Rumen degradability and intestinal digestibility of brewers' grains as affected by origin and heat treatment and of barley rootlets

The rumen degradability and intestinal digestibility of dry matter (DM) and nitrogen (N) of three samples of brewers' grains (BG) and three of barley rootlets (BR) were determined. Rumen degradability was determined by the nylon bag technique in three rumen fistulated wethers. Intestinal digestibility was determined by the mobile nylon bag technique in two duodenal fistulated wethers. N content ranged from 41.2 to 46.4 g/kg DM for BG, and from 42.8 to 53.7 g/kg DM for BR. N effective degradability (NED), calculated for rumen outflow rates determined in each sheep, ranged from 57.2% to 70.9% for BG and from 79.0% to 84.0% for BR. N intestinal digestibility (NID) determined on 8 h-rumen incubated residues, ranged from 84.9% to 89.8% for BG and from 67.3% to 81.3% for BR. Lower rumen degradability was partially compensated by higher intestinal digestibility, resulting in a smaller variation in the estimated amount of digestible bypass N, which ranged from 24.7% to 36.7% for BG and from 10.8% to 17.1% for BR. One BG sample was selected to study the effects of heat treatment (HT) on its chemical composition, rumen degradability and intestinal digestibility. The BG sample was either freeze-dried (UBG) or dried at 50°C (50BG), 100°C (100BG), 135°C (135BG) and 175°C (175BG). Total N content was not affected by HT, but the acid–detergent insoluble N (expressed as percentage of total N content) increased from 13.7% to 54.1%. HT reduced the NED (from 76.5% to 25.6%) and, as a consequence, the supply of undegraded N to the duodenum was increased by 1.2, 1.8, 2.4 and 3.2 times for 50BG, 100BG, 135BG and 175BG, respectively. Drying at 50°C and 100°C had no adverse effects on the NID determined on 8 h-rumen incubation residues (mean value of 84.3%), but drying at 135 and 175°C decreased it to values of 80.1 and 51.6%, respectively. As a consequence, the estimated amount of digestible bypass N was increased by 1.2, 1.8, 2.3 and 1.9 times when drying at 50°C, 100°C, 135°C and 175°C, respectively.