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Poultry Environment in the U.K. A Review of Progress

Published online by Cambridge University Press:  18 September 2007

D. R. Charles
Affiliation:
Ministry of Agriculture, Fisheries and Food, National Agricultural Advisory Service, South Western Region, Burghill Road, Westbury-on-Trym, Bristol, BS10 6NJ.
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Abstract

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Type
Research Article
Copyright
Copyright © Cambridge University Press 1970

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References

Ackers, T. G., Bond, J., Goldberg, L. J. (1966). Effect of temperature and relative humidity on survival of airborne Columbia SK group viruses. Appl. Microbiol. 14, 361366.CrossRefGoogle Scholar
Anderson, D. P., Beard, G. W., Hanson, R. P. (1964). The adverse effects of ammonia on chickens including resistance to infection with Newcastle Disease Virus. Avian Dis. 8, 369379.CrossRefGoogle Scholar
Anon. (1966). Poultry Environment Meeting. London, 1966.Google Scholar
Barott, H. G., Pringle, E. M., (1964). Energy and gaseous metabolism of the chicken from hatch to maturity as affected by temperature. J. Nutr. 31, 3550.CrossRefGoogle Scholar
Berg, R. W. (1966). How to prevent oxygen starvation. Poultry Digest, 03, 1966.Google Scholar
Bowman, J. C. (1960). Lighting techniques for the domestic fowl, 1. Experiments 1958–59. Br. Poult. Sci. 1, 122134.Google Scholar
Bowman, J. C., Archibald, J. D. H. (1959). Effects of controlled lighting on production characters in the fowl. Nature 183, 11381139.CrossRefGoogle ScholarPubMed
Bowman, J. C., Jones, R. H. (1961). Lighting techniques for the domestic fowl. 2. Experiment 1959–60. Br. Poult. Sci. 2, 91105.Google Scholar
Bowman, J. C., Jones, R. H. (1963). Lighting techniques for the domestic fowl. 3. Experiment 1960–61. Br. Poult. Sci. 4, 2737.CrossRefGoogle Scholar
Bray, D. J., Gessell, J. A. (1961). Studies with corn-soya laying diets. 4. Environmental temperature—a factor affecting performance of pullets fed diets sub-optimal in protein. Poult. Sci. 40. 13281335.CrossRefGoogle Scholar
Bray, D. J., Morrisey, D. J. (1962). Studies with corn-soya diets. 5. Seasonal patterns of performance at marginal levels of dietary protein. Poult. Sci. 41, 10791081.Google Scholar
Bullis, K. L., Snoeyenbos, G. H., Van Roekel, H. (1950). A keratoconjunctivitis in chickens. Poult. Sci. 29, 386389.CrossRefGoogle Scholar
Card, L. E. (1961). Poultry Production P. 156 LEA and FEBIGER, Philadelphia.Google Scholar
Carnaghan, R. B. A. (1958). Keratoconjunctivitis in broiler chicks. Vet. Rec. 70, 3537.Google Scholar
Charles, D. R. (1956). The effects of atmospheric ammonia on the performance of laying hens. Ph.D. Thesis, Nottingham.Google Scholar
Charles, D. R. (1966). Housing and the prevention of airborne disease spread. World's Poult. Sci. J. 22, 155.CrossRefGoogle Scholar
Charles, D. R. (1967). Ventilation—theoretical considerations. Housing, environment and health of table chickens. Edit. Sainsbury, D. W. B.Farm Buildings Centre.Google Scholar
Charles, D. R. (1968). Recent advances in research and practice in controlled environment for broilers. W.P.S.A. 3rd European Poultry Conference, Jerusalem.Google Scholar
Charles, D. R., King, A. W. M., Walker, G. J., Benham, C. L., Spencer, P. G. (1969). Air filtration in poultry house. Symposium of the Filtration Society, 04 1969.Google Scholar
Charles, D. R., Payne, C. G. (1966a). The influence of graded levels of atmosphere ammonia on chickens. 1. Effects on respiration and on the performance of broilers and replacement growing stock. Br. Poult. Sci. 7, 177187.CrossRefGoogle Scholar
Charles, D. R., Payne, C. G. (1966b). The influence of graded levels of atmospheric ammonia on chickens. 2. Effect on the performance of laying hens. Br. Poult. Sci. 7, 189198.CrossRefGoogle Scholar
Charles, D. R., Payne, C. G., Lamming, G. E. (1963). Atmospheric ammonia and the performance of laying hens. Univ. of Nottingham, School of Agriculture Report, 1963.Google Scholar
Charles, D. R., Payne, C. G. (1968). Atmospheric composition and regulation. The housing requirements of layers, Edit. Fox, S.Farm Buildings Centre.Google Scholar
Coles, R. (1958). Agricultural Research Council, Technical Committee on Poultry Research. A.R.C. 299/58.Google Scholar
Cropsey, M. (1951). Simplifying poultry ventilation with mathematics. Agric. Engr. St. Joseph, Mich. 32, 675676.Google Scholar
Davies, C. N. (1951). Ventilation and its application to poultry housing. World's Poult. Sci. J. 7: 195200.CrossRefGoogle Scholar
Dick, J. B. (1950). The fundamentals of natural ventilation of houses. Inst. Heat Vent. Engr. J. 18. 123124.Google Scholar
Emmans, G. C. (1966). Personal communication.Google Scholar
Emmans, G. C. (1967). Personal communication.Google Scholar
Emmans, G. C. (1968a). Personal communication.Google Scholar
Emmans, G. C. (1968b). Effective environmental control. 1. Evidence of the failure to control day length under practical conditions. World's Poult Sci. J. 24, 317.Google Scholar
Esmay, M. L. (1958). Temperature and humidity control in poultry houses. Poult. Sci. 37, 1201.Google Scholar
Freeman, B. M. (1965a). The relationship between oxygen consumption, body temperature, and surface area in the hatching and young chick. Br. Poult. Sci. 6, 6772.CrossRefGoogle ScholarPubMed
Freeman, B. M. (1965b). Physiological responses of the adult fowl to environmental temperature W.P.S.A. U. K. Branch Convention, 1965.Google Scholar
Hegeman, J. H. (1965). Hetluchtbeweginspatroon bij stalventilate Landbowmechenisatie 16, 1217.Google Scholar
Gordon, W. A. M. (1963). Environmental studies in pig housing. 4. The bacterial content of the air in piggeries and its influence on disease incidence. Brit. Vet. J. 119, 263273.CrossRefGoogle Scholar
Gordon, W. A. M. (1966). Personal communication.Google Scholar
Hill, S. R. (1951). A consideration of the problems involved in ventilating the poultry laying house. Poult. Sci. 30, 558568.CrossRefGoogle Scholar
Jaward, R. (1965). Ph.D. Thesis, University of Moscow.Google Scholar
King, D. F. (1959). Artificial light for growing and laying birds. Ala. Agric. Engr. Sta. Prog. Rep. 72.Google Scholar
King, D. F. (1961). Effects of increasing, decreasing and constant lighting treatments on growing pullets. Poult. Sci. 40, 479484.CrossRefGoogle Scholar
King, A. W. M., Charles, D. R., Spencer, P. G., Walker, G., Benham, C. L. (1968). Air hygiene studies, the glass fibre ceiling. World's Poult. Sci. J. 24: 319.Google Scholar
Lindsay, E. H. (1967). Personal communication.Google Scholar
Long, J., Dale, A. C., Harrington, R. B., Johnson, R. C. (1966). The influence of selected temperatures and ventilation rates on egg production. Poult. Sci. 45, 5865.CrossRefGoogle Scholar
Longhouse, A. D., Ota, H., Ashby, W. (1960). Heat and moisture data for poultry housing. Agric. Engr. St. Joseph. Mich. 41, 567576.Google Scholar
Lundy, H. (1967). On the requirement for a single index of biological response to the total climatic environment of the bird. Housing, environment and health of table chickens. Edit. Sainsbury, D.W.B.Farm Buildings Centre.Google Scholar
Mitchell, H. H., Kelly, M. A. R. (1963). Estimated data on the energy, gaseous, and water metabolism of poultry for use in planning the ventilation of poultry houses. J. Agri. Res. 47. 735748.Google Scholar
Morris, T. R. (1966). Light intensity for growing and laying pullets. World's Poult. Sci. J. 22: 156.CrossRefGoogle Scholar
Morris, T. R., Fox, S. (1958a). Light and sexual maturity in the domestic fowl. Nature. 181, 14531454.CrossRefGoogle ScholarPubMed
Morris, T. R., Fox, S. (1958b). Artificial light and sexual maturity in the fowl. Nature 182, 15221523.CrossRefGoogle ScholarPubMed
Morris, T. R., Fox, S. (1961). Increasing versus constant daylength for laying pullets. Br. Poult. Sci. 2, 5967.CrossRefGoogle Scholar
Morris, T. R., Fox, S. (1968). The response of pullets of various ages to different amounts and qualities of light. The housing requirements of layers. Edit. Fox, S.Farm Building Centre.Google Scholar
Morris, T. R., Owen, V. M. (1966). The effect of light intensity on egg Production. Proc. 13th. World's Poult. Cong. 458461.Google Scholar
Mueller, W. J. (1961). The effect of constant and fluctuating environmental temperatures on the biological performance of laying pullets. Poult. Sci. 40, 15621571.CrossRefGoogle Scholar
Payne, C. G. (1959). Air conditions in broilers house. Agriculture, London. 65, 629637.Google Scholar
Payne, C. G. (1961). Studies on the climate of broiler houses. 2. Comparison of ventilation system. Brit. Vet. J. 117, 106114.CrossRefGoogle Scholar
Payne, C. G. (1964). Effects of environment on ration formulation for laying hens. J. Inst. Corn Merch. 7: 2125.Google Scholar
Payne, C. G. (1966). Development in the uses of artificial heating for the control of the animal environment. Electricity Council Rural Electrification Conference, 1966.Google Scholar
Payne, C. G. (1967). Factors influencing temperature and humidity in intensive broiler houses during the post brooding period. Br. Poult. Sci. 8, 101118.CrossRefGoogle Scholar
Payne, C. G., Charles, D. R. (1968). The influence of environmental temperature on the performance of laying hens. The housing requirements of layers. Edit. Fox, S.Farm Building Centre.Google Scholar
Prince, R. P., Potter, L. M., Irish, W. W. (1960). Response of chickens to temperature and ventilation environments. Poult. Sci. 40, 102108.CrossRefGoogle Scholar
Prince, R. P., Potter, L. M., Luginbuhl, R. E., Chomidk, T. (1962). Effect of ventilation rate on performance of chicks inoculated with infectious bronchitis virus. Poult. Sci. 41, 268272.CrossRefGoogle Scholar
Prosser, H. W. (1966). Fans and the control of environment in livestock buildings. International Exhibition of Agricultural Machinery, Moscow, 1966.Google Scholar
Reid, B. L., Kurnick, A. A., Hulett, B. J. (1965). Relationship of protein level, age and ambient temperature to laying hen performance. Poult. Sci. 44, 11131122.CrossRefGoogle ScholarPubMed
Sainsbury, D. W. B. (1959). Electricity and problems of animal environmental control. Electrical Development Association. Publication 1897.Google Scholar
Sainsbury, D. W. B. (1967). Effects of air movement. Housing, environment and health of table chicken. Edit. Sainsbury, D. W. B.Farm buildings Centre.Google Scholar
Saunders, C. N. (1958). Keratoconjunctivitis in broiler birds. Vet. Rec. 70, 117119.Google Scholar
Scarborough, E. N. (1957). Environmental conditions in broiler houses. Delaware Agric. Exp. Stn. Progress Report NE8.Google Scholar
Scorgie, N. J., Willis, G. A. (1952). Veterinary Hygiene p. 121Green, Edinburgh.Google Scholar
Spencer, P. G., Charles, D. R. (1968). Effective environmental control. 2. Light proofing. World's Poult. Sci. J. 24, 318.Google Scholar
Summers, J. D. (1965). Temperature and diet on egg production and quality. Canadian. Poult. Review. 89, 2432.Google Scholar
Valentine, H. (1964). A study of the effect of different ventilation rates on the ammonia concentrations in the atmosphere of broiler houses. Br. Poult. Sci. J. 149159.CrossRefGoogle Scholar
Valley, T. F. (1966). Respiratory disease of poultry—Poultry Review, May and BAKER 5: 6367.Google Scholar
Walter, C. W. (1966). Cross infection in hospitals. A.S.H.R.A.E.J. 8: 4149.Google Scholar
Wells, W. F. (1955). Air borne contagion and air hygiene. p.155Harvard University Press.Google Scholar
Winn, P. N., Godfrey, E. F. (1968). Abstract in Poultry Digest 27: 266.Google Scholar