V. Gencurova et al., RELATIONSHIP BETWEEN ALCOHOL STABILITY OF COWS MILK AND SOME COMPONENTS AND FACTORS OF PRIMARY PRODUCTION, Zivocisna vyroba, 38(9), 1993, pp. 837-848
Resistance of proteins to precipitation is an important precondition f
or UHT heating, high milk pasteurization, and production of condensed
milk. For predicting the stability of proteins, thermal stability test
is being used which can be replaced by the alcohol test. 2552 bulk sa
mples of milk have been collected from cows of the Bohemian Pied breed
with a different share of improving Aryshire, Red Holstein, and Black
Pied Lowland land breed with different levels of absorptive crossing
from the Bohemian Pied breeds having a share of the Holstein breed. Sa
mples of non-preserved milk were measured as to the content of fat M,
proteins (B), lactose (L), solids-non-fat (TPS), and urea (M) and the
value of actual acidity (pH), titration acidity (SH), and conductivity
(gamma), as well as somatic cell count (SB) have been assessed. The a
lcohol stability was defined as the consumption of 96 % ethanol added
to 5 ml milk until a distinct precipitation (AS) occurs. Tab. II gives
basic statistical data. The results obtained show that the milk sampl
es had very good characteristics and were collected from healthy cows.
Somatic cell count was 164 thous./ml, protein content 3.25 %, lactose
content was high - 4.86 %. The value of alcohol stability was found t
o be 5.40 ml. Correlation coefficients between alcohol stability and o
ther parameters of bulk milk samples are given in Tab. III. Besides SH
, AS is in a lower but significant relationship to all indices observe
d; a negative relationship was found between AS and the content of T,
B, SB, gamma (r = -0.09, -0.08, -0.08, -0.17). Alcohol stability deter
iorates with an increase in pH (r = 0.11), positive correlation coeffi
cients were stated between AS and L (r = 0.30), and AS and M (r = 0.12
). Tab. IV, significance of the effect from variance analysis is given
: effect of month on the indices observed was in all cases statistical
ly significant. The content of B was lowest in August (3.03 %) with a
subsequent increase in September and October (3.38 %). The value of SB
fluctuated distinctly, with a minimum m February (130 thous./ml). The
lowest urea content was found in April, a maximum content in July (38
mg/100 ml) and a decrease to 27 mg/100 ml in October. The highest alc
ohol stability (6.60 ml) was noted between June and August, while it w
as lowest in December (4.60 ml) - Fig. 1. As to the effect of breed, a
non-significant relationship to M and SH has been found, other compon
ents and properties have been significantly affected (with the excepti
on of SB). Red Pied dairy cows showed lower SB (154 thous./ml), compar
ed with 183 thous./ml in Black Pied cows which probably corresponds wi
th the findings of higher AS values in the Red Pied cattle (Fig. 2) -
5.50 ml in comparison to 5. 10 ml. The effect of region on individual
indices (except SH) was significant (Fig. 3). Higher values of the con
tent of T, B, L, M, TPS, SB, pH, and AS were found in the maize growin
g region. The effect of lactation order (Fig. 4) was significant for a
ll components and properties except M, T, and pH. First-calf heifers s
howed lower SB compared to older cows (141 thous./ml against 173 thous
./ml). A higher AS of the milk protein (5.60 ml against 5.30 ml) could
probably be in correspondence with a better health condition.