| Broiler
Fed Enzyme-Supplemented Soybean Meal
A broiler study was conducted to evaluate the effects of a commercial alpha-galactosidase
enzyme. A corn-soybean meal diet was formulated with 0, 45, 90, 135 or
180 galactosidase units per kg of soybean meal. Each diet was fed to eight
replicate pens of 30 birds. Results indicated that body weight, feed efficiency
and mortality at 24, 35, and 42 days of age were not significantly (>0.05)
affected by treatment. The researchers indicated that enzyme supplementation
of a standard corn-soybean meal broiler diet did not improve broiler performance
in this study.
Waldroup, P.W. and co-workers. 2006. The effect
of levels of alpha-galactosidase enzyme on performance of broilers
fed diets based on corn and soybean meal. J. Applied Poultry
Research 15(1): 48-57
Soybean Meal-Stachyose
A study was conducted to determine whether the oligosaccharide stachyose enhances
gastrointestinal tract health by fermentation that improves the growth of desirable
bacteria species and the growth performance and nutrient digestibility in broilers. The
study involved 42-day experiment with 12 replications of six birds per pen fed
a corn-based diet supplemented with 0, 4, 8, 12, or 16g/kg stachyose. Results
indicated that stachyose levels above 12g/kg depressed pen weights, daily gain
and feed/gain, but not feed intake during the 42-day experiment. Increasing
stachyose tended to reduce nutrient digestibility, however, had no beneficial
effect on caecal pH or the microflora population.
Jiang, H.Q. and co-workers. 2006. Effect of stachyose
supplementation on growth performance, nutrient digestibility and
caecal fermentation characteristics of broilers. Br. Poultry
Sci. 47(4): 516-522.
Full-Fat Soybean Meal for Layers
A study was conducted to evaluate the level of full-fat soybeans that could be
included in layer diets. Diets were formulated with 0, 10, 16 and 22 percent
full-fat soybeans and fed to laying hens during the peak production (33-42 wks
of age). Results indicated that egg production, shell weight, shell thickness,
albumen height or cracked egg percentage were not significantly affected by dietary
treatments. The hens on the full-fat soybean diets tended to significantly
consume less feed than hens receiving the control diet. Feed conversion
ratios were significantly improved in the treatments containing full-fat soybean
meal. Ratios of 1.87, 1.79, 1.80 and 1.80 feed to egg ratios were reported
for the diets containing 1, 10, 16, and 22 percent full-fat soybeans. The
researchers concluded that levels of full-fat soybeans could be included in layer
diets up to 22 percent.
Senkoylu, N. and co-workers. 2005. Use of high levels of full-fat
soybeans in layer diets. J. Applied Poultry Research 14(1): 32-37.
Dairy Studies
Research at the University of Wisconsin studied the amount and ruminal degradability
of soybean meal protein on performance of lactating dairy cows. Twenty-eight
cows were used to compare three crude protein levels (15.6, 16.6 & 17.6%)
and two sources of soybean meal (solvent-extracted, and expeller-processed). The
diet was composed on a dry-weight basis 20% alfalfa silage, 35% corn silage,
45% concentrate mainly from high-moisture corn and soybean meal. A Latin
square designed study was used with 14 days for diet adaptation and a 14-day
collection period. Results indicated no effects of the diet on most of
the production traits measured. Increasing the crude protein content of
the diet from 16.6% to 17.6% increased urinary nitrogen excretion, reduced the
apparent conversion of dietary nitrogen to milk nitrogen, and had no effect on
milk production. Under the conditions of this trial, milk production was
not improved by feeding rumen-undegraded protein from expelled soybean meal or
greater amounts of rumen-degraded from solvent-extracted soybean meal.
Colmenero, J.J. and G.A. Broderick. 2006. Effect of amount and
ruminal degradability of soybean meal protein on performance of lactating dairy
cows. J. Dairy Sci. 89(5): 1635-1643. |