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World's Poultry Science Journal Volume 42, 1986 - Issue 3
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Articles

Temperature for Broilers

TEMPERATURE POUR LES POULETS DE CHAIR

STALLTEMPERATUREN FÜR BROILER

TEMPERATURAS PARA GALLINAS TIPO BROILER

D. R. Charles ADAS Block 7, Government Buildings, Chalfont Drive, NottinghamNG8 3SN, England
Pages 249-258 | Published online: 23 Sep 2019

References

  • ABDELKARIM, M., HARRIS, G. C., WALDROUP, P. W. (1985). The influence of dietary energy level on broiler performance under moderate and hot humid tropical climates. Poult. Sci. 64 1.
  • CERNIGLIA, G. J., HERBERT, J. A., WATTS, A. B. (1983). The effect of constant ambient temperature and ration on the performance of sexed broilers. Poult. Sci. 62 746–754.
  • CHARLES, D. R. (1968). Recent advances in research and practice in controlled environemnt for broilers. WPSA 3rd European Poultry Conference.
  • CHARLES, D. R., GROOM, C. M., BRAY, T. S. (1981). The effects of temperature on broilers: interactions between temperature and feeding regime. Br. Poult Sci. 22 475–481.
  • CHARLES, D. R., WAKEFORD, P. (1967). In panel report: Housing environment and health, Edit. Sainsbury, D W B, Farm Buildings Centre.
  • CLARK, J. A., CHARLES, D. R., WATHES, C. M., ARROW, J. (1975). Heat transfer from housed poultry, its implications for environmental control. Worlds' Poult. Sci. J. 31 (4) 312.
  • COMBS, G. F. (1970). Feed ingredient composition and amino acid standards for broilers. Proc. Maryland Nutrition Conference 81–89.
  • COWAN, P. J., MICHIE, W. (1978). Environmental temperature and broiler performance: the use of diets containing increased amounts of protein. Br. Poult. Sci. 19 (5) 601–605.
  • DEATON, J. W., REECE, R. N. (1968). Telemetering the body temperature of the broiler chick and effect of induced hypothermia. Poult. Sci. 47 (3) 714–719.
  • DEATON, J. W., REECE, F. N., KUBENA, L. F., MAY, J. D., VARDAMAN, T. H. (1973). The effect of low versus moderate rearing temperature on broiler performance. Poult. Sci. 52 (3) 1175–1178.
  • DEATON, J. W., REECE, F. N., LOTT, B. D. (1984). Effect of differing temperature cycles on broiler performance. Poult Sci. 63 613–615.
  • DEATON, J. W., REECE, F. N., LOTT, B. D., KUBENA, L. F., MAY, J. D. (1972). The efficiency of cooling broilers in summer as measured by growth and feed utilisation. Poult Sci. 52 69–71.
  • DEATON, J. W., REECE, F. N., McNALLY, E. H., TARVER, W. J. (1969). Liver, heart and adrenal weights of broilers reared under constant temperatures. Poult. Sci. 48 (1) 283–388.
  • EMMANS, G. C. (1980). A growth model. In: Computers in animal production. British Society of Animal Production. Harrogate.
  • EMMANS, G. C., CHARLES, D. R. (1977). Climatic environment and poultry feeding in practice. In Nutrition and the climatic environment. Edit. Haresign, W., Swan, H., Lewis, D. Butterworths 31–50.
  • FELTON, K. E. (1974). The effect of twelve different temperature schedules on broilers. International Livestock Environment Symposium, Lincoln Nebraska.
  • FELTON, K. HOFFMAN, E. (1970). Effect of environment on broiler performance. Abs. in Poultry Digest 29 (343) 450.
  • FINDLAY, J. D. (1950) The effects of temperature humidity air movement and solar radiation on the behaviour and physiology of cattle and other farm animals. Bull, Hannah Dairy Res Inst 9.
  • FISHER, C., WILSON, B. J. (1974). Response to dietary energy concentration by growing chickens. In: Energy requirements of poulty. Edit. Morris, T. R., Freeman, B. M., British poultry Science Ltd. 151–184.
  • GOTO, I., KOGA, O., OKAMOTO, S. (1969). The effect of forced air movements on the growth of male chickens. Abs in W P S H 25 (1) 57.
  • GRIFFIN, J. G., VARDAMAN, T. H. (1970). Diurnal cyclic versus daily constant temperatures for broiler performance. Poult. Sci. 49. 487–392.
  • GRIFFIN, J. G., VARDAMAN, T. H. (1971). Diurnal cyclic high temperature in broiler production, effects of lowering the cool part of the temperature cycle on performance. Poult. Sci. 50 (2) 463–466.
  • HARRIS, G. C., DODGEN, W. H., NELSON, G. S. (1974). Effects of diurnal cycling growing temperatures on broiler performance. Poult. Sci. 53 2204–2208.
  • HARRIS, G. C., NELSON, G. S. (1975). Performance of broilers at different humidity levels and summer temperatures. Arkansas Farm Research 24 (2) 16.
  • HARRIS, G. C., NELSON, G. S., DODGEN, W. H., SEAY, R. L. (1975). The influence of air temperature during brooding on broiler performance. Poult. Sci. 54 (2) 571–577.
  • HARRIS, G. C., WALDROUP, P. W., SEAY, R. L., NELSON, G. S. (1975). The influence of humidity energy and amino acid status on the performance of broilers. Poult. Sci. 54 (5) 1933.
  • HARWOOD, F. W., REECE, F. N. (1974). Summer ventilation design for insulated windowless broiler houses in Southern regions of the US. Poult. Sci. 53 (6) 2148–2152.
  • KESHAVARZ, K., FULLER, H. L. (1980). The influence of widely fluctuating temperatures on heat production and energetic efficiency of broilers. Poult. Sci. 59 2121–2158.
  • KUBENA, L. F., DEATON, J. W., REECE, F. N., MAY, J. D., VARDAMAN, T. H. (1972). The influence of temperature and sex on the amino acid requirements of the broiler. P-oult. Sci. 51 (4) 1391–1396.
  • KUBENA, L. F., LOTT, B. D., DEATON, J. W., REECE, F. N., MAY, J. D. (1972). Body composition of chicks as influenced by environmental temperature and selected dietary factors. Poult. Sci. 51 (2) 517–522.
  • KUBENA, L. F., MAY, J. D., DEATON, J. W., REECE, F. N., LOTT, B. D. (1972). Effect of dietary iron and copper on mortality of chicks at 2 temperatures. Poult. Sci. 51 (4) 1470–1472.
  • KUBENA, L. F., REECE, F. N., DEATON, J. W., MAY, J. D. (1972). Heat prostration of broilers as influenced by dietary energy source. Poult. Sci. 51 (5) 1744–1747.
  • KUBENA, L. F., REECE, F. N., DEATON, J. W., MAY, J. D. (1973). The effect of dietary fat level on heat prostration of broilers. Poult. Sci. 52 1691–1693.
  • MAY, J. D., KUBENA, L. F., REECE, F. N., DEATON, J. W. (1972). Environmental temperatures and dietary lysine effects on free amino acids in plasma. Poult. Sci. 51 (6) 1937–1940.
  • McNAUGHTON, J. L., KUBENA, L. F., DEATON, J. W., REECE, F. N. (1977). Influence of dietary protein and energy on the performance of commercial egg type pullets reared under summer conditions. Poult. Sci. 56 (5) 1391–1398.
  • MICHIE, W., EMMANS, G. C. (1975). Unpublished data. North of Scotland Agricultural College.
  • MICKELBERRY, W. C., RODGER, J. C., STADELMAN, W. J. (1966). The influence of dietary fat and environmental temperature upon chick growth and carcass composition. Poult. Sci. 45 313–321.
  • MORRISON, W. D., CURTIS, S. E. (1983). Observations of environmental thermoregulation by chicks. Poult. Sci. 62 1912–1914.
  • OLSEN, D. W., SUDNE, M. L., BIRD, H. R. (1972). The effect of temperature on metabolisable energy determination and utilisation by the growing chick. Poult. Sci. 51 1915–1922.
  • PAYNE, C. G. (1966). Development in the use of artificial heating for the control of the animal environment. Electrical Development Assoc Conference 1966 23–27.
  • PENDERSON, J. (1971). What is optimal heat for broilers. Poultry International April 1971 38–42.
  • REECE, F. N., DEATON, J. W. (1971). Use of evaporative cooling for broiler chicken production in areas of high relative humidity. Poult. Sci. 50 (1) 100–104.
  • REECE, F. N., DEATON, J. W., KUBENA, L. F. (1971). Effects of high temperature and humidity on heat prostration of broiler chickens. Winter Meeting ASAE.
  • REECE, F. N., DEATON, J. W., VARDAMAN, T. H. (1969). The effect of temperature exposure on broiler condemnation. Poult. Sci. 48 (1) 288–294.
  • REECE, F. N., McNAUGHTON, J. L. (1982). Effects of dietary nutrient density on broiler performance at low and moderate environmental temperatures. Poult. Sci. 61 2208–2211.
  • SAINSBURY, D. W. B. (1967). In panel report: Housing environment and health. Edit Sainsbury, D. W. B., Farm Buildings Centre.
  • SAINSBURY, D. W. B. (1971). Ambient temperature is the vital factor. Poultry International April 1971 34–43.
  • SIEGEL, H. S., DRURY, L. N. (1969). Broiler growth in cycling temperature environments Poult. Sci. 48 (5) 1871.
  • SIEGEL, H. S., DRURY, L. N. (1970). Broiler growth in diurnally cycling temperature environments. Poult. Sci. f2449 (1) 238–244.
  • SINURAT, A. P., BALNAVE, D. (1985). Effect of dietary amino acid and metabolisable energy on the performance of broilers kept at high temperatures. Br. Poult. Sci. 26 117–128.
  • SINURAT, A. P., BALNAVE, D. (1985). High temperature studies with broilers: the effect of dietary amino acids and metabolisable energy Proc. Poultry Symposium University of Sydney.
  • SMITH, W. K., PAYNE, C. G. (1968). The temperature nutrition interaction. Seminar to Univ of Sydney.
  • SPENCER, P. G. (1977). Unpublished ADAS data.
  • SPENCER, P. G., CHARLES, D. R. (1969). Unpublished ADAS data.
  • STANLEY, L. M., ROBERTS, C. W. (1974). Thermal environmental influences on the early growth phase of broilers. Proc. International Livestock Environment Symposium. ASAE University of Nebraska 267–273.
  • SUTCLIFFE, N. A., KING, A. W. M., CHARLES, D. R. (1985). Monitoring poultry house environment. In: computer applications in agricultural environments. 42nd Easter School in agricultural sciences. University of Nottingham.
  • SWAIN, S., FARRELL, D. J. (1975). Effects of different temperature regimes on body composition and carry over effects on energy metabolism of growing chickens. Poult. Sci. 54 (2) 513–520.
  • WATHES, C. M. (1978). Sensible heat transfer from the fowl. Unpublished University of Nottingham thesis.
  • WATHES, C. M., GILL, B. D., CHARLES, D. R., BACK, H. L. (1981). The effects of temperature on broilers: a simulation model of the responses to temperature. Br. Poult. Sci. 22 483–492.
  • WATHES, C. M., SPECHTER, GH, H., BRAY, T. S. and CHARLES, D. R. (1982). Brooding temperature regimes for broilers. 2nd International Livestock environment symposium. ASAE Publication 3–82. Ames. Iowa. 338–342.
  • WINN, P. N., GODFREY, E. F. (1969). The effect of humidity on growth and feed conversion of broiler chickens. Int J Biometeor 11 (1) 39–43.

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