Fermentation and nitrogen dynamics in Merino sheep given a low-quality-roughage diet

Abstract

1. Fermentation in the rumen and nitrogen dynamics in the body were studied in mature Merino sheep given a maintenance ration of a low-quality-roughage diet containing mainly chopped wheat straw.2. Intake of metabolizable energy was 3.49 MJ/d and of total N 6.2 g/d.3. From measurements of volatile fatty acid (VFA) production rates and stoichiometric principles, it was calculated that 75% of the digestible organic matter intake was fermented in the rumen, making an estimated 44 g/68d microbial dry matter available to the animal.4. The total flux of ammonia through the rumen NH₃ pool, estimated by ¹⁵NH₃ dilution methods, was 8.2 g N/d of which 3.5 g N/d was irreversibly lost; thus 4.7 g N/d was recycled, partly within the rumen (approximately 3.8 g N/d) and partly via endogenous secretions (approximately 0.9 g N/d). The extensive recycling of NH_3-N within the rumen indicated that turnover of microbial N was considerable, and the total production of micro-organisms was at least twice the net outflow.5. The proportion of the N in rumen bacteria derived from rumen ammonia was 62% and thus 38% was derived from other nitrogenous compounds such as peptides and amino acids.6. The rates of transfer of blood urea into the rumen, estimated from the appearance of ¹⁴CO₂ or ¹⁵NH₃ in the rumen after intravenous single injections of [¹⁴C]-and [¹⁵N]urea, did not differ significantly and the mean transfer was 2.3 urea-N/d.7. Estimates of the rate of irreversible loss of urea-C (i.e. urea synthesis in the body) were obtained by analysis of samples of either blood or urine obtained after a single, intravenous injection of [¹⁴C]urea. The two methods gave results that did not differ significantly. The estimated rate of urea synthesis in the body was 5.3 g N/d. Urea excretion rate was relatively low, i.e. 1.2 g N/d, and thus transfer of urea to the digestive tract was approximately 4.1 g N/d. Approximately 53% of the latter was transferred to the rumen, and 47% to the rest of the digestive tract. These results are discussed in relation to similar studies with sheep given other diets.8. Various aspects of isotope-tracer methods and the errors that could occur in this type of study are discussed.