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Ground roughage in the diet of the early-weaned calf

Published online by Cambridge University Press:  02 September 2010

Jane Leibholz
Jane Leibholz
Affiliation:
M. C. Franklin Laboratory, University of Sydney Farms, Camden, NSW 2570, Australia
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Summary

An experiment was conducted with 60 male Friesian calves between 5 and 11 weeks of age. The experiment was a 5×2×2 factorial design. The five major treatments were the inclusion of 20 or 40% ground wheat straw or 20, 40 or 60% ground lucerne in a pelleted diet. A methane inhibitor was included in the diet given to 30 of the calves. The diets were given alone or with a chaffed wheat straw supplement ad libitum. All diets contained 2% sodium bicarbonate.

The weight gain of the calves was greater with the diets containing ground lucerne than with those containing ground wheat straw, but in both cases weight gains were reduced with increasing roughage content of the diets. The efficiency of feed conversion showed a similar trend. The supplementation of the diets with chaffed wheat straw did not affect the performance of the calves. The inclusion of the methane inhibitor in the diets improved the weight gains and efficiency of feed conversion. The daily retention of nitrogen in the calves showed a similar trend to the growth rates.

The molar percentage of acetate in the rumen increased as the roughage content of the diets increased while the proportions of propionate, butyrate and valerate decreased. The inclusion of the methane inhibitor in the diets decreased the concentration of total volatile fatty acids (VFA) in the rumen and increased the molar percentage of propionate, butyrate and valerate.

Type
Research Article
Information
Animal Production , Volume 20 , Issue 1 , February 1975 , pp. 93 - 100
Copyright
Copyright © British Society of Animal Science 1975

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References

REFERENCES

Association of Official Agricultural Chemists. 1970. Official Methods of Analysis. 11th ed. Association of Official Agricultural Chemists, Washington, D.C.Google Scholar
Bartley, E. E. 1973. Effects of a self-fed pelleted mixture of hay and calf starter on the performance of young dairy calves. J. Dairy Sci. 56: 817820.CrossRefGoogle Scholar
Blaxter, K. L. and Clapperton, J. L. 1965. Prediction of the amount of methane produced by ruminants. Br. J. Nutr. 19: 511522.CrossRefGoogle ScholarPubMed
Blaxter, K. L. and Czerkawski, J. 1966. Modifications of methane production of the sheep by supplementation of its diet. J. Sci. Fd Agric. 17: 417421.CrossRefGoogle ScholarPubMed
Briggs, P. K., Hogan, J. P. and Reid, R. L. 1957. The effect of volatile fatty acids, lactic acids and ammonia on rumen pH on sheep. Aust. J. agric. Res. 8: 674690.CrossRefGoogle Scholar
Chaney, A. L. and Marbach, E. P. 1962. Modified reagents for determination of urea and ammonia. Clin. Chem. 8: 130132.CrossRefGoogle ScholarPubMed
Fenner, H. F., Dickinson, F. H. and Barnes, H. D. 1967. Relationship of digestibility and certain rumen fluid components to level of feed intake and time of sampling after feeding. J. Dairy Sci. 50: 334344.CrossRefGoogle Scholar
Hinders, R. G. and Owen, F. G. 1968. Ruminal and post-ruminal digestion of alfalfa fed as pellets or long hay. J. Dairy Sci. 51: 12531257.CrossRefGoogle Scholar
Hodgson, J. 1973. The effect of the physical form of the diet on the consumption of solid food by calves, and the distribution of food residues in their alimentary tract. Anim. Prod. 17:129138.Google Scholar
Huggett, A. St. G. and Nixon, D. A. 1957. The use of glucose oxidase, peroxidase and o-dianisidine in determination of blood and urinary glucose. Lancet 273: 368370.CrossRefGoogle ScholarPubMed
Jahn, E., Chandler, P. T. and Polan, C. E. 1970. Effects of fiber and ratio of starch to sugar on performance of ruminating calves. J. Dairy Sci. 53: 466474.CrossRefGoogle Scholar
Kang, H. S. and Leibholz, Jane. 1973. The roughage requirement of the early-weaned calf. Anim. Prod. 16: 195203.Google Scholar
Kay, M. 1969. Nutrition of the early-weaned calf. A. Rep. Rowett Res. Inst. 25: 123129.Google Scholar
Kay, M., MacDearmid, A. and MacLeod, N. A. 1970a. Intensive beef production. X. Replacement of cereals with chopped straw. Anim. Prod. 12: 261266.Google Scholar
Kay, M., MacDearmid, A. and Massie, R. 1970b. Intensive beef production. XI. Replacement of cereals with ground straw. Anim. Prod. 12: 419424.Google Scholar
Kellaway, R. C., Grant, T. and Chudleigh, J. W. 1973. The roughage requirement of early-weaned calves. Aust. J. exp. Agric. Anim. Husb. 13: 912.CrossRefGoogle Scholar
Krabill, L. F., Alhassan, W. S. and Satter, L. D. 1969. Manipulation of rumen fer- mentation. II. Effect of sodium sulfite on bovine digestion and ruminal fermentation. J. Dairy Sci. 52: 18121816.CrossRefGoogle Scholar
Leibholz, Jane and Naylor, R. W. 1971. The effect of urea in the diet of the early- weaned calf on weight gain, nitrogen and sulphur balance and plasma urea and free amino acid concentrations. Aust. J. agric. Res. 22: 655662.CrossRefGoogle Scholar
Leng, R. A. and Leonard, G. J. 1965. Measurement of rates of production of acetic, propionic and butyric acid in the rumen of sheep. Br. J. Nutr. 19: 469484.CrossRefGoogle ScholarPubMed
Levy, D., Amir, S., Holzer, Z. and Neumark, H. 1972. Ground and pelleted straw and hay for fattening Israeli-Friesian male calves. Anim. Prod. 15: 157165.Google Scholar
McCullough, T. A. 1970. A study of the effect of supplementing a concentrated diet with roughage of different quality and the performance of Friesian steers. I. Voluntary food intake and food utilization. J. agric. Sci., Camb. 75: 327333.CrossRefGoogle Scholar
Preston, T. R., Whitelaw, F. G., MacDearmid, A., MacLeod, N. A. and Charleson, E. B. 1961. Preliminary experiments with a roughage-free diet for beef cattle. Proc. Nutr. Soc. 20: XLII–XLIII.Google Scholar
Snedecor, G. W. 1959. Statistical Methods. 5th ed. Iowa State College Press, Ames, la.Google Scholar
Strozinski, L. and Chandler, P. T. 1971. Effect of dietary fiber and acid detergent fiber on body fill of ruminating calves. J. Dairy Sci. 54: 14911495.CrossRefGoogle Scholar
Swan, H. and Lamming, G. E. 1970. Studies on the nutrition of ruminants. 5. The effect of diets containing up to 70% ground barley straw on the live-weight gain and carcass composition of yearling Friesian cattle. Anim. Prod. 12: 6370.Google Scholar
Trei, J. E. and Scott, G. C. 1971. Performance of steers on the methane inhibitor, H.C.S. J. Anim. Sci. 33: 301 (Abstr.).Google Scholar
Trei, J. E., Scott, G. C. and Parish, R. C. 1972. Influence of methane inhibitor on energetic efficiency of lambs. J. Anim. Sci. 34: 510515.CrossRefGoogle ScholarPubMed
Van soest, P. J. 1963. Use of detergents in the analysis of fibrous feeds. 2. A rapid method for the determination of fibre and lignin. J. Ass. off. agric. Chem. 46: 829835.Google Scholar
Wheaton, H. N., Bradley, N. W., Mitchell, G. E., Little, C. O. and Boling, J. A. 1970. Distribution of volatile fatty acids in rumen ingesta of steers fed concentrate and roughage diets. J. Anim. Sci. 30: 601604.CrossRefGoogle Scholar
White, T. W., Reynolds, W. L. and Hembry, F. G. 1971. Digestibility of finishing rations containing various sources and levels of roughage by steers. J. Anim. Sci, 32: 544548.CrossRefGoogle Scholar
Wilson, A. D. 1963. The influence of diet on the development of parotid salivation and the rumen of the lamb. Aust. J. agric. Res. 14: 226238.CrossRefGoogle Scholar
Wood, J. M., Kennedy, F. S. and Wolfe, R. S. 1968. The reaction of multi-halogenated hydrocarbons with free and bound reduced vitamin B12. Biochem. J. 7: 17071709.CrossRefGoogle Scholar