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Studies of natural herbage of the sub-tropics. III. Concentrations of volatile fatty acids and ammonia in the rumen of sheep fed fresh herbage

Published online by Cambridge University Press:  27 March 2009

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

1. Concentrations of ammonia, volatile fatty acids, and molar proportions of acetic, propionic and butyric acids were determined in the rumen liquor of sheep fed fresh herbage harvested in the first month of growth.

2. Concentrations ofammoniacal nitrogen ranged from 4·06 to 13·65 mg./1OO ml. rumen liquor with a mean value of 8·21.

3. Concentrations of volatile fatty acids ranged from 7·50 to 12·20 m-moles/100 ml. rumen liquor with a mean value of 9·81. Mean molar proportions of acids were: acetic 65·8%, propionic 19·5%, n-butyric 9·0 % and higher acids 5·7 %. Differences in the proportions of acids found at different sampling times were not statistically significant.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 63 , Issue 2 , October 1964 , pp. 245 - 248
Copyright
Copyright © Cambridge University Press 1964

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References

Association Of Official Agricultural Chemists (1955). Official and Tentative Methods, 8th ed.Google Scholar
Blaxter, K. L. (1962). The Energy Metabolism of Ruminants. London: Hutchinson.Google Scholar
Blaxter, K. L. & Wainman, F. W. (1961). J. Agric. Sci. 57, 419.CrossRefGoogle Scholar
Brody, S. (1945). Bioenergetics and Growth. New York: Reinhold.Google Scholar
Chalmers, M. I. & Synge, R. L. M. (1954). J. Agric. Sci. 44, 263.CrossRefGoogle Scholar
Conway, E. J. (1957). Microdiffusion Analysis and Volumetric Error, 4th ed.London: Crosby Lockwood and Son.Google Scholar
Elliott, R. C. & Topps, J. H. (1964). Brit. J. Nutr. 18, 245.CrossRefGoogle Scholar
Head, M. J. & Rook, J. A. F. (1955). Nature, Lond., 176, 262.CrossRefGoogle Scholar
Johns, A. T. (1955). N.Z. J. Sci. Tech. (Sect. A), 37, 323.Google Scholar
Keeney, M. (1956). J. Ass. Off. Agric. Chem., Wash., 39, 212.Google Scholar
Meyer, J. H., Weir, W. C. & Smith, J. D. (1955). J. Anim. Sci. 14, 160.CrossRefGoogle Scholar
Rattray, J. M. (1957). Rhod. Agric. J. 54, 197.Google Scholar
Topps, J. H. (1962). J. Agric. Sci. 58, 387.CrossRefGoogle Scholar
Topps, J. H. (1963). Trop. Agriculture, Trin., 40, 49.Google Scholar