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Rumen degradation of straw 1. Untreated and ammonia-treated barley, oat and wheat straw varieties and triticale straw

Published online by Cambridge University Press:  02 September 2010

A. K. Tuah ,
E. Lufadeju ,
E. R. Ørskov  and
G. A. Blackett
A. K. Tuah
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
E. Lufadeju
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
E. R. Ørskov
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
G. A. Blackett
Affiliation:
North of Scotland College of Agriculture, 581 King Street, Aberdeen AB9 1UD
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Abstract

The dry-matter degradation of 19 varieties of barley, 14 varieties of wheat, 11 varieties of oats and one variety of triticale straws, both untreated and ammonia treated were studied using the nylon-bag technique. There were significant differences between the untreated varieties of all the types of cereal straw studied with respect to dry-matter loss (DML) values. When the barley and wheat straws were treated with ammonia, the differences between the varieties were also significant although ammonia treatment tended to improve those with lower values to a greater extent than those with higher values. There were also significant differences between the DML values of the oat straws when they were treated with ammonia but only after 48-h incubation. There was a significant negative relationship between the 48-h DML values of the untreated oat straws and the improvement in the DML values with ammonia treatment (r = −0·65; P < 0·05). Grain yield, straw length and nitrogen concentration had no significant relationship with the DML values of the untreated straws. Barley and oat straws had generally higher DML than the wheat and triticale straws.

Type
Research Article
Information
Animal Production , Volume 43 , Issue 2 , October 1986 , pp. 261 - 269
Copyright
Copyright © British Society of Animal Science 1986

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References

REFERENCES

Adamson, A. H. and Bastiman, B. 1984. ADAS development work since 1981. In Improvements in the Nutritive Value of Crops and By-products by Chemical or Biological Treatments. Proceedings of Second Seminar on the Upgrading of Crops and By-products, pp. 3849. Ministry of Agriculture, Fisheries and Food, London.Google Scholar
Bass, J. M., Parkins, J. J. and Fishwick, G. 1982. The solution containing urea, calcium, phosphorus, sodium, trace elements and vitamins. Animal Feed Science and Technology 7: 93100.CrossRefGoogle Scholar
Davidson, J.Mathieson, J. and Boyne, A. W. 1970. The use of automation in determining nitrogen by the Kjeldahl method, with final calculations by computer. Analyst, London 95: 181193.CrossRefGoogle ScholarPubMed
Ganev, G., Ørskov, E. R. and Smart, R. 1979. The' effect of roughage or concentrate feeding and rumen retention time on total degradation of protein in the rumen. Jourml of Agricultlral Sdence Cambridge 93: 651656.Google Scholar
Hartley, R. D., Deschard, G., Keene, A. S. and Mason, V. C. 1984. Changes in the chemical constitution of cereal straw and poor quality hay during upgrading. In Improvements in the Nutritive Value of Crops and By-products by Chemical or Biological Treatments. Proceedings of Second Seminar on the Upgrading of Crops and By-products, pp. 1114. Ministry of Agriculture, Fisheries and Food, London.Google Scholar
Kernan, J. A., Coxworth, E. C., Crowle, W. L. and Spurr, D. T. 1987. The nutritional value of crop at different fertilizer levels. Animal Feed Science and Technology 11: 301311.CrossRefGoogle Scholar
Kernan, J. A., Coxworth, E. C. and Spurr, D. T. 1981. New crop residues and forages for Western Canada: assessment of feeding value in vitro and response to ammonia treatment. Animal Feed Science and Technology 6: 257271.CrossRefGoogle Scholar
Kernan, J. A., Crowle, W. L., Spurr, D. T. and Coxworth, E. C. 1979. Straw quality of cereal cultivars before and after treatment with anhydrous ammonia. Canadian Journal of Animal Science 59: 511517.CrossRefGoogle Scholar
Larkin, S. B. C. 1984. Straw availability and procurement. In Straw Disposal and Utilization. A Review of Knowledge (ed. White, D. J.), pp. 1923. Ministry of Agriculture, Fisheries and Food, London.Google Scholar
Lufadeju, E. A., Blacket, G. A. and Ørskov, E. R. 1985. The effect of variety of spring barley straw and of ammonia treatment on nutritive value. Proceedings of the Nutrition Society 44: 97A (Abstr.).Google Scholar
Nangole, F. N., Kayongo-Male, H. and Said, A. N. 1983. Chemical composition, digestibility and feeding value of maize cobs. Animal Feed Science and Technology 9: 121130.CrossRefGoogle Scholar
Orr, R. J., Treacher, T. T. and Mason, V. C. 1985. The effect of ammonia treatment on the intake of straw and hay when offered with rations of concentrates to ewes in late pregnancy. Animal Production 40: 101109.Google Scholar
Ørskov, E. R., Hughes-Jones, M. and Elimam, M. E. 1983a. Studies on degradation and outflow rate of protein supplements in the rumen of sheep and cattle. Livestock Production Science 10: 1724.CrossRefGoogle Scholar
Ørskov, E. R. and McDonald, I. 1979. The estimation of protein degradability in the rumen from incubation measurements weighted according to rate of passage. Journal of Agricultural Science, Cambridge 92: 499503.CrossRefGoogle Scholar
Ørskov, E. R., Reid, G. W., Holland, S. M., tait, C. A. G. and lee, N. H. 1983b. The feeding value for ruminants of straw and whole-crop barley and oats treated with anhydrous or aqueous ammonia or urea. Animal Feed Science and Technology 8: 247257.CrossRefGoogle Scholar
Pearce, G. R., Beard, J. and Hillard, E. P. 1979. Variability in the chemical composition of cereal straws and in vitro digestibility with and without sodium hydroxide treatment. Australian Journal of Experimental Agriculture and Animal Husbandry 19: 330353.Google Scholar
Rexen, F. and Munch, L. 1984. Cereal crops for industrial use in Europe. European Economic Community Publication EUR 9617 EM.Google Scholar
Snedecor, G. W. and Cochran, W. G. 1967. Statistical Methods. 6th ed.Iowa State University Press, Ames, la.Google Scholar
Thiago, L. R. L. De S. and Kellaway, R. C. 1982. Botanical composition and extent of lignification affecting digestibility of wheat and oat straw and paspalum hay. Animal Feed Science and Technology 7: 7181.CrossRefGoogle Scholar