Nitrogen and carbon flows between the caecum, blood and rumen in sheep given chopped lucerne (Medicago sativa) hay

Abstract

1. Experiments involving ¹⁵N and ¹⁴C tracers were made in sheep consuming 800 g air-dry chopped lucerne (Merlicugo sativa) hay/d and providing 20.4 g N/d to study N and C flows within the caecal digesta and between the caecum, blood and rumen.2. Continuous infusions of ¹⁵N tracers were made into the caecal ammonia, blood urea and rumen NH₃ pools. The concentration and enrichment of caecal digesta NH₃-N, caecal microbial N, caecal digesta non-urea. non-ammonia-N (NU-NAN), faecal NU-NAN, blood urea-N, rumen digesta NH₃-N and rumen bacterial N were estimated at intervals during the infusions. A three-pool open-compartment model was solved to estimate N flows between the caecal digesta NH₃-N, blood urea-N and rumen digesta NH₃-N pools.3. The rate of irreversible loss from the caecal digesta NH₃-N pool was 2.17 (SE 0.623) g N/d. On average 0.9 (SE 0.56) g N/d of caecal digesta NH₃-N was derived from blood urea and 0.1 (SE 0.08) g caecal digesta NH₃-N/d was apparently derived from the fermentation of undigested rumen microbes in the caecum. The amount of NH₃-N produced by proteolysis and deamination of dietary and endogenous N was 1.1 (SE 0.13) g/d.4. There was net incorporation of 0.56 (SE 0.306) g caecal digesta NH₃-N/d into caecal microbes. The microbial U synthesized de novo in the caecum was not determined, but 2.9 (SE 0.52) g microbial N/d of both rumen and caecal origin flowed out of the caecum and constituted 0.48 of the NU-NAN flow. The majority (mean 0.83 (SE 0.044)) of this microbial N was excreted in faeces.5. On average 1.8 (SE 0.80) g caecal digesta NH₃-N/d were absorbed. Of this NH₃-N, 0.92 (SE 0.054) was converted to blood urea, contributing 0.10 (SE 0.031) of blood urea-N. Only 0.012 (SE 0.0041) of rumen digesta NH₃-N and 0.005 (SE 0, 0009) of rumen bacterial N were derived from caecal digesta NH₃-N.6. Infusions of ¹⁴C tracers were made into the caecal digesta bicarbonate, blood bicarbonate, rumen digesta bicarbonate and blood urea pools, and samples were obtained at intervals to determine the specific radioactivity of each pool. A four-pool open-compartment model was solved to estimate C flows between these pools.7. The rate of irreversible loss of blood urea estimated with [¹⁴C]urea (17.1 (SE 1.18) g N/d) was greater (P < 0.01) than that estimated with [¹⁵N]urea (14.0 (SE 0.87) g N/d).8. Transfer of blood urea to the caecal digesta estimated with ¹⁴C tracers (1.4 (SE 0.61) g N/d) was greater (P < 0.01) than that estimated with I5N tracers (0.9 (SE 0.56) g N/d). The estimate of transfer of blood urea to the rumen digesta was also greater with 14C tracers (P < 0.05; 1.7 (SE 0.15) and 1.2 (SE 0.19) g N/d respectively). The urea hydrolysed in the gastrointestinal tract other than in the rumen digesta pool and the caecal digesta pool was 0.56 of total urea hydrolysis when estimated with ¹⁴C tracers, or 0.69 when estimated with ¹⁵N tracers. Results from previous acute experiments suggested that with three of the four observations made in three sheep in the present experiment the transfer of blood urea to the caecal digesta could have occurred entirely via ileal digesta. Similarly, urea transfer to the rumen digesta could have occurred entirely via saliva.