The role of gut tissue in the energy metabolism of growing lambs fed forage or concentrate diets

The role of the gastrointestinal tract (GIT) in explaining the less efficie nt utilization of metabolizable energy (ME) in growing lambs fed forage rat her than concentrate-based diets was investigated by feeding forage (legume -grass silage) and concentrate (whole shelled maize) diets, at isoenergetic intakes (ME basis), using five groups of lambs. One group of seven lambs w as an initial slaughter group and of the two groups (eight lambs per group) fed each diet, one group was fed for 8 weeks, whereas the other group was fed for 16 weeks. All lambs were slaughtered between 18.5 and 20 h followin g their last meal. Retained energy (as a percentage of ME intake) was highe r (concentrate-fed 28, forage-fed 17; P <0.001) for the concentrate-fed ani mals. Weight-specific mucosal O-2 uptake (ml/g DM per h), measured in vitro , was 37 % higher for the forestomach (reticulum, rumen and omasum) and sma ll intestine (jejunum) than for the abomasum and large intestine (caecum an d colon), but there was no evidence for a diet effect (except colon; forage -fed 5.3, concentrate-fed 4.2; P=0.036). Total GIT heat loss was estimated as 14 (forage-fed) and 18 (concentrate-fed) % of the whole-body heat loss. Although the GIT did not contribute to increased thermogenesis in the forag e-fed lambs in the present study, greater relative contribution of GIT tiss ue to whole-body mass, i.e. GIT as a percentage of empty-body weight(forage 7.6, concentrate 6.6; P <0.001) in the forage-fed animals supports a role for the GIT in contributing to higher thermogenesis observed in ruminants f ed forage as opposed to concentrate diets.