Sodium fertilizer application to pasture. 3. Rumen dynamics

Abstract

The objective of the present experiment was to examine the effects of 0 (Nil), 32 (Low), 66 (Medium) or 96 (High) kg sodium (Na) ha^‐1 yr^‐1, applied as fertilizer to zero‐grazed perennial ryegrass pasture, on rumen digestion and feed and water intake of steers. Herbage Na contents increased with increasing Na up to the Medium Na treatment and no further at the High. Dry matter (DM) contents were increased by Na fertilizer but not affected by the level. Herbage crude protein (CP), true protein (TP) and non‐protein nitrogen (NPN) fractions were not affected by treatment. Application of Na fertilizer increased the modified acid detergent fibre (MADF) and ash and total cation content of herbage, particularly at the Medium and High treatments. Faecal DM and TP contents were not affected by treatment, but the CP, NPN, MADF and ash and total cation contents were increased by Na fertilizer. Herbage DM intake increased in proportion to dietary Na content. Water intake increased with increasing Na fertilizer level. Rumen pH was increased by Na fertilizer but ammonia concentration was not affected. The rapidly (a), slowly (b) and potentially (a + b) soluble fractions of degradable DM and the effective degradability (P) of DM increased in direct proportion to amount of Na fertilizer applied up to the Medium level, above which b was reduced and a, a + b and P did not increase further. Solid and total outflow rates were not affected by treatment. Liquid outflow rates were greater in the Medium and High treatments than in the Nil and Low treatments. The immediately soluble fraction of MADF was increased in the Na‐applied treatments but the increase declined with each additional Na level. The degradability of MADF increased with increasing dietary Na, particularly in the High treatment. Na increased the proportion of small particles and those with a high specific gravity. It is suggested that the high dilution rates that accompanied the high water intakes and the increased rumen pH are essential factors enabling increased DM intake and rumen digestion when high Na herbages are fed to steers.