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23 Dairy Products 437
water-in-oil emulsion is formed as the small water droplets are
dispersed into the fat matrix.
The churning process is probably most critical to the textural
quality of the butter. As air is incorporated into the cream, the
fat globules surround the air bubbles and coalesce with other
fat-coated air bubbles to form clumps. These clumps continue
to coalesce during the churning process and the volume of air
bubbles decreases. The proportion of solid fat, which is influ-
enced by temperature, is critical to the aggregation of fat clumps
to form butter. If the rate of churning is too fast, the fat globules
are less stable and less likely to coalesce, resulting in a greater
loss of fat into the buttermilk.
Buttermilk
Natural buttermilk is a by-product of butter manufacture (Fig-
ure 23.2) and is categorized as sweet (nonfermented) or acidic
(fermented). Sweet and acid buttermilk are obtained from the
manufacture of butter from nonfermented, sweet cream and sour
or cultured cream, respectively. In general, the composition of
buttermilk is similar to that of skim milk, consisting of milk
proteins, lactose, minerals, and some lipids. The fat content of
natural buttermilk is approximately 0.4% and consists primar-
ily of the membrane components of the fat globules. Churning
disrupts the fat globules and the MFGM associates with the but-
termilk fraction. The MFGM is characterized as having a higher
content of phospholipids and unsaturated fatty acids than found
in whole milk. The high phospholipid content provides emulsi-
fication ability and expands the functionality of buttermilk as a
dairy ingredient. However, because of the high content of unsat-
urated fatty acids associated with the membrane lipids, natural
buttermilk has a characteristic flavor and is also more susceptible
to the development of oxidized off-flavors (Sodini et al. 2006).
Cultured buttermilk and cultured skim milk are more fre-
quently produced as alternatives to the traditional buttermilk
(Figure 23.3). The solids-not-fat and fat contents of cultured
buttermilk range from 7.4% to 11.4% and 0.25% to 1.9%, respec-
tively. The homogenized and pasteurized milk with the desired
fat content is inoculated with a 1% starter culture ofLc. lactisssp.
lactisandLc. lactisbiovar.diacetylactisandLn. mesenteroides
ssp.cremoris. These bacteria metabolize citrate to diacetyl to
contribute to the development of “buttery” flavor. Acid is pro-
duced by these bacteria at a relatively slow rate.
Only a minor percentage of the buttermilk produced is con-
sumed directly. The commercial use of buttermilk includes ap-
plications in the baking and dairy industries (Sodini et al. 2006).
For many of these applications, the buttermilk is concentrated by
evaporation and spray dried to form a powder. Spray drying has
been shown to result in a significant decrease in the phospholipid
content, which could have important implications with respect to
the functionality of buttermilk powders as an ingredient (Morin
et al. 2007).
Sour Cream
Sour cream is produced from pasteurized, homogenized cream
(20–30% fat) and has a pleasant acidic taste and buttery aroma
Figure 23.3.Processing scheme for cultured buttermilk.
(Fig. 23.4). Low-fat sour cream has a fat content ranging from
10% to 12%. Following standardization of the milk and cream
to the desired fat content, the mixture is warmed and homoge-
nized to improve the consistency of the final product. The starter
cultures includeLc. lactisssp.lactisandLc. lactisbiovar.di-
acetylactisandLn. mesenteroidesssp.cremoris. As in butter-
milk, these cultures contribute to the acid and buttery flavor
of the sour cream. The sour cream may be packaged prior to
or following fermentation at 20◦C until the pH is reduced to
4.5. Packaging prior to fermentation results in a thicker product
because the gel is not disturbed. As the pH decreases, the fat
clusters aggregate to form a viscous cream. Rennet or thicken-
ing agents, such as starch, guar gum, carrageenan, and locust
bean gum, are sometimes added to increase the firmness of the
sour cream and stabilize the gel to minimize syneresis (Hunt and
Maynes 1997).
Yogurt
The tremendous increase in the popularity of yogurt in recent
decades has been attributed to its health food image and the
wide diversity of flavors, compositions, and viscosities available
to consumers. The manufacturing methods, raw materials, and