Influence of Production Season and Lactation Stage on the Technological Suitability of Milk from Cows of Various Breeds Fed in the TMR System

AOAC (2000 a). Official Methods of Analysis. Casein Nitrogen Content of Milk. 998.06. AOAC International, Chapter 32, 52.Search in Google Scholar

AOAC (2000 b). Official Methods of Analysis. Collection of Milk Laboratory Sample. 925.20. AOAC International, Chapter 33, 4.Search in Google Scholar

Auldist M.J., Johnston K.A., White N.J., Fitzsimons W.P., Boland M.J. (2004). A comparison of the composition, coagulation characteristics and cheesemaking capacity of milk from Friesian and Jersey dairy cows. J. Dairy Res., 71: 51–57.Search in Google Scholar

Barłows ka J., Litwińczuk Z. (2006). Technological usefulness of milk from two local breeds maintained in the regions with great grassland share. Arch. Tierzucht., 49: 207–213.Search in Google Scholar

Barłows ka J., Litwińczuk Z., Brodzia k A., Chabuz W. (2012). Effect of the production season on nutritional value and technological suitability of milk obtained from intensive (TMR) and traditional feeding system of cows. J. Microb. Biotech. Food Sci., 1: 1205–1220.Search in Google Scholar

Bittante G., Penasa M., Cecchinato A. (2012). Invited review: Genetics and modeling of milk coagulation properties. J. Dairy Sci., 95: 6843–6870.Search in Google Scholar

Brodziak A., Litwińczuk A., Topyła B., Wolanciuk A. (2012). Influence of production season × breed and feeding system interactions on daily yield and milk physical-chemical composition (in Polish). Scient. Ann. Pol. Soc. Anim. Prod., 8: 19–27.Search in Google Scholar

Cassandro M., Comin A., Ojala M., DalZotto R., De Marchi M., Gallo L., Carnier P., Bittante G. (2008). Genetic parameters of milk coagulation properties and their relationships with milk yield and quality traits in Italian Holstein cows. J. Dairy Sci., 91: 371–376.Search in Google Scholar

Chiofalo V., Maldonato R., Martin B., Dupoint D., Coulon J.B. (2000). Chemical composition and coagulation properties of Modicana and Holstein cow’s milk. INRA. EDP Sci. Ann. Zootech., 49: 497–503.Search in Google Scholar

De Marchi M., DalZotto R., Cassandro M., Bittante G. (2007). Milk coagulation ability of five dairy cattle breeds. J. Dairy Sci., 90: 3986–3992.Search in Google Scholar

Dewettinck K., Rombaut R., Thienpont N., TrungLe T., Messens K., Camp J.V. (2008). Nutritional and technological aspects of milk fat globule membrane material. Int. Dairy J., 18: 436–57.Search in Google Scholar

DiStasio L., Mariani P. (2000). The role of protein polymorphism in the genetic improvement of milk production. Zoot. Nutr. Anim., 26: 69–90.Search in Google Scholar

Faka M., Lewis M.J., Grandison A.S., Deeth H. (2009). The effect of free Ca²⁺ on the heat stability and other characteristics of low-heat skim milk powder. Int. Dairy J., 19: 386–392.Search in Google Scholar

FAOSTAT (2013). Statistics Division (Internet). Food and Agriculture Organization of the United Nations 2011. Available from: http://faostat.fao.org/. Accessed July 29, 2013.Search in Google Scholar

Frederiksen P.D., Hammershøj M., Bakman M., Andersen P.N., Andersen J.B., Qvist K.B., Larsen L.B. (2011). Variations in coagulation properties of cheese milk from three Danish dairy breeds as determined by a new free oscillation rheometry-based method. Dairy Sci. Technol., 91: 309–321.Search in Google Scholar

Guinee T.P. (2003). Role of protein in cheese and cheese products. In: Advanced Dairy Chemistry. 1. Proteins, Part B, Fox P.F., McSweeney P.L.H. (eds). Kluwer Academic/Plenum Publisher, 3rd ed., pp. 1083–1174.10.1007/978-1-4419-8602-3_31Search in Google Scholar

Hallen E., Allmere T., Naslund J., Andren A., Lunden A. (2007). Effect of genetic polymorphism of milk proteins on rheology of chymosin-induced milk gels. Int. Dairy J., 17: 791–799.Search in Google Scholar

Harzia H., Ilves A., Ots M., Henno M., Jõudu I., Kaart T., Ling K., Kärt O., Kilk K., Soomets U. (2013). Alterations in milk metabolome and coagulation ability during the lactation of dairy cows. J. Dairy Sci., 96: 6440–6448.Search in Google Scholar

Ikonen T., Morry S., Tyrisevä A.-M., Routtinen O., Ojala M. (2004). Genetic and phenotypic correlations between milk coagulation properties, milk production traits, somatic cell count, casein content and pH of milk. J. Dairy Sci., 87: 458–467.Search in Google Scholar

Jensen H.B., Poulsen N.A., Andersen K.K., Hammershoj M., Poulsen H.D., Larsen L.B. (2012). Distinct composition of bovine milk from Jersey and Holstein-Friesian cows with good, poor, or noncoagulation properties as reflected in protein genetic variants and isoforms. J. Dairy Sci., 95: 6905–6917.Search in Google Scholar

Jõudu I., Henno M., Varv S., Kaart T., Kart O., Kalamees K. (2007). Milk protein genotypes and milk coagulation properties of Estonian native cattle. Agric. Food Sci., 16: 222–231.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

Litwińczuk Z. (2011). Methods of commodity evaluation of animal raw materials and products (in Polish). University of Life Sciences Publishing, Lublin, Poland, 246 pp.Search 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.Search in Google Scholar

Michalski M.C., Camier B., Briard V., Leconte N., Gassi J Y., Goudedranche H., Michel F., Fauquant J. (2004). The size of native milk fat globules affects physico-chemical and functional properties of Emmental cheese. Lait, 84: 343–358.Search in Google Scholar

Penasa M., Tiezzi F., Sturaro A., Cassandro M., DeMarchi M. (2014). A comparison of the predicted coagulation characteristics and composition of milk from multi-breed herds of Holstein-Friesian, Brown Swiss and Simmental cows. Int. Dairy J., 35: 6–10.Search in Google Scholar

Periši0ć P., Skalicki Z., Petrović M.M., Bogdanović; V., Ružić-Muslić D. (2009). Simmental cattle breed in different production systems. Biotechnol. Anim. Husb., 25: 315–326.Search in Google Scholar

Pretto D., López-Villalobos N., Penasa M., Cassandro M. (2012). Genetic response for milk production traits, somatic cell score, acidity and coagulation properties in Italian Holstein– Friesian population under current and alternative selection indices and breeding objectives. Livestock Sci., 150: 59–66.Search in Google Scholar

St-Gelais D., Hache S. (2005). Effect of β-casein concentration in cheese milk on rennet coagulation properties, cheese composition and cheese ripening. Food Res. Int., 38: 523–531.Search in Google Scholar

Strzał kowska N., Jóźwik A., Bagnicka E., Krzyżewski J., Cooper R.G., Horbańczuk J.O. (2010). Cholesterol content of cow milk in TMR system, Mljekarstvo, 60: 273–279.Search in Google Scholar

Sturaro A., Tiezzi F., Penasa M., De Marchi M., Cassandro M. (2012). Study of milk coagulation properties in multibreed Italian dairy herds. Acta Agr. Slov., 3: 89–92.Search in Google Scholar

Tyrisevä A.M., Vahlsten T., Ruottinen O., Ojala M. (2004). Noncoagulation of milk in Finnish Ayrshire and Holstein-Friesian cows and effect of herds on milk coagulation ability. J. Dairy Sci., 87: 3958–3966.Search in Google Scholar

Wedholm A., Larsen L.B., Lindmark - Mansson H., Karlsson A.H., Andren A. (2006). Effect of protein composition on the cheesemaking properties of milk from individual dairy cows. J. Dairy Sci., 89: 3296–3305.Search in Google Scholar

White S.L., Bertrand J.A., Wade M.R., Washburn S.P., Greek J.T., Jenkins T.C. (2001). Comparison of fatty acid content of milk from Jersey and Holstein cows consuming pasture or a Total Mixed Ration. J. Dairy Sci., 84: 2295–2301.Search in Google Scholar