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The effect of different levels of sodium hydroxide spray treatment of wheat straw on consumption and digestibility by cattle

Published online by Cambridge University Press:  27 March 2009

Mahendra Singh
Affiliation:
College of Agriculture, U.P. Agricultural University, Pantnagar, District Nainital, U.P., India
M. G. Jackson
Affiliation:
College of Agriculture, U.P. Agricultural University, Pantnagar, District Nainital, U.P., India

Summary

A sodium hydroxide spray treatment of wheat straw was evaluated in experiments on twenty male calves. Sodium hydroxide solutions of 0, 3·3, 6·7 and 10% concentration were sprayed on ground wheat straw (Exp. 1) and chaffed wheat straw (Exp. 2) at the rate of 1000 litres per tonne. The straws were not washed. The treated straw was then fortified with groundnut cake, molasses and a mineral supplement. In Exp. 1 rations were prepared in bulk and dried and in Exp. 2 the rations were prepared daily and fed wet. A 1 kg green forage supplement was fed daily to all animals. The dry-matter intake (g/kg body weight0·75), and organic matter digestibility coefficients (%) for the four levels of alkali treatment were 86, 95, 78, 66 and 53, 63, 63 and 62 respectively in Exp. 1 and for Exp. 2 they were 95, 121, 105, 89 and 55, 70, 71 and 71. The intake of digestible organic matter thus increased by 25 and 63% in Exp. 1 and Exp. 2, respectively. Nitrogen, calcium and phosphorus retentions were not adversely affected up to 3·3% alkali treatment in Exp. 2. The effectiveness of this spray treatment in terms of increased nutritive value is compared with that of the older Beckmann method of alkali treatment. Treatment costs are also compared.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1971

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References

Beckmann, E. (1921). Conversion of grain straw and lupins into feeds of high nutrient value. Festschr. Kaiser Wilhelm Ges. Forderung Wiss, zehnjährigen Jubiläum, pp. 1826 (Chem. Abstr. 16, 765).Google Scholar
Cochran, W. G., Autery, K. H. & Cannon, C. Y. (1941). A double change-over design for dairy cattle feeding experiments. J. Dairy Sci. 24, 937.CrossRefGoogle Scholar
Chandra, Suresh & Jackson, M. G. (1971). A study of various chemical treatments to remove lignin from coarse roughages and increase their digestibility. J. agric. Sci., Camb. 77, 11.CrossRefGoogle Scholar
Donefer, E., Adeleye, I. O. A. & Jones, T. A. O. C. (1969). Effect of urea supplementation on the nutritive value of NaOH-treated oat straw. Advances in Chemistry Series, no. 95, Celluloses and their applications. New York: American Chemical Society.Google Scholar
Ferguson, W. S. (1942). The digestibility of wheat straw and wheat straw pulp. Biochem. J. 36, 786.CrossRefGoogle ScholarPubMed
Homb, Thor (1956). Norwegische Erfahrungen bei der strohaufschlieβung nach dem Beokmannschen Verfahren. Futterkonservierung Frankf./Main 2, 129.Google Scholar
Indian Standards Institution (1962). Specifications for Balanced Feed Mixture for Cattle, IS: 2052, 1962. New Delhi: Indian Standards Institution.Google Scholar
Panse, V. G. & Sukhatme, P. V. (1957). Statistical Methods for Agricultural Workers, pp. 206. New Delhi: Indian Council of Agricultural Research.Google Scholar
Sen, K. C., Ray, S. C. & Talapatra, S. K. (1942). The nutritive value of alkali-treated cereal straws. Indian J. Vet. Sci. 12, 263.Google Scholar
Wilson, R. K. & Pigden, W. J. (1964). Effect of a sodium hydroxide treatment on the utilization of wheat straw and poplar wood by rumen microorganisms. Can. J. Anim. Sci. 44, 122.CrossRefGoogle Scholar