Effect of feeding dried high-sugar ryegrass ('AberMagic') on methane and urinary nitrogen emissions of primiparous cows

The objective of the present study was to test the hypothesis that feeding dried grass from a ryegrass cultivar with high water-soluble carbohydrate (WSC) concentration to dairy cows lowers emissions of enteric methane and urinary nitrogen. This dried grass (here the cultivar 'AberMagic') was compared as a forage-only diet to dried grass prepared from a low-WSC cultivar ('Respect'). Six mid-lactating primiparous Holstein-Friesian dairy cows (19 kg milk/cow/day) were subjected to a change-over design in two 26-day experimental periods. In the last 8 days of each period, feed intake, milk yield, fecal and urinary excretion were recorded and samples were taken. During 2 days, methane emissions were measured in open-circuit respiration chambers. The dried grass type had no significant effect on feed intake and milk gross composition. Milk yield was lower for cows fed the dried high-WSC grass. Total enteric methane (g/day) did not significantly differ when cows received dried high-WSC grass (279) instead of dried low-WSC grass (315). Methane expressed as g/kg dry matter intake (19.4 and 20.3 for dried high- and low-WSC grass, respectively), and methane conversion rates (Y-m; 63 kJ/MJ of gross energy for both dried grass types) were similar with both dried grass types. The dried high-WSC grass had a lower crude protein concentration compared to the dried low-WSC grass (158 vs. 255 g/kg dry matter) resulting in a correspondingly different urinary N excretion (114 vs. 292 g/day) and milk urea concentration. A similar effect was found for urinary N proportion of total excreta N. Fecal N excretion and milk N secretion were higher with the dried high-WSC grass. In conclusion, feeding dried high-WSC ryegrass, where WSC mainly replace crude protein, might be helpful in limiting N emissions from dairy cattle husbandry whereas methane emissions seem to remain unaffected. Further studies have to test whether dried high-WSC grass has the same effect when the WSC replace fiber and to address the extent to which favorable effects can be recovered in mixed forage-concentrate diets. (C) 2012 Elsevier B.V. All rights reserved.