Balancing Carbohydrates and Proteins for Optimum Rumen Microbial Yield

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Balancing Carbohydrates and Proteins for Optimum Rumen Microbial Yield

W. H. Hoover ¹ and S. R. Stokes ¹

¹ Division of Animal and Veterinary Sciences, West Virginia University, Morgantown 26506

Establishing conditions under which rumen fermentation willbe optimized requires an understanding of the nutrient requirementsof the mixed microbial population. The major nutrients requiredby rumen microbes are carbohydrates and proteins, but the mostsuitable sources and quantities needed to support maximum growthhave not been determined. Digestion of proteins results in theproduction of peptides, which can accumulate in the rumen. Peptidesare further hydrolyzed to amino acids, some of which are deaminated,producing ammonia. Although peptides, amino acids, and ammoniaall may individually serve as sources of N for various microbes,the total population achieves the highest growth rate on mixturesof all three sources. In a somewhat analogous manner, carbohydratesare digested by exoenzymes to oligosaccharides that are availablefor crossfeeding by the mixed microbial population. Based ondata from both in vitro and in vivo studies, there is generalagreement that rate of digestion of carbohydrates is the majorfactor controlling the energy available for microbial growth;in addition, rate of digestion of total carbohydrate is directlyrelated to proportion of starches, pectins, and sugars. Proteinsaffect both total fermentation and production of microbial DMper unit of carbohydrate fermented. It appears that the quantityof ruminally available protein needed to optimize microbialgrowth may, under some conditions, be as high as 14 to 15% ofdiet DM.

Key Words: microbial yield • rumen fermentation • carbohydrates • proteins

Submitted on August 31, 1990
Accepted on January 14, 1991

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				I. R. Ipharraguerre and J. H. Clark Impacts of the Source and Amount of Crude Protein on the Intestinal Supply of Nitrogen Fractions and Performance of Dairy Cows J Dairy Sci, May 1, 2005; 88(e_suppl_1): E22 - E37. [Abstract] [Full Text] [PDF]

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				A. N. Hristov, J. K. Ropp, K. L. Grandeen, S. Abedi, R. P. Etter, A. Melgar, and A. E. Foley Effect of carbohydrate source on ammonia utilization in lactating dairy cows J Anim Sci, February 1, 2005; 83(2): 408 - 421. [Abstract] [Full Text] [PDF]

				J. K. Bernard, P. T. Chandler, J. W. West, A. H. Parks, H. A. Amos, M. A. Froetschel, and D. S. Trammell Effect of Supplemental L-Lysine-HCL and Corn Source on Rumen Fermentation and Amino Acid Flow to the Small Intestine J Dairy Sci, February 1, 2004; 87(2): 399 - 405. [Abstract] [Full Text] [PDF]

				A. R. J. Cabrita, A. J. M. Fonseca, R. J. Dewhurst, C. V. P. Sampaio, M. F. S. Miranda, G. N. S. Sousa, I. M. F. Miranda, and E. Gomes Nitrogen Supplementation of Corn Silages. 1. Effects on Feed Intake and Milk Production of Dairy Cows J Dairy Sci, December 1, 2003; 86(12): 4008 - 4019. [Abstract] [Full Text] [PDF]

				A. N. Hristov and J. K. Ropp Effect of Dietary Carbohydrate Composition and Availability on Utilization of Ruminal Ammonia Nitrogen for Milk Protein Synthesis in Dairy Cows J Dairy Sci, July 1, 2003; 86(7): 2416 - 2427. [Abstract] [Full Text] [PDF]

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