Colostral samples were taken immediately after confinement from 16 Chi
os ewes and 12 Damascus goats for determination of fat, crude protein
(CP), lactose, ash and total solids (TS). Milk samples from sheep (n=4
32), goats (n=721) and cows (n=861) representative of all stages of la
ctation were also taken, over the period 1983 to 1988. These were anal
yzed for fat, CP, ash and TS. Milk samples from 30 ewes, 30 goats and
44 cows were taken for fat, ash, TS, total CP and non-protein nitrogen
(NPN) determination. Highest correlation in all three species was obt
ained from the multiple regression of TS (Y) on fat (X(1)) and CP (X(2
)). The correlation between fat and TS was lower in ewe (R(2)=0.41) th
an cow (R(2)=0.70) and goat (R(2)=0.71) milk. With the exception of ew
es (R(2)=0.68), correlation between CP and TS was low in cow (R(2)=0.2
8) and goat (R(2)=0.24) milk. Ewe milk had the highest fat, CP, ash an
d TS content followed by goat milk; cow milk having the lowest. Goat m
ilk had the highest NPN (2.91 g kg(-1)), ewe milk being intermediate (
2.7 g kg(-1)) and cow milk the lowest (2.18 g kg(-1)). NPN as percent
of total CP was similar in goats (7.13%) and cows (7.43%), but lower i
n ewes (4.66%). Lactose content of colostral milk was low in the first
sampling (Day 1), increased sharply in the second, and steadily later
on. The difference between ewes and goats in their colostral lactose
was small compared with other constituents. TS, CP, ash and fat conten
ts were higher on Day 1 and fell thereafter. It is concluded that ther
e are differences in normal milk composition among ewes, goats and cow
s which may affect their performance for cheese manufacturing, and tha
t from TS determination fat and CP (CP in ewes only) can be estimated
with relatively high precision. Existing differences in colostral milk
between ewes and goats should be taken into consideration when giving
colostrum to offspring of the two species.