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The nutritive value of rumen micro-organisms in ruminants

2. The apparent digestibility and net utilization of microbial N for growing lambs

Published online by Cambridge University Press:  09 March 2007

E. Storm
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
E. R. Ørskov
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
R. Smart
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
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Abstract

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Four experiments were conducted with eighteen lambs sustained entirely by intragastric nutrition at gross energy inputs varying from 430 to 860 kJ/kg live weight0·75 (W0·75). Isolated rumen micro-organisms (RMO) were infused into the abomasum in quantities varying from 0 to 2 g digestible N/kg W0·75 to assess the increase in N balance as a result of increasing RMO input when N was limiting.

The over-all utilization of N from RMO (RMO-N) could be described by the equation y = 0·543 x −0·457, residual SD = 0·037, where y is the N balance and x is the abomasal input of RMO-N, both expressed in g/kg W0·75. Thus the coefficient of efficiency of utilization of infused RMO-N was 0·543 (SE 0·008). The coefficient of efficiency of utilization of RMO-N truly digested (i.e. the biological value) was 0·659 (SE 0·015).

The RMO-N input (mean with SE) at N equilibrium was 0·843 (0·009) g/kg W0·75. The true digestibility of RMO-N was 0·813 (0·004). The urinary N excretion when no N was infused was 0·329 (0·008) g/kg W0·75 and the N excreted via the faeces with zero N input was 0·036 (0·009) g/kg W0·75.

Type
Papers on General Nutrition
Copyright
Copyright © The Nutrition Society 1983

References

REFERENCES

Agricultural Research Council (1980). The Nutrient Requirements of Ruminant Livestock. Slough, Bucks: Commonwealth Agricultural Bureaux.Google Scholar
Barnard, E. A. (1969). Nature 221, 340344.CrossRefGoogle Scholar
Bergen, W. G., Purser, D. B. & Cline, J. H. (1968). Journal of Animal Science 27, 14971501.CrossRefGoogle Scholar
Bird, P. R. (1972). Australian Journal of Biological Sciences 25, 185193, 195–203.CrossRefGoogle Scholar
Dobson, D. E., Dayan, E. & Wilson, A. C. (1979). Federation Proceedings 38, 674.Google Scholar
Harris, L. E. & Mitchell, H. H. (1941). Journal of Nutrition 22, 167182.CrossRefGoogle Scholar
Johnson, B. C., Hamilton, T. S., Robinson, W. B. & Ganey, J. C. (1944). Journal of Animal Science 3, 287298.CrossRefGoogle Scholar
McNaught, M. L., Owen, E. C., Henry, K. M. & Kon, S. K. (1954). Biochemical Journal 56, 151156.CrossRefGoogle Scholar
McNaught, M. L., Smith, J. A. B., Henry, K. M. & Kon, S. K. (1950). Biochemical Journal 46, 3236.CrossRefGoogle Scholar
Mason, V. C. & Palmer, R. (1971). Journal of Agricultural Science, Cambridge 76, 567572.CrossRefGoogle Scholar
Mason, V. C. & White, F. (1971). Journal of Agricultural Science, Cambridge 77, 9198.CrossRefGoogle Scholar
Ørskov, E. R. (1982). Protein Nutrition in Ruminants. London and New York: Academic Press.Google Scholar
Ørskov, E. R., Grubb, D. A., Wenham, G. & Corrigall, W. (1979). British Journal of Nutrition 41, 553558.CrossRefGoogle Scholar
Peers, D. G. (1977). Proceedings of the Nutrition Society 36, 63AGoogle Scholar
Razzaque, M. H., Topps, J. H., Kay, R. N. B. & Brockway, J. M. (1981). British Journal of Nutrition 45, 517527.CrossRefGoogle Scholar
Reed, F. M., Moir, R. Y. & Underwood, E. Y. (1949). Australian Journal of Scientific Research B2, 304317.Google Scholar
Rushton, B. (1981). Veterinary Laboratory Data. London: British Veterinary Association.Google Scholar
Smith, R. H. (1958). Nature 182, 260261.CrossRefGoogle Scholar
Smith, R. H. (1975). In Digestion and Metabolism in the Ruminant. Proceedings of the IV International Symposium on Ruminant Physiology, pp. 399415. Armidale, Australia: New England University Press.Google Scholar
Storm, E. (1982). Isolation and nutritive value of rumen micro-organisms and their limiting amino acids for growing sheep. PhD Thesis, Aberdeen University.Google Scholar
Storm, E., Brown, D. S. & Ørskov, E. R. (1983). British Journal of Nutrition 50, 479485.CrossRefGoogle Scholar
Storm, E. & Ørskov, E. R. (1982). Proceedings of the Nutrition Society 41, 78AGoogle Scholar
Storm, E. & Ørskov, E. R. (1983). British Journal of Nutrition 50, 463470.CrossRefGoogle Scholar