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Utilization and Partition of Dietary Nitrogen in Dairy Cows Fed Grass Silage-Based Diets

P. Huhtanen^*,,1, J. I. Nousiainen^*, M. Rinne^*, K. Kytölä^* and H. Khalili^*

^* MTT Agrifood Research Finland, Animal Production Research, FIN-31600 Jokioinen, Finland
Department of Animal Science, Cornell University, Ithaca, NY 14850

¹ Corresponding author: pjh87{at}cornell.edu

Data from 207 production trials (998 treatment means) were used to study the effects of animal and dietary characteristics on the efficiency of N utilization for milk protein production, and on fecal N, urinary N, and total manure N output. The average efficiency of transferring dietary N to milk N (MNE; milk N/N intake) was 277 (SD = 36.0) g/kg. Nitrogen efficiency was poorly related to milk yield. Dietary concentrations of crude protein (CP) and protein balance in the rumen (PBV) were the best single predictors of MNE. Dietary CP concentration explained variation in MNE better than did N intake. Bivariate models with PBV or metabolizable protein (MP) explained the variation better than CP alone. The effects of protein feeding parameters on MNE were consistent among data subsets from studies investigating the effects of the amount and protein concentration of concentrate supplement, silage digestibility, silage fermentation quality, or substitution of grass silage with legume silage. The model with total dry matter and N intakes as independent variables explained fecal, urinary, and total manure N output more precisely than N intake alone. The model of fecal N output suggested that the true digestibility of dietary N was 0.91, and that metabolic and endogenous N was the major component in fecal N. The proportion of urine N in manure N was strongly related to dietary CP concentration. Including the concentration of dietary carbohydrates only slightly improved the models, indicating that the most effective strategy to improve MNE and to decrease N losses in manure, especially in urine, is to avoid feeding diets with excessively high CP concentration and especially excess ruminally degradable CP.

Key Words: N utilization • dairy cow • grass silage • protein

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				P. Huhtanen and A. N. Hristov A meta-analysis of the effects of dietary protein concentration and degradability on milk protein yield and milk N efficiency in dairy cows J Dairy Sci, July 1, 2009; 92(7): 3222 - 3232. [Abstract] [Full Text] [PDF]