The effects of forage preservation method and proportion of concentrate on nitrogen digestion and rumen fermentation in cattle

Abstract

A 6 × 6 Latin square experiment with a 2 × 3 factorial arrangement of treatments was used to study forage preservation method and level of concentrate in a diet on organic matter (OM) and N digestion and rumen fermentation. Six bulls, each fitted with ruminal and duodenal cannulae, were given unwilted silage (S) or barndried grass (G) prepared simultaneously from the same timothy sward. The forages were fed together with 250 (L), 500 (M) or 750(H)g concentrate dry matter (DM)kg^‐1 total diet DM. The concentrate consisted of barley (875 gkg^‐1) and rapeseed meal (125g kg^‐1). The feeding level was 80g DMkg^‐1 live weight^0·75.The apparent digestibility of OM was similar for S and G diets, and increased linearly (P < 0·001) with increasing level of concentrate. The flow of microbial N at the duodenum and the apparent efficiency of microbial protein synthesis in the rumen were higher (P < 0·05) with S than with G diets. Increasing the concentrate level increased linearly (P < 0·05) the amounts of total N and microbial N at the duodenum, whereas the synthetic efficiency was not significantly affected. The mean rumen pH decreased linearly (P < 0·001) from 6·43 to 6·03 with increasing concentrate level. The molar proportion of acetate (Ac) in the rumen volatile fatty acids (VFA) showed a linear (P < 0·001) and quadratic (P < 0·01) decrease, and that of butyrate (Bu) a linear (P < 0·001) increase when the level of concentrate was increased. The proportion of propionate decreased slightly with both forages when the amount of concentrate was increased from level L to M. A further increase to level H increased propionate from 157 to 170 mmol mol^‐1 of total VFA with S and from 157 to 188 mmol mol^‐1 with G, the effect of concentrate level being not significant. The number of protozoa increased linearly (P < 0·001) as the level of concentrate increased. The changes in the rumen fermentation patterns during the feeding cycle were greater for S than for G diets.