Twenty-seven sows were allocated at their flrst farrowing to 3 experimental treatments in which their sucking pigs had access to no supplemental milk, liquid cow milk (CM), or a synthetic milk supplement (SM). Liquid cow milk contained 128 g total solids/kg, 24¢2 g CP/kg, 30¢4 g fat/kg, and 1¢8 g lysine/kg, whereas the supplemental synthetic milk contained 200 g total solids/kg, 102¢ 6g CP/kg, 36¢0 g fat/kg, and 9¢0 g lysine/kg. All litters contained 12 pigs and the supplemental milk products were ofiered ad libitum from Day 4 of lactation until weaning at 28 days of age. Between Days 0 and 14 of lactation, there was no efiect of treatment on supplemental milk intake or average piglet growth rate but between Days 14 and 28 of lactation, litters given milk supplements grew faster than litters receiving no supplemental milk. Overall, piglet growth rates between Days 0 and 28 of lactation were greater for litters receiving supplemental milk (297 and 277 g/day for CM and SM litters, respectively) than for litters receiving no supplemental milk (239 g/day). Piglets ofiered cow milk drank more milk between Days 4 and 28 of lactation than piglets ofiered the synthetic milk (5¢48 v. 2¢38 kg/day). Piglets in litters which had access to cow milk visited the supplemental feeder more often (5¢5 v .2 ¢7 visits per suckling interval) and spent longer at the feeder (45¢4 v .1 4¢5 s) than pigs in litters which had access to the synthetic milk supplement. Average sow milk production was 15¢4 and 15¢3 kg/day between Days 11 and 14 and between Days 25 and 28 of lactation, respectively, and was unafiected by treatment. Treatment also had no signiflcant efiect on average suckling interval on Day 21 of lactation (51¢7 min) or carcass composition of representative pigs from each litter killed at 28 days of age. Between Days 14 and 28, female pigs grew faster than male pigs (304¢3§9¢3 v. 292¢0§9¢2 g/day). These results demonstrate that provision of supplemental milk to sucking pigs can improve preweaning growth rate and the response increased as lactation proceeded.
[1]
F. L. Stevenson,et al.
Lysine requirements of pigs from 2 to 7 kg live weight
,
1997
.
[2]
M. Azain,et al.
Effect of supplemental pig milk replacer on litter performance: seasonal variation in response.
,
1996,
Journal of animal science.
[3]
F. Dunshea,et al.
Effect of sex, weight and age on post-weaning growth of pigs
,
1996
.
[4]
D. Bauman,et al.
Nutrient Uptake and Endocrine Regulation of Milk Synthesis by Mammary Tissue of Lactating Sows
,
1995
.
[5]
C. Atwood,et al.
The response of first-litter sows to dietary protein level during lactation.
,
1993,
Journal of animal science.
[6]
R. D. Boyd,et al.
Limitations of sow milk yield on baby pig growth
,
1993
.
[7]
D. Baker,et al.
Ideal amino acid pattern for 10-kilogram pigs.
,
1992,
Journal of animal science.
[8]
C. Atwood,et al.
Collection of fore and hind milk from the sow and the changes in milk composition during suckling
,
1992,
Journal of Dairy Research.
[9]
D. Mahan,et al.
Effect of pig weaning weight and associated nursery feeding programs on subsequent performance to 105 kilograms body weight.
,
1991,
Journal of animal science.
[10]
J. Pettigrew,et al.
A refinement and evaluation of the isotope dilution method for estimating milk intake by piglets
,
1987
.
[11]
T. Reale.
Supplemental liquid diets and feed flavours for young pigs
,
1987
.
[12]
V. Fowler.
16 – THE NUTRITION OF THE PIGLET
,
1985
.
[13]
R. Hodge.
Efficiency of food conversion and body composition of the preruminant lamb and the young pig
,
1974,
British Journal of Nutrition.