DAIRY CHEMISTRY AND BIOCHEMISTRY that cause off-flavour defects(hydrolytic and oxidative rancidity) and as solvents for compounds in the environment which may cause off-flavour For many years, the economic value of milk was based mainly or totally on its fat content, which is still true in some cases. This practice was satisfactory when milk was used mainly or solely for butter production Possibly, the origin of paying for milk on the basis of its fat content, apart from its value for butter production, lies in the fact that relatively simple quantitative analytical methods were developed for fat earlier than for protein or lactose. Because of its economic value, there has long been commercial pressure to increase the yield of milk fat per cow by nutritional or genetic means. To facilitate the reader, the nomenclature, structure and properties of t principal fatty acids and of the principal lipid classes are summarized in Appendices 3A, 3B and 3C. The structure and properties of the fat-soluble vitamins, A, D, E and K, are discussed in Chapter 6 3.2 Factors that affect the fat content of bovine milk Bovine milk typically contains c. 3.5% fat but the level varies widely, depending on several factors, including: breed, individuality of the animal, stage of lactation, season, nutritional status, type of feed, health and age of the animal, interval between milkings and the point during milking when the sample is taken Of the common European breeds, milk from Jersey cows contains the ighest level of fat and that from Holstein/ Friesians the lowest( Figure 3.1 The data in Figure 3.1 also show the very wide range of fat content in individual-cow samples The fat content of milk decreases during the first 4-6 weeks after parturition and then increases steadily throughout the remainder of lacta- tion,especially toward the end( Figure 3. 2). For any particular population, fat content is highest in winter and lowest in summer, due partly to the effect of environmental temperature. Production of creamery(manufacturing) milk in Ireland, New Zealand and parts of Australia is very seasonal lactational, seasonal and possibly nutritional effects coincide, leading to large seasonal changes in the fat content of milk(Figure 3. 3), and also in he levels of protein and lactose For any individual animal, fat content decreases slightly dr success- ive lactations, by c. 0.2% over a typical productive lifetime(about five lactations). In practice, this factor usually has no overall effect on the fat content of a bulk milk supply because herds normally include cows of various ages. the concentration of fat (and of all other milk-specific constituents)decreases markedly on mastitic infection due to impaired68 DAIRY CHEMISTRY AND BIOCHEMISTRY that cause off-flavour defects (hydrolytic and oxidative rancidity) and as solvents for compounds in the environment which may cause off-flavours. For many years, the economic value of milk was based mainly or totally on its fat content, which is still true in some cases. This practice was satisfactory when milk was used mainly or solely for butter production. Possibly, the origin of paying for milk on the basis of its fat content, apart from its value for butter production, lies in the fact that relatively simple quantitative analytical methods were developed for fat earlier than for protein or lactose. Because of its economic value, there has long been commercial pressure to increase the yield of milk fat per cow by nutritional or genetic means. To facilitate the reader, the nomenclature, structure and properties of the principal fatty acids and of the principal lipid classes are summarized in Appendices 3A, 3B and 3C. The structure and properties of the fat-soluble vitamins, A, D, E and K, are discussed in Chapter 6. 3.2 Factors that affect the fat content of bovine milk Bovine milk typically contains c. 3.5% fat but the level varies widely, depending on several factors. including: breed, individuality of the animal, stage of lactation, season, nutritional status, type of feed, health and age of the animal, interval between milkings and the point during milking when the sample is taken. Of the common European breeds, milk from Jersey cows contains the highest level of fat and that from Holstein/Friesians the lowest (Figure 3.1). The data in Figure 3.1 also show the very wide range of fat content in individual-cow samples. The fat content of milk decreases during the first 4-6 weeks after parturition and then increases steadily throughout the remainder of lacta￾tion, especially toward the end (Figure 3.2). For any particular population, fat content is highest in winter and lowest in summer, due partly to the effect of environmental temperature. Production of creamery (manufacturing) milk in Ireland, New Zealand and parts of Australia is very seasonal; lactational, seasonal and possibly nutritional effects coincide, leading to large seasonal changes in the fat content of milk (Figure 3.3), and also in the levels of protein and lactose. For any individual animal, fat content decreases slightly during success￾ive lactations, by c. 0.2% over a typical productive lifetime (about five lactations). In practice, this factor usually has no overall effect on the fat content of a bulk milk supply because herds normally include cows of various ages. The concentration of fat (and of all other milk-specific constituents) decreases markedly on mastitic infection due to impaired