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The effects of light illuminance and wavelength on the growth of broiler chickens

Published online by Cambridge University Press:  27 March 2009

C. M. Wathes ,
H. H. Spechter  and
T. S. Bray
C. M. Wathes
Affiliation:
Ministry of Agriculture, Fisheries and Food, Shardlow Hall, Shardlow, Derby
H. H. Spechter
Affiliation:
Rothamsted Experimental Station, Harpenden, Hertfordshire
T. S. Bray
Affiliation:
Ministry of Agriculture, Fisheries and Food, Gleadthorpe Experimental Husbandry Farm, Meden Vale, Mansfield, Nottinghamshire
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Summary

The effects of light illuminance and wavelength on the growth of male and female broiler chickens from day-old to 8 weeks of age were studied.

Different coloured lights, at equal illuminance and peak wavelengths of 425, 525 and 610 nm and a broad-spectrum white light of median wavelength 560 nm had no significant effect on the growth rate or cumulative food intake of birds of either sex.

The performance of male broilers was unaffected by light of different illuminances, equal to 0·7, 3·0, 15·0 and 46·5 lux. The weight gain of female broilers, adjusted for food intake, was progressively depressed at illuminances above 3 lux.

There is probably no commercial advantage in using broad-spectrum white light at intensities above 3 lux.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 98 , Issue 1 , February 1982 , pp. 195 - 201
Copyright
Copyright © Cambridge University Press 1982

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References

REFERENCES

Bacon, W. L. & Touchburn, S. P. (1976). Effect of light intensity on confinement rearing of male turkeys. Poultry Science 55, 9991007.CrossRefGoogle ScholarPubMed
Baker, R. J. & Nelder, J. A. (1978). The GLIM System. Release 3. Numerical Algorithm Group, Oxford.Google Scholar
Barott, H. G. & Pringle, E. M. (1951). The effect of environment on growth and feed and water consumption of chicks. IV. The effect of light on early growth. Journal of Nutrition 45, 265274.Google Scholar
Benoit, J. (1964). The role of the eye and of the hypothalamus in the photostimulation of gonads in the duck. Annals of the New York Academy of Science 117, 204216.CrossRefGoogle ScholarPubMed
Beremski, Ch. (1976). The effect of light intensity on the performance of broilers fattened in cages. Zhivotnovu “dni Nauki 13, 6064.Google Scholar
Blough, D. S. (1957). Spectral sensitivity in the pigeon. Journal of the Optical Society of America 47, 827833.CrossRefGoogle ScholarPubMed
Bowmaker, J. K. & Knowles, A. (1977). The visual pigments and oil droplets of the chicken retina. Vision Research 17, 755764.CrossRefGoogle ScholarPubMed
Charles, D. R., Groom, C. M. & Bray, T. S. (1981). The effects of temperature on broilers: ventilation rates for the application of temperature control. British Poultry Science (in the Press).CrossRefGoogle Scholar
Cherry, P. & Barwick, M. W. (1962). The effect of light on broiler growth. 1. Light intensity and colour. British Poultry Science 3, 3139.Google Scholar
Cherry, J. A., Beane, W. L. & Weaver, W. P. (1978). The influence of dietary energy on tho performance of broilers reared under different lighting regimes. Poultry Science 57, 9981001.CrossRefGoogle Scholar
Cornsweet, T. N. (1970). Visual Perception. London: Academic Press.Google Scholar
Foss, D. C., Carew, L. B. & Arnold, E. L. (1972). Physiological development of cockerels as influenced by selected wave-lengths of environmental light. Poultry Science 51, 19221927.CrossRefGoogle Scholar
Haller, R. W. & Sunde, M. L. (1973). Effects of heat and light crossed gradients room testing on the growth performance of broiler type chickens. Poultry Science 52, 7480.Google Scholar
Hecht, S., Shlaer, S. & Pirenne, M. H. (1942). Energy, quanta and vision. Journal of General Physiology 25, 819840.CrossRefGoogle ScholarPubMed
Kondra, P. A. (1961). The effects of coloured light on growth and feed efficiency of chicks and poults. Poultry Science 40, 268269.CrossRefGoogle Scholar
List, R. J. (ed.) (1966). Smithsonian Meteorological Tables. 6th edn, pp. 448451. Washington: Smithsonian Institution.Google Scholar
Ministry of Agriculture, Fisheries and Food (1978). The poultry unit and management practices. In Gleadthorpe Experimental Husbandry Farm, Poultry Booklet 1978, pp. 57. London: Ministry of Agriculture, Fisheries and Food.Google Scholar
Morris, T. R. (1968). Light requirements of the fowl. In Environmental Control in Poultry Production (ed. Carter, T. C.), pp. 1539. Edinburgh: Oliver and Boyd.Google Scholar
Osol, J. G., Foss, D. C. & Carew, L. B. (1980). Effect of light environment and pinealectomy on growth and thyroid function in the broiler cockerel. Poultry Science 59, 647653.Google Scholar
Proudfoot, F. G. & Sefton, A. E. (1978). Feed texture and light treatment effects on the performance of chicken broilers. Poultry Science 57, 408416.Google Scholar
Siegel, H. S. (1977). Effects of temperature and light on growth. In Growth and Poultry Meat Production (ed. Boorman, K. N. and Wilson, B. J.), pp. 187226. Edinburgh: British Poultry Science Limited.Google Scholar
Skoglund, W. C. & Palmer, D. H. (1962). Light intensity studies with broilers. Poultry Science 41, 18391842.CrossRefGoogle Scholar
Wabeck, C. J. & Skoglund, W. C. (1974). Influence of radiant energy from fluorescent light sources on growth, mortality and feed conversion of broilers. Poultry Science 53, 20552059.Google Scholar
Wilson, B. J. (1977). Growth curves: their analysis and use. In Growth and Poultry Meat Production (ed. Boorman, K. N. and Wilson, B. J.), pp. 89115. Edinburgh: British Poultry Science Limited.Google Scholar