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Cassava and tallow in diets for growing pigs

Published online by Cambridge University Press:  02 September 2010

N. Walker
Affiliation:
Agricultural Research Institute of Northern Ireland, Hillsborough, Co. Down BT26 6DP
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Abstract

In two experiments 480 and 360 pigs were housed in groups of 10 and given diets containing different proportions of cassava between 35 and 87 kg live weight. The cassava contained 672, 34, 57 and 39 g/kg air dry matter of starch, crude fibre, total ash and insoluble ash respectively. The diets in the first experiment contained 0, 238, 475 or 713 kg cassava per t. In the second experiment the different levels of dietary cassava (0, 150, 300 or 450 kg cassava per t) were combined in a factorial design with different levels of tallow (0, 50 or 100 kg tallow per t). The pigs were given quantities of food calculated to give isoenergy intakes on the assumption that air-dry cassava contained 14·2 MJ digestible energy (DE) per kg. The feeding scale increased with time to give a maximum daily allowance of DE of 31·8 MJ per pig. Relative to each MJ of DE the calculated levels of lysine and of methionine plus cystine in the diets were 0·64 g and 0·39 g respectively.

In both experiments, increasing levels of cassava resulted in significant reductions in growth rate but had no effect on the conversion of food to live weight or on carcass weight. In both experiments, the diets with the highest inclusions of cassava produced pigs with the thickest backfat. The effect was not significant in the second experiment but in the first experiment the differences were significant between diets with the highest and intermediate levels of cassava. There was a significant interaction between cassava and tallow on growth rate with the depression due to high levels of cassava being reduced when 100 kg tallow per t was included in the diet.

The results of these growth experiments suggested that cassava of the type used here was of similar value to barley on an energy basis when used in diets based on barley and soya bean meals.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1985

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References

REFERENCES

Agricultural Research Council. 1981. The Nutrient Requirements of Pigs. Commonwealth Agricultural Bureaux, Slough.Google Scholar
Anonymous. 1977. Pig Husbandry Research, p. 5. An Foras Taluntais, Fermoy.Google Scholar
Aumaitre, A. 1969. [Nutritive value of manioc and different cereals in early weaning diets for the piglet: digestive utilization of feed and its effect on growth of the animals.] Annls Zootech. 18: 385398.CrossRefGoogle Scholar
Bayley, H. S. and Lewis, D. 1965. Th e use of fats in pig feeding. II. The digestibility of various fats and fatty acids. J. agric. Sci., Camb. 64: 373378.CrossRefGoogle Scholar
Harvey, D. 1970. Tables of the amino acids in foods and feeding stuffs. Tech. Communs Commonw. Bur. Anim. Nutr., No. 19. Commonwealth Agricultural Bureaux, Slough.Google Scholar
Henry, Y. 1970. [Nutritional effects of adding pure cellulose to the diet of the growing-finishing pig. III Effects on the development of oesophogogastric ulcers.] Annls Zootech. 19: 117141.CrossRefGoogle Scholar
Hutagalung, R. I. 1977. Additives other than methionine in cassava diets. In Cassava as Animal Feed (ed. Nestel, B. and Graham, M.), pp. 1832. International Development Research Centre, Ottawa.Google Scholar
Kempster, A. J., Chadwick, J. P., Jones, D. W. and Cuthbertson, A. 1981. An evaluation of the Hennessy and Chong Fat Depth Indicator, and the Ulster probe, for use in pig carcass classification and grading. Anim. Prod. 33: 319324.Google Scholar
Khajarern, S., Khajarern, J. M., Kitpanit, N. and Muller, Z. O. 1977. Cassava in the nutrition of swine. In Cassava as Animal Feed (ed. Nestel, B. and Graham, M.), pp. 5664. International Development Research Centre, Ottawa.Google Scholar
Lellis, W. A. and Speer, V. C. 1983. Nutrient balance of lactating sows fed supplemental tallow. J. Anim Sci. 56: 13341339.CrossRefGoogle ScholarPubMed
Morgan, C. A. and Whittemore, C. T. 1982. Energy evaluation of feeds and compounded diets for pigs a review. Anim. Feed. Sci. Tech. 7: 387400.CrossRefGoogle Scholar
Möller, Z., Chou, K. C. and Nah, K. C. 1975 [Cassava as a total substitute for cereals in livestock and poultry rations.] In Animal Feeds 74. Proc. Conf Anim. Feeds of Tropical and Subtropical Origin, pp 8595. Tropical Products Institute, London.Google Scholar
National Research Council. 1979. Nutrient Requirements of Domestic Animals. No. 2, Nutrient Requirements of Swine. 8th ed. National Academy of Sciences, Washington, DC.Google Scholar
Nestel, B. and Graham, M. ed. 1977. Cassava as Animal Feed, Proc. Workshop Univ. Guelph International Development Research Centre, Ottawa.Google Scholar
Oke, O. L. 1978. Problems in the use of cassava as animal feed. Anim. Feed Sci. Tech. 3: 345380.CrossRefGoogle Scholar
Perez, J. M., Castaing, J., Grosjean, F., Chauvel, J., Bourdon, D. and Leuillet, M. 1981. Energy value of two types of cassava and comparative utilization in growing pig and piglet diets: results of a joint study by I.N.R.A.-I.T.C.F.-I.T.P. Annls Zootech. 30: 373374 (Abstr.).CrossRefGoogle Scholar
Pond, W. G. and Maner, J. H. 1974. Swine Production in Temperate and Tropical Environments, pp. 245258. Freeman, San Francisco.Google Scholar
Robe, J. 1976. Alternatives to conventional cereals. In Feed Energy Sources for Livestock (ed. Swan, H. and Lewis, D.), pp. 1329. Butterworth, London.CrossRefGoogle Scholar
Walker, N. 1983. Cereal replacers as alternative sources of energy for pigs. In Recent Advances in Animal Nutrition — 1983 (ed. Haresign, W.), pp. 4357. Butterworth, London.CrossRefGoogle Scholar
Whittemore, C. T. and Elsley, F. W. H. 1977. Practical Pig Nutrition. Farming Press, Ipswich.Google Scholar
Wiseman, J., Cole, D. J. A. and Lewis, D. 1982. Energy values in pig nutrition. 3. The digestible and metabolizable energy content of barley, wheat, maize, oats and rye. J. agric Sci., Camb. 98: 8997.CrossRefGoogle Scholar