Degradation of fructans by epiphytic and inoculated lactic acid bacteria and by plant enzymes during ensilage of normal and sterile hybrid ryegrass

Degradation of grass fructans by epiphytic or inoculated lactic acid bacteria during ensilage was examined using both normal and sterile hybrid ryegrass. It was clear that even in the absence of bacteria fructan degradation occurred, but at a significantly slower rate than in normal grass which had not been inoculated with lactic acid bacteria. Fructan degradation in sterile herbage suggests that plant fructan hydrolases were partially responsible for this process in all herbages, irrespective of treatment. Inoculation of sterile herbage with a strain of Lactobacillus plantarum known to lack the ability to degrade grass fructans resulted in a slower rate of fructan breakdown than when inoculated with Lactobacillus casei subsp. paracasei , a confirmed fructan degrader. In the later stages of the fermentation of uninoculated normal herbage when water‐soluble carbohydrate appeared to be limiting, lactic acid was fermented to acetic acid. However, this fermentation pathway was not observed in either of the inoculated silages. The results suggest that silage inoculant bacteria possessing fructan hydrolase activity may have potential for improving silage fermentation, particularly when late cut, low sugar grass containing a high proportion of fructans is ensiled.