J. Gdala et al., THE DIGESTIBILITY OF CARBOHYDRATES, PROTEIN AND FAT IN THE SMALL AND LARGE-INTESTINE OF PIGLETS FED NON-SUPPLEMENTED AND ENZYME SUPPLEMENTED DIETS, Animal feed science and technology, 65(1-4), 1997, pp. 15-33
The digestibility of carbohydrates, protein and fat was studied in 8-
to 12-week-old piglets fitted with a T-shaped cannula at the terminal
ileum and fed two diets based on barley and wheat as the cereal source
and with protein from soybean meal (diet CS) or pea, soybean meal and
rapeseed cake (diet CPSR). The diets were fed either alone or supplem
ented with single enzymes (alpha-galactosidase, xylanase, beta-glucana
se, alpha-amylase, protease) or with a mixture of enzymes (alpha-galac
tosidase, xylanase and protease). After completing the digestibility t
rials, four piglets on each of the two basal diets were slaughtered an
d samples of digesta were taken along the gastrointestinal (GI) tract
for additional measurements of carbohydrates and organic acids, Three
hours after the meal the disappearance of raffinose oligosaccharides (
raffinose, stachyose and verbascose) was about 39% as measured in the
pooled digesta from the stomach and the small intestine. Digestibility
of raffinose oligosaccharides at the terminal ileum was 86-90%, The r
elatively high digestibility in the upper intestine is most likely cau
sed by endogenous plant and microbial alpha-galactosidases. The digest
ibility of starch at all sampling points along the GI tract was signif
icantly higher with diet CS than with diet CPSR, while the digestibili
ty of protein, fat and non-starch polysaccharides was similar for the
two diets, In the large intestine, pectin was more rapidly and extensi
vely digested than cellulose, arabinoxylans and xylan polysaccharides
but the fermentation yielded similar proportions of acetate, propionat
e and butyrate. The supplementation of diet CS with xylanase or diet C
PSR with the enzyme mixture, increased the digestibility of xylose of
diet CS and xylose, arabinose and mannose and DM of diet CPSR. None of
the other enzymes, however, improved the digestibility of nutrients.
(C) 1997 Elsevier Science B.V.