dc.description.abstract |
The study was aimed at determining the chemical composition, in sacco ruminal dry matter
and organic matter degradability of leaves and fruits of tropical condensed tannin rich multipurpose tree
species (MPTS). The MPTS studied were Ekebergia capenesis, Ficus sycomorus, Maesa lanceolata, and Rhus
glutinosa. Chemical composition of dry matter (DM), crude protein (CP), crude ash (CA), ether extract (EE),
crude fibre (CF), neutral detergent fibre (NDF), non-fibre carbohydrates (NFC), and condensed tannin (CT)
was determined. In sacco rumen degradability was measured using three rumen fistulated Holstein FriesianBoran cross steers at 0, 6, 12, 24, 48, 72, and 96 h. The DM and organic matter (OM) degradability data were
fitted to the equation Y = a + b(1 – e–ct). The values for each chemical constituent ranged 5.43–11.49% (CA),
7.97–17.06% (CP), 1.57–31% (EE), 12.20–27.5% (CF), 5.84–39.30% (NFC), and 7.2–16.72% (CT). Ekebergia
capensis leaves had the greatest values for slowly degradable fraction (b), effective degradability (ED), and rate
of degradation (c) in DM (P < 0.001) whereas E. capensis fruit had significantly the greatest soluble fraction (a),
potential degradability (b), and effective degradability (ED) values as compared to the a, PD, and ED values in
the fruits of other plants(P < 0.001). Yet in OM degradation kinetics, the greatest and least values of potential
degradability (PD) were recorded for F. sycomorus (89.89%) and E. capensis (55.90%) leaves (P < 0.001). Similar
to the rapidly soluble fraction a, ED was found to be the greatest in fruits as compared to leaves of the plants
(P < 0.001). Generally variation of plant parts led to significant differences in chemical composition, DM, and
OM degradability and the degradable parameters. The leaves and fruits recorded more than 60% DM and OM
degradability at 24 h, which implied that they were all greatly degradable in the rumen. |
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