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Research Into Poultry Nutrition in Australia

Published online by Cambridge University Press:  18 September 2007

M. W. McDonald*
Affiliation:
N.S.W. Department of Agriculture, Poultry Research StationSeven Hillls
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Abstract

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Type
Research Article
Copyright
Copyright © Cambridge University Press 1962

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References

Bartlett, B. E, and Cozens, L. E., —Feeding the laying hen–some nutritional and economic aspects of high energy diets. Vict. J. Agriculture 56: 490, 1958.Google Scholar
Beilharz, R. G., and McDonald, M. W. —The use of high quality fat and the effect of protein level in broiler diets. Poultry Science 38: 519, 1959.CrossRefGoogle Scholar
Beilharz, R. G., and McDonald, M. W. —Possible effect of sodium potassium balance on development of uraemia. Aust. Vet. Journal 36: 89, 1960.CrossRefGoogle Scholar
Crosbie-Morrison, J. W., and McDonald, M. W. —The gross protein value of Australian meat-meals. J. Aust. Institute Agric. Science 25: 63, 1959.Google Scholar
Duncan, D. C., Greenaway, B. and Regina, Forge, –Oat grain in laying rations. Agric. Gazette N.S.W. 61: 656, 1950.Google Scholar
Gartner, R. J. W., and Riley, J. W., —Vitamin A in poultry—a survey of liver vitamin A reserves in fowls and their relationship to diseases. Qu. J. Agric. Science 13: 1, 1959.Google Scholar
Gartner, R. J. W., and Burton, H. W., —Vitamin A in poultry—effect of vitamin A deficiency. Qu. J. Agric. Science 14: 189, 1957.Google Scholar
Gray, D. F., Lewis, P. F. and Gorrie, C. J. R., —Bone meal as a source of bovine Salmonellosis. Aust. Vet. J. 34: 345, 1958.CrossRefGoogle Scholar
Gray, D. F., Harley, O. C. and Noble, J. L., —The ecology and control of Salmonella contamination in bone meal. Aust. Vet. J. 36: 245, 1960.CrossRefGoogle Scholar
McArdle, A. A., Jones, M. D. and Lowe, A. G., —A griller trial using two grades of meatmeal-high protein meatmeal best for chickens. J. Agric. Sth. Aust. 63: 502, 1960.Google Scholar
McArdle, A. A., and Lowe, A. G., —Feeding Trials at Parafield Poultry Station—High energy all mash gives highest net return. J. Agric. Sth. Aust. 63: 556, 1960.Google Scholar
McClymont, G. L., and Duncan, D. C., —Studies on nutrition of poultry III. Toxicity of grain sorghum to chickens. Aust. Vet. J. 28: 229, 1952.CrossRefGoogle Scholar
McClymont, G. L., and Duncan, D. C., —Ground limestone and limestone chips—efficient replacements for shell grit for layers. Agric. Gazette N.S.W. 65: 148, 1954.Google Scholar
McClymont, G. L., and Duncan, D. C., —Studies on nutrition of poultry 5. Comparative value of synthetic riboflavin and natural vitamin B complex rich feeds for supplemneting wheat-meatmeal rations for hatchability. Aust. Vet. J. 31: 91, 1955.CrossRefGoogle Scholar
McClymont, G. L., Duncan, D. C. and Wilkins, S., —Grain sorghum can replace wheat in laying rations. Agric. Gazette N.S.W. 61: 656, 1950.Google Scholar
McClymont, G. L., and Hart, L., —Studies on nutrition of poultry. 1. Investigations of the inadequacy of high wheat content rations for hatchability in White Leghorn pullets. Aust. Vet. J. 23: 247, 1947.CrossRefGoogle Scholar
McClymont, G. L., and Hart, L., —Studies on nutrition of poultry. 2. Investigations on the effect of vitamin A deficiency on hatchability and egg production. Aust. Vet. J. 24: 5, 1948.CrossRefGoogle Scholar
McDonald, M. W., —Effect of supplementary choline and methionine on the response of chickens to folic acid. Nature 177: 343, 1956.CrossRefGoogle Scholar
McDonald, M. W., —Methionine Supplements in chicken diets. 1. Effect of supplementary methionine and choline on growth and folic acid requirements of White Leghorn chickens. Aust. J. Agric. Research 8: 318, 1957a.Google Scholar
McDonald, M. W., —Methionine supplements in chicken diets. 2. A breed difference in growth response to DL. methionine. Aust. J. Agric. Research 8: 587, 1957b.CrossRefGoogle Scholar
McDonald, M. W., —Methionine supplements in chicken diets. 3. The biochemical difference in sulphur amino acid metabolism between White Leghorns and Australorps. Aust. J. Agric. Research 9: 161, 1958a.CrossRefGoogle Scholar
McDonald, M. W., —Methionine supplements in chicken diets. 4. The effect of DL. methionine supplementation over full and part of growing period on growth and efficiency of cockerels from the reciprocal crosses of White Leghorns and Australorps. Aust. J. Agric. Research 9: 708, 1958b.CrossRefGoogle Scholar
McDonald, M. W., —The effect of debeaking on the performance of the chickens. Aust. Vet. J. 36: 119, 1960.Google Scholar
McDonald, R. G., and Beilharz, M. D., —The effect of debeaking on the performance of the chickens. Proc. 1959 Poultry Science Convention Sydney N.S.W.: 51, 1959.Google Scholar
McDonald, M. W., and McClymont, G. L., —Vitamin D and winter egg production at the latitude of Sydney. Aust. Vet. J. 33: 207, 1957.CrossRefGoogle Scholar
McDonald, M. W., and McClymont, G. L., —Studies on nutrition of poultry 4. Nutritional value of condensed whale solubles in chicken rations. Aust. Vet. J. 30: 57, 1954a.CrossRefGoogle Scholar
McDonald, M. W., and McClymont, G. L., —Studies on nutrition of poultry. 6. The effect of a simplified breeding ration on hatchability and growth and viability of chickens. Aust. Vet. J. 31: 93, 1955a.CrossRefGoogle Scholar
McDonald, M. W., and McClymont, G. L., —High energy chicken rations based on crushed wheat and meatmeal. Agric. Gazette N.S.W. 66: 265, 1955b.Google Scholar
McDonald, M. W., and McClymont, G. L., —How simple can we make chicken rations– some experimental evidence. Agric. Gazette N.S.W. 66: 313, 1955c.Google Scholar
McDonald, M. W., and Newman, T. C., —The variation in nutritive value of Australian meatmeals. Aust. J. Exp. Agric. and Anim. Submitted for publication 1961.Google Scholar
Miller, E. C., O'Barr, J. S. and Denton, C. A., —The metabolism of methinine by S. C. White Leghorn and Black Australorp chicks. J. Nutrition 7: 42, 1960.CrossRefGoogle Scholar
Milne, F. N. J., —Studies on condensed whale solubles in chick starterrations. Qu. J. Agric. Science 12: 21, 1955.Google Scholar
Morris, R. H., —The place of clover meal in poultry feeding. J. Agric. W. Aust. 8: 289, 1959.Google Scholar
Smetana, P., and Giles, D. K., —Christmas Island rock phosphate in poultry feeding trials. J. Agric. W. Aust. 7: 467, 1959.Google Scholar
Snook, L. C., —The use of rock phosphate from Christmas Island in poultry rations. J. Agric. W. Aust. 7: 545, 1958.Google Scholar
Stewart, I. J., —Influence of source of protein on growth rate of chickens. J. Agric. Vict. 56: 199, 1958.Google Scholar
Thompson, J. J., and Smith, N. C., —Exudative diathesis in chicks in New Zealand. Aust. Vet. J. 29: 89, 1953.CrossRefGoogle Scholar
Underwood, E. J., Conochie, J. Reed, F. M. and Smith, R., —The value of meatmeal and livermeal as sources of protein. Aust. Vet. J. 26: 323, 1950.CrossRefGoogle ScholarPubMed
Underwood, E. J., Robinson, T. J. and Curnow, D. H., —The manganese content of Western Australian cereal grains and their by-products and of other poultry feeds. J. Agric. W. Aust. 24: 259, 1947.Google Scholar
Varick, M. G., Kemmerer, A. R., Ben Nimbkar, and Smith, Lee S., —Nutritional value of low and high protein sorghum grains for growing chickens. Poultry Science 38: 36, 1959.Google Scholar
Winter, H., —Nutritional encephalomalacia of chickens— Report an histological study of field outbreaks on the university farm. Aust. Vet. J. 32: 269, 1956.CrossRefGoogle Scholar
Winter, H., —Observations on nutritional encephalomalacia of chickens in a warm climate. Aust. Vet. J. 34: 77, 1958.CrossRefGoogle Scholar