Differences in Bioactive Protein and Vitamin Status of Milk Obtained from Polish Local Breeds of Cows

Agabriel C., Cornu A., Journal C., Sibra C., Grolier P., Martin B. (2007). Tanker milk variability according to farm feeding practices: vitamins A and E, carotenoids, colour, and terpenoids. J. Dairy Sci., 90: 4884–4896.10.3168/jds.2007-0171Search in Google Scholar

Annunziata A., Vecchio R. (2016). Organic farming and sustainability in food choices: An analysis of consumer preference in Southern Italy. Agr. Agr. Sci. Procedia, 8: 193–200.10.1016/j.aaspro.2016.02.093Search in Google Scholar

AOAC (2000). Official Methods of Analysis. 17th ed. AOAC International, Arlington, VA.Search in Google Scholar

Balogh P., Békési D., Gorton M., Popp J., Lengyel P. (2016). Consumer willingness to pay for traditional food products. Food Policy, 61: 176–184.10.1016/j.foodpol.2016.03.005Search in Google Scholar

Bergamo P., Fedele E., Iannibelli L., Marzillo G. (2003). Fat-soluble vitamin contents and fatty acid composition in organic and conventional Italian dairy product. Food Chem., 82: 625–631.10.1016/S0308-8146(03)00036-0Search in Google Scholar

Brodziak A., Barłowska J., Król J., Litwińczuk Z. (2012). Effect of breed and feeding system on content of selected whey proteins in cows’ milk in spring-summer and autumn-winter seasons. Ann. Anim. Sci., 12: 261–269.10.2478/v10220-012-0022-6Search in Google Scholar

Brodziak A., Król J., Litwińczuk Z., Barłowska J. (2018). Differences in bioactive protein and vitamin status of milk from certified organic and conventional farms. Int. J. Dairy Technol., 71: 321–332.10.1111/1471-0307.12462Search in Google Scholar

Bruni N., Capucchio M.T., Biasibetti E., Pessione E., Cirrincione S., Giraudo L., Corona A., Dosio F. (2016). Antimicrobial activity of lactoferrin-related peptides and applications in human and veterinary medicine. Molecules, 21: 752.10.3390/molecules21060752Search in Google Scholar

Bulgari O., Caroli A.M., Chessa S., Rizzi R., Gigliotti C.(2013). Variation of vitamin D in cow’s milk and interaction with β-lactoglobulin. Molecules, 18: 10122–10131.10.3390/molecules180910122Search in Google Scholar

Butler G., Nielsen J.H., Slots T., Seal C., Eyre M.D., Sanderson R., Leifert C. (2008). Fatty acid and fat-soluble antioxidant concentrations in milk from high- and low-input conventional and organic systems: seasonal variation. J. Sci. Food Agric., 88: 1431–1441.10.1002/jsfa.3235Search in Google Scholar

Chauveau-Duriot B., Thomas D., Portelli J., Doreau M. (2005). Carotenoids content in forages: Variation during conservation. Renc. Rech. Rumin., 12: 117.Search in Google Scholar

Claesson C. (2016). Swedish native mountain cattle and their milk proteins: conventional compared to pasture operated farming for indoor and outdoor period. Independent Project in Food Science, Bachelor Project, Swedish University of Agricultural Sciences, Department of Food Science, Uppsala, no 451.Search in Google Scholar

Collomb M., Bisig W., Bütikofer U., Sieber R., Bregy M., Etter L. (2008). Seasonal variation in the fatty acid composition of milk supplied to dairies in the mountain regions of Switzerland. Dairy Sci. Technol., 88: 631–647.10.1051/dst:2008029Search in Google Scholar

Commission Regulation (EC) No 1662/2006 of 6 November 2006 amending Regulation (EC) No 853/2004 of the European Parliament and of the Council laying down specific hygiene rules for food of animal origin (L 320).Search in Google Scholar

Debier C., Pottier J., Goffe C., Larondelle Y. (2005). Present knowledge and unexpected behaviours of vitamins A and E in colostrum and milk. Livest. Prod. Sci., 98: 135–147.10.1016/j.livprodsci.2005.10.008Search in Google Scholar

Dolores-Perez M., Calvo M. (1994). Interaction of β-lactoglobulin with retinol and fatty acids and its role as a possible biological function for this protein: Review. J. Dairy Sci., 78: 978–988.10.3168/jds.S0022-0302(95)76713-3Search in Google Scholar

Feldmann C., Hamm U. (2014). Consumers’ perceptions and preferences for local food: A review. Food Qual. Prefer., 40: 152–164.10.1016/j.foodqual.2014.09.014Search in Google Scholar

Gabryszuk M., Sakowski T., Metera E., Kuczyńska B., Rembiałkowska E. (2013). Effect of feeding on content of bioactive substances in milk from cows raised in organic farms (in Polish). Zywn.-Nauk. Technol. Ja., 88: 16–26.10.15193/zntj/2013/88/016-026Search in Google Scholar

Gandini G., Maltecca C., Pizzi F., Bagnato A., Rizzi R. (2007). Comparing local and commercial breeds on functional traits and profitability: the case of Reggiana dairy cattle. J. Dairy Sci., 90: 2004–2011.10.3168/jds.2006-204Search in Google Scholar

Giansanti F., Panella G., Leboffe L., Antonini G. (2016). Lactoferrin from milk: nutraceutical and pharmacological properties. Pharmaceuticals, 9: 61.10.3390/ph9040061Search in Google Scholar

Grunert K.G., Aachmann K. (2016). Consumer reactions to the use of EU quality labels on food products: A review of the literature. Food Control, 59: 178–187.10.1016/j.foodcont.2015.05.021Search in Google Scholar

Hewavitharana A.K., van Brakel A.S., Harnett M. (1996). Simultaneous liquid chromatographic determination of vitamins A, E and beta-carotene in common dairy foods. Int. Dairy J., 6: 613–624.10.1016/0958-6946(95)00057-7Search in Google Scholar

Hulshof P.J.M., van Roekel-Jansen T., vande Bovenkamp P., West C.E. (2006). Variation in retinol and carotenoid content of milk and milk products in the Netherlands. J. Food Compost. Anal., 19: 67–75.10.1016/j.jfca.2005.04.005Search in Google Scholar

Jin L., Yan S.M., Shi B.L., Bao H., Gong J., Guo X., Li J. (2014). Effects of vitamin A on the milk performance, antioxidant functions and immune functions of dairy cows. Anim. Feed Sci. Technol., 192: 15–23.10.1016/j.anifeedsci.2014.03.003Search in Google Scholar

Król J., Litwińczuk Z., Brodziak A. (2008). Content of protein and its fractions in milk of Simental cows with regard to a rearing technology. Ann. Anim. Sci., 1: 57–61.Search in Google Scholar

Król J., Litwińczuk Z., Brodziak A., Sawicka-Zugaj W. (2010). Bioactive protein content in milk from local breeds of cows included in the genetic resources conservation programme. Ann. Anim. Sci., 10: 213–221.Search in Google Scholar

Król J., Brodziak A., Litwińczuk Z., Szwajkowska M. (2011). Whey protein utilization in health promotion (in Polish). Żyw. Człow. Metab., 38: 36–45.Search in Google Scholar

Kuczyńska B., Nałęcz-Tarwacka T., Puppel K., Gołębiewski M., Grodzki H., Slósarz J. (2011). The content of bioactive components in milk depending on cow feeding model in certified ecological farms. J. Res. Appl. Agr. Eng., 56: 7–13.Search in Google Scholar

Kuczyńska B., Puppel K., Gołębiewski M., Kordyasz M., Grodzki H., Brzozowski P. (2012). Comparison of fat and protein fractions of milk constituents in Montbeliarde and Polish Holstein-Friesian cows from one farm in Poland. Acta Vet. Brno, 81: 139–144.10.2754/avb201281020139Search in Google Scholar

Lindmark-Månsson H., Fonden R., Pettersson H.E. (2003). Composition of Swedish dairy milk. Int. Dairy J., 13: 409–425.10.1016/S0958-6946(03)00032-3Search in Google Scholar

Litwińczuk Z., Barłowska J., Chabuz W., Brodziak A. (2012). The nutritional value and technological suitability of milk from cows of 3 Polish breeds included in the programme of genetic resources conservation. Ann. Anim. Sci., 12: 423–432.10.2478/v10220-012-0036-0Search in Google Scholar

Litwińczuk Z., Kowal M., Barłowska J. (2014). Basic chemical composition, proportion of fatty acids, and cholesterol content in milk of four breeds of cows used in the intensive husbandry technologies (in Polish). Zywn.-Nauk. Technol. Ja., 95: 108–121.10.15193/zntj/2014/95/108-121Search in Google Scholar

Nozière P., Graulet B., Lucas A., Martin B., Grolier P., Doreau M. (2006). Carotenoids for ruminants: From forages to dairy products. Anim. Feed Sci. Technol., 131: 418–450.10.1016/j.anifeedsci.2006.06.018Search in Google Scholar

Petrera F., Catillo G., Napolitano F., Malacarne M., Franceschi P., Summer A., Abeni F. (2016). New insights into the quality characteristics of milk from Modenese breed compared with Italian Friesian. Ital. J. Anim. Sci., 15: 559–567.10.1080/1828051X.2016.1222889Search in Google Scholar

Pires P., Fernandes É., Vilarinho M., Barros M., Ferreira R., Carneiro L., Almeida G., Vaz-Velho M.V. (2003). Comparison of milk from two different cow breeds Barrosã and Frísia. Electron. J. Environ. Agric. Food Chem., 2: 514–518.Search in Google Scholar

Puppel K., Sakowski T., Kuczyńska B., Grodkowski G., Gołębiewski M., Barszczewski J., Wróbel B., Budziński A., Kapusta A., Balcerak M. (2017). Degrees of antioxidant protection: A 2-year study of the bioactive properties of organic milk in Poland. J. Food Sci., 82: 525–528.10.1111/1750-3841.13594Search in Google Scholar

Radkowska I. (2013). Effect of housing system and diet on the fatty acid, vitamin and macronutrient content of milk from Holstein-Friesian cows (in Polish). Scient. Ann. Pol. Soc. Anim. Prod., 40: 171–182.Search in Google Scholar

Ramalho H.M.M., Santos J., Casal S., Alves M.R., Oliveira M.B.P.P. (2012). Fat-soluble vitamin (A, D, E, and β-carotene) contents from a Portuguese autochthonous cow breed – Minhota. J. Dairy Sci., 95: 5476–5484.10.3168/jds.2010-3975Search in Google Scholar

Romero C., Perez-Andújar O., Olmedo A., Jiménez S. (1996). Detection of cow’s milk in ewe’s or goat’s milk by HPL. Chromatographia, 42: 181–184.10.1007/BF02269650Search in Google Scholar

Shingfield K.J., Salo-Väänänen 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. J. Dairy Res., 72: 349–361.10.1017/S0022029905000919Search in Google Scholar

Strusińska D., Antoszkiewicz Z., Kaliniewicz J. (2010). The concentrations of β-carotene, vitamin A and vitamin E in bovine milk in regard to the feeding season and the share of concentrate in the feed ration. Scient. Ann. Pol. Soc. Anim. Prod., 6: 213–220.Search in Google Scholar

Toledo P., Andren A. (2003). Content of beta carotene in organic milk. J. Food Agr. Environ., 2: 122–125.Search in Google Scholar

Wedholm A., Hallén E., Larsen L.B., Lindmark-Månsson H., Karlsson A.H., Allmere T. (2006). Comparison of milk protein composition in a Swedish and a Danish dairy herd using reversed phase HPLC. Acta Agric. Scand. A Anim. Sci., 56: 8–15.10.1080/09064700600836745Search in Google Scholar