Use este identificador para citar ou linkar para este item: http://repositorio.ufla.br/jspui/handle/1/32657
Título: Relative partitioning of N from alfalfa silage, corn silage, corn grain and soybean meal into milk, urine, and feces, using stable 15N isotope
Palavras-chave: Alfalfa silage
Corn silage
Silagem de alfafa
Silagem de milho
N balance
Balanço de nitrogênio
Data do documento: Jul-2017
Editor: Elsevier
Citação: BARROS, T. et al. Relative partitioning of N from alfalfa silage, corn silage, corn grain and soybean meal into milk, urine, and feces, using stable 15N isotope. Animal Feed Science and Technology, Amsterdam, v. 229, p. 91-96, July 2017.
Resumo: The objective of this study was to determine the relative partitioning of N in individual feed within a diet (alfalfa silage [AS], corn silage [CS], corn grain [CG] and soybean meal [SBM]) into milk, urinary and fecal N in lactating dairy cows. For 11 days, twelve multiparous Holstein cows (means ± SD; 264 ± 18 DIM) were fed once a day an unlabeled TMR formulated to contain (DM basis) 335, 325, 190, 125 and 25 g/kg of CS, AS, CG, SBM and a mineral-and-vitamin premix, respectively. On the morning of day 12, cows were blocked by milk yield and randomly assigned within block to one of four dietary treatments constructed by replacing one feed ingredient of the unlabeled TMR with its corresponding 15N-labeled ingredient (grown with 15N-labeled fertilizers). Cows were fed dietary treatments for four days (day 12–15) and the unlabeled TMR from day 16–19. Feed intake and lactation performance were measured daily whereas total fecal and urinary collections were conducted on each cow every 6 h from day 12–19. Feeding 15N-labeled ingredients had no effect on DMI (mean ± SD; 22.0 ± 2.0 kg/d), milk yield (26.4 ± 5.2 kg/d), N intake (631 ± 25 g/d), milk protein concentration (34.7 ± 3.3 g/kg), and N use efficiency (milk N/intake N; 235 ± 46 g/kg). By the end of sampling, 61% of 15N was recovered in milk (13.6%), urine (24.1%) and feces (23.3%) suggesting substantial distribution of 15N in tissues with slow turnover rates or growing actively (e.g., fetal tissues). The ratio of 15N atom% excess (APE) in urine to 15N APE in milk and the ratio of 15N APE in feces to 15N APE in milk measured on the fourth day of feeding the treatment TMR were used as indicators of relative N partitioning. The 15N APE urine/milk ratio was greater for AS (1.51) than for CS (1.30), which in turn was greater than for the concentrates (1.02 for CG and 0.94 for SBM). In addition, the APE 15N feces/milk ratio was greater in silages than concentrates (2.12 vs. 1.20, respectively). Interestingly, the main route of 15N excretion from AS was fecal rather than urinary. Overall results suggested more excretion of urinary N and fecal N relative to milk N secretion for silages than for concentrates.
URI: https://www.sciencedirect.com/science/article/pii/S0377840116305776#!
http://repositorio.ufla.br/jspui/handle/1/32657
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