International Symposium on Ruminant Physiology: Current perspective on rumen microbial ecology to improve fiber digestibility
J.L. Firkins, E. N. Henderson, H. Duan, Phillip B. Pope
Abstract
Although cellulose has received the most attention, further research is needed for a complete comprehension of other fiber components in forage and nonforage fiber sources corresponding to the array of enzymes needed for depolymerization and resulting fermentation of sugars. Carbohydrate-active enzymes (CAZymes) have been described in detail herein, although new information will no doubt accumulate in the future. Known CAZymes are attributed to taxa that are easily detected via 16S rRNA gene profiling techniques, but such approaches have limitations. We describe how closely related species or strains expand into different niches depending on diet and the dynamic availability of remaining fibrous substrates. Moreover, expression of CAZymes and other enzymes such as in fermentation pathways can shift among strains and even within strains over time of incubation. We describe unique fibrolytic components of bacteria, protozoa, and fungi and emphasize the development of consortia that efficiently increase neutral detergent fiber degradability (NDFD). For example, more powerful genome-centric functional omics approaches combined with expanded bioinformatics and network analyses are needed to expand our current understanding of ruminal function and the bottlenecks that lead to among-study variation in NDFD. Specific examples highlighted include our lack of fundamental understanding why starch limits NDFD, whereas moderate inclusion of rumen-degraded protein, certain supplemental fatty acids (especially palmitic acid), and supplemental sugars sometimes stimulates NDFD. Current and future research must uncover deeper complexity in the rumen microbiome through a combination of approaches described herein to be followed by validation using novel cultivation studies and, ultimately, NDFD measured in vivo for integration with ruminant productivity traits.