72 349361CrossRefGoogle ScholarPubMed
Strobel, M, Heinrich, F & Biesalski, HK 2000 Improved method for rapid determination of vitamin A in small samples of breast milk by high performance liquid chromatography. Journal of Chromatography A 898 179183Google Scholar
Toledo, P & Andrén, A 2003 Content of β-carotene in organic milk. Food, Agriculture and Environment 12 122125Google Scholar