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Exogenous regulation of the time of oviposition in the domestic fowl

Published online by Cambridge University Press:  18 September 2007

B. M. Bhatti
Affiliation:
Poultry Research Institute, Murree Road, Shamasabad, Rawalpindi, Pakistan
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Abstract

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Type
Research Article
Copyright
Copyright © Cambridge University Press 1987

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References

Abdulrazik, M. A. and Morris, T. R. (1983). Hen's oviposition-ovulation model under 21h cycle. Abstract of paper presented at the 72nd Annual Meeting of the Poultry Science Association, Inc. Poultry Science 62: 1370.Google Scholar
Abdulrazik, M. A., Morris, T. R., Cunningham, F. J. (1983). Ovulatory cycles of domestic fowl under ahemeral 30 hour cycles of different photoperiods. Abstract of paper presented at the 72nd Annual Meeting of the Poultry Science Association, Inc. Poultry Science 62:: 1371.Google Scholar
Arrington, L. C., Abplanalp, H. and Wilson, W. O. (1962). Experimental modification of the laying pattern in Japanese quail. British Poultry Science 3: 105.CrossRefGoogle Scholar
Bastian, J. W. and Zarrow, M. X. (1955). A new hypothesis for the asynchronous ovulatory cycle of the domestic hen (Gallus domesticus). Poultry Science 34: 776.CrossRefGoogle Scholar
Bhatti, B. M. (1978). Environmental Control of oviposition in the hen. Ph.D. Thesis, University of Reading, 1978.Google Scholar
Bhatti, B. M. (1987). Distribution of oviposition times of hens in continuous darkness or continuous illumination. British Poultry Science 28: 295.CrossRefGoogle ScholarPubMed
Bhatti, B. M. and Morris, T. R. (1977). The relative importance of light and temperature as phase setting signals for oviposition in the fowl. British Poultry Science 18: 391.CrossRefGoogle ScholarPubMed
Bhatti, B. M. and Morris, T. R. (1978a). Entrainment of oviposition in the fowl using light-dark cycles. British Poultry Science 19: 333.CrossRefGoogle ScholarPubMed
Bhatti, B. M. and Morris, T. R. (1978b). The relative importance of sunrise and sunset for entrainment of oviposition in the fowl British Poultry Science 19: 365.CrossRefGoogle ScholarPubMed
Bhatti, B. M. and Morris, T. R. (1987). A Model for the prediction of mena time of oviposition for hens kept in different dark-light cycles. British Poultry Science (in press).Google Scholar
Biellier, H. V. and Ostmann, O. W. (1960). Effect of varying day length on times of oviposition in domestic fowl. Missouri Agricultural Experimental Station Research Bulletin 747.Google Scholar
Bünning, E. (1973). The Physiological Clock. Longman, Springer-Verlag, New York.Google Scholar
Cain, J. R. and Wilson, W. O. (1972). A test of the Circadian rule of Aschoff with chicken hens. Journal of Interdisciplinery Cycle Research 3: 77.CrossRefGoogle Scholar
Cain, J. R. and Wilson, W. O. (1974). The Influence of specific environmental parameters on the circadian rhythm of chickens. Poultry Science 53: 1438.CrossRefGoogle ScholarPubMed
Davis, G. T. (1962). Ovulation control on 16 hour light cycle. Poultry Science 41: 1639.Google Scholar
Duncan, I. J. H. and Hughes, B. O. (1975). Feeding activity and egg formation in hens lit continuously. British Poultry Science 16: 145.CrossRefGoogle Scholar
Duplaix, M., Williams, J. and Mongin, P. (1981). Effects of an intermittent lighting schedule on the time of egg laying and the levels of luteinsing hormone, progesterone and corticosterone in the plasma of the domestic hen. Journal of Endocrinology 91: 375.CrossRefGoogle Scholar
Etches, R. J. (1984). Maturation of Ovarian follicles. In: Cunningham, F. J., Lake, P. E. and Hewitt, D. (Ed). Reproductive Biology of Poultry. pp. 51 (British Poultry Science Ltd., Longman Group, Harlow.Google Scholar
Fraps, R. M. (1955). Egg Production and Fertility in Poultry. In: Progress in the Physiology of Farm Animals. Edited: Hammond, J.. Butterworths, London 2: 661.Google Scholar
Fraps, R. M. (1968). Timing of oviposition in white leghorn hens under continuous uniform light. Archsives of Anatogy Histoagy and Embryology 50: 225.Google Scholar
Fraps, R. M., Neher, B. H. and Rothchild, I. (1947). The importance of diurnal ovulatory and temperature rhythms by periodic feeding of hens maintained under continuous light. Endocrinology 40: 241.CrossRefGoogle Scholar
Gowe, C. B., Sharp, P. J., Carter, N. B., Scaramuzzi, R. J., Sheldon, B. L., Yoo, B. H. and Talbot, R. T. (1985). Effects of selection for reduced oviposition interval on plasma concentrations of luteinising hormone during the ovulatory cycle in hens on a 24h lighting cycle. British Poultry Science 25: 441.CrossRefGoogle Scholar
Harrison, P. C. (1974). Spectrum influence on extra-retinal control of daily oviposition cycles. Poultry Science 53: 560.CrossRefGoogle Scholar
Harrison, P. C. and Becker, W. C. (1969). Extra-retinal photocontrol of oviposition in pinealectomised domestic fowl. Proceedings of Society for Experimental Biology and Medicine 132: 161.CrossRefGoogle Scholar
Ibrahim, A. E. N. A. E. R. (1977). Some effects of light on the plasma luteinising hormone concentrations in the domestic hen. M.Phil. Thesis, University of Reading.Google Scholar
Jöchle, W. (1964). In discussion of paper by W. O. Wilson: Photocontrol of Oviposition in gallinaceous birds. Annals New York Academy of Sciences 117: 194.Google Scholar
Johnson, P. A. and Van Tienhoven, A. (1984). Investigations of the significance of the crepuscular LH peak in Ovulatory cycle of the hen (Gallus domesticus). Journal of Endocrinology 100: 307.CrossRefGoogle ScholarPubMed
King, D. F. (1961). Effects of increasing, decreasing and constant light treatments on growing pullets. Poultry Science 40: 479.CrossRefGoogle Scholar
King, D. F. (1962). Egg production of chickens raised and kept in darkness. Poultry Science 41: 1499.CrossRefGoogle Scholar
Lanson, R. K. (1960). A study of the influence of light and darkenss upon the reproductive performance of the fowl. Ph.D. Thesis, University of Rutgers.Google Scholar
Liou, S. S. and Biellier, H. V. (1983). The entrainment of oviposition time by exogenous melatonin treatment in laying chickens. Abstract of the paper presented at the 72nd Annual Meeting of the Poultry Science Association, Inc. Poultry Science 62: 1458.Google Scholar
Marks, H. L. and Lucas, L. M. (1963). Time of oviposition under ‘short days’. Poultry Science 42: 1466.CrossRefGoogle Scholar
McNally, E. H. (1947). Some factors that affect oviposition in the domestic fowl. Poultry Science 26: 396.CrossRefGoogle Scholar
Melek, O., Morris, T. R. and Jennings, R. C. (1973). The time factor in egg formation for hens exposed to ahemeral light-dark cycles. British Poultry Science 14: 493.CrossRefGoogle ScholarPubMed
Mian, A. A. (1981). Intermittent lighting and egg production in the domestic fowl. Ph.D. Thesis, University of Reading.Google Scholar
Mongin, P. (1980). Food intake and Oviposition by domestic fowl under symmetric skeleton photoperiods. British Poultry Science 21: 389.CrossRefGoogle ScholarPubMed
Morris, J. A. (1961). Effect of continuous light and continuous noise on pullers held in a sealed chamber. Poultry Science 40: 995.CrossRefGoogle Scholar
Morris, T. R. (1967). The effect of light intensity on growing and laying pullets. World's Poultry Science Journal 23: 246.CrossRefGoogle ScholarPubMed
Morris, T. R. (1973). The Effect of Ahemaeral light and dark cycles on egg production in the fowl. Poultry Science 52: 423.CrossRefGoogle ScholarPubMed
Morris, T. R. (1977). The Clutch patterns of hens in constant illumination. British Poultry Science 18: 397.CrossRefGoogle ScholarPubMed
Morris, T. R. (1979). The Influence of light on ovulation in domestic birds. In: Hawks, H. (Ed) Animal Reproduction, pp. 307322 (Montclair, Allanheld & Osmun).Google Scholar
Morris, T. R. and Bhatti, B. M. (1978). Entrainment of Oviposition in the fowl using bright and dim light cycles. British Poultry Science 19: 341.CrossRefGoogle Scholar
Morris, T. R., Fox, S. and Jennigns, R. C. (1964). The response of laying pullets to abrupt changes in day length. British Poultry Science 5: 133.CrossRefGoogle Scholar
Morris, T. R., Melek, O. and Cunningham, F. J. (1975). Luteinising hormone concentrations in the plasma of laying hens exposed to a 27h cycle of light and darkness. Journal of Reproduction and Fertility 42: 381.CrossRefGoogle Scholar
Morris, T. R. and Owen, V. M. (1966). The effect of light intensity on egg production. Proceedings XIIIth World's Congress, Kiev (U.S.S.R.) 15: Section (e)—Poultry Management.Google Scholar
Naito, M., Ueno, T., Komiyama, T. and Miyazone, Y. (1980). Oviposition times under various light-dark cycles in the domestic fowl. Japanese Poultry Science 17 (3): 146.CrossRefGoogle Scholar
Nys, Y. and Mongin, P. (1981). The Effect of 6 and 8 hour light-dark cycles on egg producion and pattern of oviposition. British Poultry Science 22: 391.CrossRefGoogle Scholar
Payne, C. G., Lincoln, D. W. and Charles, D. R. (1965). The influence of constant and fluctuating environmental temperatures on the oviposition under continuous lighting. British Poultry Science 6: 93.CrossRefGoogle ScholarPubMed
Saunders, D. S. (1977). An Introduction to biological rhythms. Glasgow, Blackie.Google Scholar
Sauveur, B. and Mongin, P. (1983). Performance of layers reared and or kept under different 6-hour light-dark cycle. British Poultry Science 24: 405.CrossRefGoogle ScholarPubMed
Warren, D. C. and Scott, H. M. (1936). Influence of light on ovulation in the fowl. Journal of Experimental Zoology 74: 137.;CrossRefGoogle Scholar
Wilson, S. J. and Cogburn, L. A. (1983). Daily melatonin rhythm in young chickens and its abolition by pinealectomy. Abstract of the paper presented at the 72nd Annual Meeting of the Poultry Science Assocation, Inc. Poultry Science 62: 1524.Google Scholar
Wilson, S. C. and Cunningham, F. J. (1980). Modification by ‘Metyrapone’ of the ‘open period’ for preovulatory LH release in the hen. British Poultry Science 21: 351.CrossRefGoogle ScholarPubMed
Wilson, S. C. and Cunningham, F. J. (1981). Effect of photoperiod on the concentrations of corticosterone and luteinising hormone in the plasma of the domestic hen. Journal of endocrinology 91: 135.CrossRefGoogle ScholarPubMed
Wilson, S. C. and Cunningham, F. J. (1984). Endocrine control of the Ovulation cycle In: Reproductive Biology of Poultry Edit. Cunningham, F. J., Lake, P. E. and Hewitt, D.Edinburgh. British Poultry Science.Google Scholar
Wilson, W. O. (1964). Photocontrol of oviposition in gallinaceous birds. Annals of New York Academy of Sciences 117: 194.CrossRefGoogle ScholarPubMed
Wilson, S. C. and Sharp, P. J. (1973). Variations in plasma LH levels during the ovulatory cycle of the hen, gallus domesticus. Journal of Reproduction and Fertility 35: 561.CrossRefGoogle ScholarPubMed
Wilson, W. O. and Woodard, A. E. (1958). Egg production of chickens kept in darkness. Poultry Science 37: 1054.CrossRefGoogle Scholar
Wilson, W. O., Woodard, A. E. and Abplanalp, H. (1964). Exogenous regulation of oviposition in chicken. Poultry Science 43: 1187.CrossRefGoogle Scholar
Woodard, A. E., Wilson, W. O. and Abplanalp, H. (1962). Rhythm of lay in chickens as influenced by a 16 hour ‘Day’. Poultry Science 41: 1758.CrossRefGoogle Scholar
Yoo, B. H., Sheldon, B. L. and Podger, R. N. (1986). Analyses of Oviposition times and intervals in a wide range of layer flocks under normal and continuous lighting regimes. British Poultry Science 27: 267.CrossRefGoogle Scholar