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A comparison of the composition, coagulation characteristics and cheesemaking capacity of milk from Friesian and Jersey dairy cows

Published online by Cambridge University Press:  08 March 2004

Martin J Auldist
Affiliation:
Dexcel Ltd., Private Bag 3123, Hamilton, New Zealand Present address: Department of Primary Industries, RMB 2460 Hazeldean Road, Ellinbank, Victoria 3821, Australia
Keith A Johnston
Affiliation:
Fonterra Research Institute, Private Bag 11 029, Palmerston North, New Zealand
Nicola J White
Affiliation:
Fonterra Research Institute, Private Bag 11 029, Palmerston North, New Zealand
W Paul Fitzsimons
Affiliation:
Fonterra Research Institute, Private Bag 11 029, Palmerston North, New Zealand Present address: Talbot Forest Cheese, Geraldine, New Zealand
Michael J Boland
Affiliation:
Fonterra Research Institute, Private Bag 11 029, Palmerston North, New Zealand

Abstract

Twenty-nine multiparous cows of each of the Jersey and Friesian breeds, all κ-casein AB phenotype, were grazed together and managed identically. On three occasions during 10 d in spring (early lactation), milk was collected from all cows at four consecutive milkings and bulked according to breed. On a separate occasion, milk samples were also collected from each cow at consecutive a.m. and p.m. milkings to form one daily sample per cow. The bulked milks (800–1000 l per breed on each occasion) were standardized to a protein[ratio ]fat (P[ratio ]F) ratio of 0·80, and 350 l from each breed was made into Cheddar cheese. The solids content of the remaining Friesian milk was then increased by ultrafiltration to a solids concentration equal to that of the Jersey milk. This solids-standardized Friesian milk and a replicate batch of P[ratio ]F standardized Jersey milk were made into two further batches of Cheddar cheese in 350-l vats. Compared with Friesian milk, Jersey milk had higher concentrations of most milk components measured, including protein, casein and fat. There were few difference in milk protein composition between breeds, but there were differences in fat composition. Friesian milk fat had more conjugated linoleic acid (CLA) than Jersey milk fat. Jersey milk coagulated faster and formed firmer curd than Friesian milk. Concentrations of some milk components were correlated with coagulation parameters, but relationships did not allow prediction of cheesemaking potential. Jersey milk yielded 10% more cheese per kg than Friesian milk using P[ratio ]F standardized milk, but for milks with the same solids concentration there were no differences in cheese yield. No differences in cheese composition between breeds were detected. Differences in cheesemaking properties of milk from Jerseys and Friesians were entirely related to the concentrations of solids in the original milk.

Type
Research Article
Copyright
© Proprietors of Journal of Dairy Research 2004

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