EFFECTS OF PROTEIN AND FAT LEVELS IN MILK ON CHEESE AND WHEY COMPOSITIONS

Bulk tank milk was standardised to six levels of fat (3.0, 3.2, 3.4, 3.6, 3.8, 4.0%) and similarly to six levels of protein, thus giving a total of 36 combinations in composition. Milk was analyzed for total solids, fat, protein. casein, lactose and somatic cell count and was used to make laboratory-scale cheese. Cheese samples from each batch were assayed for total solids. fat, protein and salt. Losses of milk components in the whey were also determined. Least squares analysis of data indicated that higher protein level in milk was associated with higher protein and lower fat contents in cheese. This was accompanied by lower total solids (higher moisture) in cheese. Inversely, higher fat level in milk gave higher fat and lower protein and moisture contents in cheese. Higher fat level in milk resulted in lower retention of fat in cheese and more fat losses in the whey. Higher protein level in milk gave higher fat retention in cheese and less fat losses in the whey. Regression analysis showed that cheese fat increased by 4.22%, while cheese protein decreased by 2.61% for every percentage increase in milk fat. Cheese protein increased by 2.35%, while cheese fat decreased by 6.14% per percentage increase in milk protein. Milk with protein to fat ratio close to 0.9 would produce a minimum of 50% fat in the dry matter of cheese.