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Partition of nitrogen in the urine of African sheep given a variety of low-protein diets

Published online by Cambridge University Press:  02 September 2010

J. H. Topps  and
R.C. Elliott
J. H. Topps
Affiliation:
Department of Agriculture, University College of Rhodesia, Salisbury, Rhodesia
R.C. Elliott
Affiliation:
Henderson Research Station, Mazoe, Rhodesia
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Extract

1. Sixteen foods, made up with differing proportions of roughage and concentrates and ranging in crude protein content from approximately 2·6% to 10·0%, were each offered ad libitum to Blackhead Persian wether sheep. The nitrogen balance of the sheep and the distribution of nitrogen in the urine were measured.

2. Urinary nitrogen excretion decreased with the digestible nitrogen intake. There was a highly significant (P < 0·01) positive correlation between either excretion of urea or of allantoin and digestible nitrogen intake.

3. The amount of creatinine excreted varied little with diet but was directly related to the body weight of the sheep.

4. For 8 diets, hippurate excretion by the sheep was directly related (P<0·01) to intake of digestible nitrogen, while a significant (P<0·05) positive correlation between the same measures was found for the other 8 diets.

5. It is suggested that with certain types of diets the excretion of either nitrogen, urea or allantoin in the urine may be useful indicators of digestible nitrogen intake of low-protein diets by sheep.

Type
Research Article
Information
Animal Production , Volume 9 , Issue 2 , May 1967 , pp. 219 - 227
Copyright
Copyright © British Society of Animal Science 1967

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References

REFERENCES

Benedict, S. R., & Francke, E., 1922. A method for the direct determination of uric acid in urine. J. biol. Chem., 52: 387391.CrossRefGoogle Scholar
Blaxter, K. L., & Martin, A. K., 1962. The utilization of protein as a source of energy in fattening sheep. Br. J. Nutr., 16: 397407.CrossRefGoogle ScholarPubMed
Bonsnes, R. W., & Taussky, H. H., 1945. On the colorimetrie determination of creatinine by the Jaffe reaction. J. biol. Chem., 158: 581591.CrossRefGoogle Scholar
Brody, S., 1945. Bioenergetics and Growth. Reinhold Publishing Corporation, New York.Google Scholar
Brody, S., Proctor, R. C., & Ashworth, U. S., 1934. Basal metabolism, endogenous nitrogen, creatinine and neutral sulphur excretions as functions of the body weight. Res. Bull. Univ. Mo. agrie. Exp. Sta., no. 220.Google Scholar
Chalmers, M. I., & Synge, R. L. M., 1954. Ruminai ammonia formation in relation to the protein requirement of sheep. II. Comparison of casein and herring–meal supplements. J. agrie. Sci., Camb., 44: 263269.CrossRefGoogle Scholar
Conway, E. J., 1957. Microdiffusion Analysis and Volumetric Error. 4th edn.Crosby Lockwood & Son Ltd., London.Google Scholar
Elliott, R. C., & Topps, J. H., 1963a. Nitrogen metabolism of African cattle fed diets with an adequate energy, low-protein content. Nature, Land., 197: 668680.CrossRefGoogle Scholar
Elliott, R. C., & Topps, J. H., 1963b. Voluntary intake of low protein diets by sheep. Anim.Prod., 5: 269276.Google Scholar
Elliott, R. C., & Topps, J. H., 1964. Effects of various low-protein diets on the distribution of ruminal nitrogen and on the nitrogen required for maintenance of African sheep. Anim.Prod., 6: 345355.Google Scholar
Hampton, J. W. F., 1948. A method for the determination of hippuric acid in urine. 5. Afr. J. Med. Sci., 13: 45.Google Scholar
Houpt, T. R., 1959. Utilization of blood urea in ruminants. Amer. J. Physiol., 197: 115120.CrossRefGoogle ScholarPubMed
Morris, S., & Ray, S. C., 1939. The fasting metabolism of ruminants. Biochem. J., 33: 12171230.CrossRefGoogle ScholarPubMed
Schmidt-Nielsen, B., Schmidt-Nielsen, K., Houpt, T. R., & Jarnum, S. A., 1957. Urea excretion in the camel. Amer. J. PhysioL, 188: 477484.CrossRefGoogle ScholarPubMed
Somers, M., 1961a. Factors influencing the secretion of nitrogen in sheep saliva. 2. The influence of nitrogen intake upon blood urea nitrogen and upon the total nitrogen and urea nitrogen in the parotid saliva of sheep. Aust. J. exp. Biol., 39: 123132.CrossRefGoogle Scholar
Somers, M., 1961b. Factors influencing the secretion of nitrogen in sheep saliva. 4. The influence of injected urea on the quantitative recovery of urea in the parotid saliva and the urinary excretions of sheep. Aust. J. exp. Biol., 39: 145156.CrossRefGoogle Scholar
Terroine, E. F., & Mourot, G., 1931. L'allantoine et les corps puriques de l'urine des mammiferes proviennent-ils partiellement de la degradation des matieres proteiques? Bull. Soc. Chim. Biol., 13: 94109.Google Scholar
Topps, J. H., & Elliott, R. C., 1965. Relationship between concentrations of ruminai nucleic acids and excretion of purine derivatives by sheep. Nature, Land., 205: 498499.CrossRefGoogle Scholar
Young, E. G., & Conway, C. F., 1942. On the estimation of allantoin by the RiminiSchryver reaction. J. biol. Chem., 142: 839853.CrossRefGoogle Scholar