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Factors affecting fertility and hatchability of guinea fowl eggs in Nigeria

Published online by Cambridge University Press:  18 September 2007

B.I. Nwagu
Affiliation:
National Animal Production Research Institute, Ahmadu Bello University, P.M.B. 1096, Shika-Zaria, Nigeria
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Abstract

This paper considers some of the factors affecting the fertility and hatchability of guinea fowl eggs. In addition to genetic components there is a wide range of environmental influences that affect these two measures of performance. These include severe nutritional deficiencies, certain drugs and feed contamination with pesticides and mycotoxins. After eggs are laid, faulty handling and storage conditions and incorrect fumigation procedures have harmful effects on hatchability, while correct incubation temperature, humidity and ventilation rates during the setting and hatching stages are essential for optimum results. The causes of low levels of hatchability can be identified by the careful examination of eggs which fail to hatch. However, accurate and complete records relating to the breeder flock and the history of the eggs from the nest through to the completion of incubation are essential for problem solving and in helping to obtain optimum results.

Type
Regional Reports
Copyright
Copyright © Cambridge University Press 1997

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References

Aire, T.A., Ayeni, J.S.O. and Olowo-Okorun, M.O. (1979) The structure of excurrent ducts of the testis of guinea fowl (N. meleagris). Journal of Anatomy 129: 643Google Scholar
Ancel, A. (1989) L'oeuf de pintade (Numida meleagris) et son incubation. PhD thesis, University of StrasbourgGoogle Scholar
Ancel, A. and Girard, H. (1992) Eggshell of the domestic guinea fowl. British Poultry Science 33: 9931001CrossRefGoogle Scholar
Ancel, A. and Visschedijk, A.J.H. (1993) Respiratory exchanges in the incubated egg of the domestic guinea fowl. Respiration Physiology 91: 3142CrossRefGoogle ScholarPubMed
Ancel, A., Armand, J. and Girard, H. (1994) Optimum incubation condition of the domestic guinea fowl egg. British Poultry Science 35: 227240CrossRefGoogle ScholarPubMed
ANONYMOUS (1980) Guide to the manageinent of guinea fozul (broiler parent stock), Institute de Selection Animale, France pp 139148Google Scholar
Ayeni, J.S.O. (1978) A guinea fowl research in Nigeria. Malinrbiis 1: 3235Google Scholar
Ayeni, J.S.O. (1980) The biology and utilization of helmet guinea fowl (Numida meleagris galeata pallas) in Nigeria. PhD thesis, IbadanGoogle Scholar
Ayeni, J.S.O. and Oyedipe, F.P.A. (1978) Sociology of guinea fowl domestication. KLRI Annual Report, 65Google Scholar
Ayeni, J.S.O. and Ayanda, J.O. (1982) Studies of the husbandry practices and social acceptance of guinea fowl in Nigeria. Bulletin of Animal Health and Production in Africa 30: 139148Google Scholar
Ayorinde, K.L. (1987) Combating some problems of intensive guinea fowl production in Nigeria. In: Animal Production in Nigeria. Proceedings of 11th Arintial Confeverice of the Nigerian Society for Animal Production, pp. 7983Google Scholar
Ayorinde, K.L. and Ayeni, J.S.O. (1983) Comparison of the performance of indigenous guinea fowl (N. meleagris galeata) and imported stock (Numida meleagris meleagris) in Nigeria. In: KLRI Annual Report, 170–182Google Scholar
Ayorinde, K.L. and Okaeme, A.N. (1984) All the year round guinea fowl. How feasible? Farming and Food Processing, March/April: 2122Google Scholar
Babier, Y. and Leroy, P. (1970) Annual testicular cycle in guinea fowl. Bulletin Biologique de la France et Belgique 4: 119147Google Scholar
Bolton, W. and Blair, R. (1974) Poultry Nutrition. Bulletin 174, Ministry of Agriculture, Fisheries and Food, London, p. 43Google Scholar
Borland, H.A. (1973) Commercial guinea fowl rearing. The State Veterinary Journal 28: 223227Google Scholar
Crowe, T.M. (1978) The evolution and ecology of guinea fowl (Galliformes phasianidae numidae). PhD thesis, University of Cape TownGoogle Scholar
Davyan, A. and Roiter, Y.A. (1975) Iskusstrennoe osemanenietsesarok. Plitsevodstvo 2: 2126Google Scholar
Gonzalez, D.A. (1981) Effect of artificial lighting on egg production in guinea fowl. Poultry Breeding Abstracts 12: 431435Google Scholar
Gonzalez, D.A. and Klein, L. (1974) Effects of ratio of male to female on infertility of guinea fowl eggs. Proceedings of XVth World's Poultry Congress,New Orleans pp. 1116Google Scholar
Gordon, R.F. and Jordan, F. (1982) Poultry Diseases, Macmillan, LondonGoogle Scholar
Macarthy, D.D. (1974) Commercial breeding management and marketing of guinea fowl. In: Proceedings of the Australian Poultry Science Convention,Hobart,TasmaniaGoogle Scholar
Marais, C.I. (1969) Broiler potential of fowl, duck, turkey and guinea fowl. South African Agricultural Science 10: 307309Google Scholar
Mast, M.G. (1987) Poultry, June/July Misset International, pp. 1113Google Scholar
Mentis, M.J., Poggernpool, B. and Maguire, R.R. (1975) Food of the helmeted guinea fowl in the highland. Natal Journal of the South African Wildlife Management Association 5: 2326Google Scholar
Mitskevich, N.P. and Veistman, L.M. (1975) Light regime of adult guinea fowl. Doklady Vsesoyuznoi Akademii Sel'sko-khozyaistvennykh Nauk V.I. Lenina 8: 2931Google Scholar
North, M.O. (1972) Maintaining hatching egg quality. Commercial Chicken Production Manual pp. 6878Google Scholar
Nwagu, B.I. and Alawa, C.B.I. (1995) Guinea fowl production in Nigeria. World's Poultry Science Journal 51: 261270CrossRefGoogle Scholar
Offiong, S.A. (1976) Establishing the guinea fowl project in Vom. Samaru Agricultural Newsletter 18: 6465Google Scholar
Offiong, S.A. (1983) Management problems of guinea fowl production in Nigeria. In: The Helmet Guinea Fowl (Numida melengris meleagris galeatapallas) in Nigeria (Ayeni, J.S.O. et al. , Eds), pp. 5054Google Scholar
Offiong, S.A. and Abed, S.M. (1980) Fertility, hatchability and malformation in guinea fowl embryos as affected by dietary manganese. British Poultry Science 21: 371375CrossRefGoogle ScholarPubMed
Ogundipe, S.O. (1976) The Raising of Guinea Fowl. AERLS Extension Guide 83, Poultry Series 10, AERLS, ABU, ZariaGoogle Scholar
Oguntona, T.A. (1982) Commecialization of guinea fowl. West African Farming and Food Processing, March/April, pp. 5254Google Scholar
Oguntona, T.A. (1983) Two-year performance of guinea fowl fed proprietary layers rations. In: The Helmet Guinea Fowl (Numida meleagris ineleagris galeatapallas) in Nigeria (Ayeni, J.S.O. et al. , Eds), pp. 5558Google Scholar
Okaeme, A.N. (1983) Disease conditions in guinea fowl production in Nigeria. World's Poultry Science Journal 39: 179186CrossRefGoogle Scholar
Okorie, J.U. (1977) A Guide to Livestock Production in Nigeria, Macmillan Press, London, pp. 109130Google Scholar
Oluyemi, J.A. (1982) Management of turkeys, ducks, geese guinea fowl and game birds. Monograph, Department of Animal Science, University of IbadanGoogle Scholar
Oluyemi, J.A. and Roberts, F.A. (1979) Poultry Production in Warm Climates, Macmillan Press, London, p. 76Google Scholar
Onuora, G.I. (1983) Studies on the reproductive physiology of grey breasted helmet guinea fowl. In: The Helmet Guinea Fowl (Numida meleagris ineleagris galeatapallas) in Nigeria (Ayeni, J.S.O. et al. , Eds), pp. 171175Google Scholar
Orji, B.I. and Isu, P.O. (1983) Onset and duration of fertility in guinea fowl following the introduction of males. In: The Helmet Guinea Fowl (Numida meleagris meleagris galeatapallas) in Nigeria (Ayeni, J.S.O. et al. , Eds), pp. 171175Google Scholar
Roiter, Y.A. (1976) By-passing seasonality of reproduction of guinea fowl. Ptitsevodstvo 9: 1415Google Scholar
Seneviratna, P. (1969) Poultry Diseases, Macmillan Press, London, pp. 2055Google Scholar
Skead, C.J. (1962) A study of the crowned guinea fowl (Numida meleagris cornata. Gurney). Ostrich 33: 177187Google Scholar
Smetana, P. (1974) Some aspects of guinea fowl production. In: Proceedings of the Australian Poultry Science Convention,Hobart,TasmaniaGoogle Scholar
Tew, O.O. (1983) Nutritional requirements of guinea fowl. In: The Helmet Guinea Fowl (Numida meleagris meleagris galeatapallas) in Nigeria (Ayeni, J.S.O. et al. , Eds), pp. 97107Google Scholar
Viecman, L.N. (1968) Comparative productivity of colour variants (breeds) of the Siberian population of guinea fowl. Doklady Vsesoyuznoi Akademii Sel'sko-Khozyaistvennykh Nauk V.1. Lenina 5: 3031Google Scholar
Viecman, L.N., Kaljuznov, V.T. and Telmajmanova, G.N. (1969) Comparative productivity of colour variants (breeds) of the Siberian population of guinea fowl. Doklady Vsesoyuznoi Akademii Sel'sko-Khozyaistvennykh Nauk V.I. Lenina 1: 2628Google Scholar
Voroshilova, S. (1971) Investigation of the possibility of using different colour variants and their crossbreeds for broiler production. Animal Breeding Abstracts 41: 2360Google Scholar
Wilson, H.R. (1993) Hatchability Problem Analysis, University of Florida Circular 1112, 112Google Scholar
Weld, H. (1977) Guinea fowl production. Agricultural Development and Advisory Service. Poultry Section Quarterly Bulletin 124: 6063Google Scholar