Rate of isolated hemicellulose degradation and utilization by pure cultures of rumen bacteria.

Rate studies on the utilization or degradation (or both) of isolated hemicelluloses were conducted with six strains of rumen cellulolytic bacteria. Utilization was estimated by total pentose loss, and degradation values were based on solubilization of the hemicellulose in acidified 80% ethyl alcohol. With the various strains of ruminococci, degradation of flax and fescue grass hemicellulose was near the maximum within the first 12 hr of incubation. However, where applicable, the rates of utilization were considerably slower. Both degradation and utilization of corn hull hemicellulose occurred at much slower rates than observed with the other two substrates. With flax and fescue grass hemicellulose, the rates of degradation did not appear to be influenced by the organism's ability, or inability, to utilize the substrate as an energy source. The rates and extent of isolated hemicellulose degradation and utilization were compared between the cellulolytic ruminococci and three strains of bacteria isolated from the rumen with a xylan medium. Similar values were obtained with both types of bacteria. These observations would suggest that the cellulolytic ruminococci may be important in the overall fermentation of forage hemicelluloses in the rumen. The acidified 80% ethyl alcohol supernatant fluids, obtained from fermentations of isolated fescue grass hemicellulose by two strains of Ruminococcus flavefaciens, of which only one was able eventually to utilize the substrate, were investigated by thin-layer chromatography. Results indicated that soluble oligosaccharides were produced, which were observed to disappear gradually with time in fermentations with the utilizing strain and to accumulate in fermentations with the nonutilizing strain. Examination of the acidified 80% ethyl alcohol-insoluble residue hydrolysates, obtained from fermentations with the utilizing strain, revealed that the concentration of all the constituent sugars decreased uniformly.