Effects of Source and Amount of Protein on Ruminal Fermentation and Passage of Nutrients to the Small Intestine of Lactating Cows

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Effects of Source and Amount of Protein on Ruminal Fermentation and Passage of Nutrients to the Small Intestine of Lactating Cows

T. H. Klusmeyer ¹, R. D. McCarthy Jr. ¹, J. H. Clark ¹, and D. R. Nelson ²

¹ Department of Animal Sciences, University of Illinois, Urbana 61801
² Department of Veterinary Clinical Medicine, University of Illinois, Urbana 61801

Four Holstein cows fitted with ruminal and duodenal cannulaswere used in a 4 x 4 Latin square to investigate the effectsof source (corn gluten meal or soybean meal) and amount (14.5or 11.0%) of CP on ruminal fermentation, passage of nutrientsto the small intestine, and animal performance. Cows were fedfor ad libitum intake a diet of 60% corn silage and 40% concentrateon a DM basis. The treatments, arranged in a 2 x 2 (source xamount of CP) factorial, were 1) 14.5% CP, soybean meal, 2)11.0% CP, soybean meal, 3) 14.5% CP, corn gluten meal, and 4)11.0% CP, corn gluten meal. Digestion in the rumen of OM, starch,ADF, and NDF was not affected by source or amount of CP in thediet. Total VFA and NH₃ concentrations in ruminal fluid wereincreased by feeding diets that contained 14.5% CP or soybeanmeal. Flows of non-NH₃ N and amino acids to the duodenum weregreater in cows fed the 14.5% CP diets because of a greaterflow of non-NH₃ nonmicrobial N to the duodenum. Larger amountsof lysine passed to the duodenum when cows were fed soybeanmeal compared with corn gluten meal. Microbial N flow to theduodenum and efficiency of microbial growth were not affectedby treatments, suggesting that ruminal NH₃ concentration wasnot limiting for maximal microbial protein synthesis. Feeding14.5% CP diets increased the production of milk (29.5 vs. 26.8kg/d) and milk protein compared with 11.0% CP diets, possiblybecause of greater passage of amino acids to the small intestine.Feeding soybean meal to cows increased production of milk proteincompared with feeding corn gluten meal, possibly because morelysine passed to the small intestine.

Key Words: rumen fermentation • protein degradability • microbial protein synthesis

Submitted on March 14, 1990
Accepted on August 6, 1990

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