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Breeding and genetics of waterfowl

Published online by Cambridge University Press:  18 September 2007

Y.S. Cheng
Affiliation:
Taiwan Livestock Research InstituteCouncil of Agriculture, Hsin-Hua, Tainan, 71210 Taiwan, Republic of China
R. Rouvier*
Affiliation:
Station d'amélioration génétique des animaux, Institut national de la recherche agronomique, Centre de recherches de Toulouse, BP 27, F 31326 Castanet-Tolosan Cedex, France
Y.H. Hu
Affiliation:
Taiwan Livestock Research InstituteCouncil of Agriculture, Hsin-Hua, Tainan, 71210 Taiwan, Republic of China
J.J.L. Tai
Affiliation:
Taiwan Livestock Research InstituteCouncil of Agriculture, Hsin-Hua, Tainan, 71210 Taiwan, Republic of China
C. Tai
Affiliation:
Institute of Biotechnology, National Cheng-Kung University, Tainan, 712 Taiwan, Republic of China
*
*Corresponding author: e-mail: rouvier@germinal.toulouse.inra.fr
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Abstract

Genetic parameters of traits of interest in ducks and geese are reported. Recent achievements of research, specially to improve the Brown Tsaiya laying duck; the intergeneric crossbreeding in duck; the meat ducks Pekin and Muscovy; the goose reproduction ability; the meat and fatty liver production in geese and ducks were analysed. A linear genetic selection index based on MT-BLUP animal model of breeding values with objectives to maintain body weight, egg weight at current levels, to increase egg shell strength and egg number, used for four generations in Brown Tsaiya laying ducks was evaluated. A seven generations selection experiment was successful in increasing the duration of fertility of Brown Tsaiya female ducks by artificial insemination with pooled Muscovy semen. The genetic parameters of growth and laying traits in a selected Muscovy line in Taiwan were estimated. Favourable genetic trends for body weight at given age, without decreasing egg production, were found in this selected Muscovy line. The selection of grandparent stocks (White Tsaiya and Pekin) for white plumage mule ducks in Taiwan was efficient. The genetic parameters of laying and gosling production traits of Landaise geese and of a White plumage goose strain, bred in two systems, respectively outdoors with natural photoperiodism and in indoors with short daylight conditions were reported. The more advantageous system in selecting for laying traits in geese is discussed. Fatty liver weight was found to be highly heritable in geese and male Muscovy ducks. The genetic parameters of overfed mule duck traits were estimated in the Pekin dam population. It is concluded that future research should focus on biotechnology, quantitative trait loci detection and genome analysis.

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Reviews
Copyright
Copyright © Cambridge University Press 2003

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Footnotes

This paper was first presented at the 7th World Congress on Genetics Applied to Livestock Production, Montpellier, August 19-23,2002, France.

References

Chang, T., Hung, T.S., Chang, L. Y., Hsieh, M.H., Cheng, Y.S. and Tai, C. (2000) The duration of fertility in ducks: Studies on the polymorphism of the oestrogen receptor gene. Proceedings of the 9th Congress of the Asian-Australasian Association of Animal Production Societies and 23rd Biennial Conference of the Australian Society of Animal Production, page 125, July 3–7, 2000 University of New South Wales, Sydney, Australia.Google Scholar
Chen, D.T., Lee, S.R., Hu, Y.H., Huang, C.C., Cheng, Y.S., Tai, C., Poivey, J.P. and Rouvier, R. (2003) Genetic trends for laying traits in the Brown Tsaiya (Anas platyrhynchos) selected with restricted genetic selection index. Asian-Australasian Journal of Animal Science 16 (12): 17051710.CrossRefGoogle Scholar
Cheng, Y.S. (1995) Selection de la cane Tsaiya Brune sur la ponte et la durée de la fertilité en croisement avec le canard de Barbarie. These de doctorat en sciences. Institut National Polytechnique de Toulouse, France. 526 p.Google Scholar
Cheng, Y.S., Rouvier, R., Poivey, J.P. and Tai, C. (1995) Genetic parameters of body weight, egg production and shell quality traits in they Brown Tsaiya laying ducks. Genetics Selection Evolution 27: 459472.Google Scholar
Cheng, Y.S., Poivey, J.P., Rouvier, R. and Tai, C. (1996) Prediction of genetic gains in body weight, egg production and shell quality traits in the Brown Tsaiya laying duck (Anas platyrhynchos). Genetics Selection Evolution 28: 443455.Google Scholar
Cheng, Y.S., Rouvier, R., Poivey, J.P., Tai, L.J.J., Tai, C. and Huang, S.C. (2002) Selection responses for number of fertile eggs of Brown Tsaiya duck (Anas platyrhynchos) after a single artificial insemination with pooled Muscovy (Cairina moschata) semen. Genetics Selection Evolution 34: 597611.Google ScholarPubMed
Chou, K.Y. and Huang, H.H. (1970) The duck industry of Taiwan. Animal Industry series no 8, Chinese-American Joint Commission on Rural Reconstruction, Taipei, Taiwan.Google Scholar
Crawford, R.D. (1990) Origin and history of poultry species. In: Poultry breeding and genetics, p. 141, Editors Crawford, R.D., Elsevier, Amsterdam, Netherlands.Google Scholar
Delaunay, I. (2000) Analyse de la ponte chez l'oie :Variabilité et Paramètres Génétiques. Mémoire Diplôme d'Etudes Approfondies Institut National Agronomique Paris-Grignon, Paris. 33 p.Google Scholar
Guemene, D., Guy, G., Noirault, J., Destombes, N., Samson, M., Gouraud, P., Garreaumills, M. and Faure, J.M. (1999) Physiological and behavioural responses to force-feeding procedure in male mule ducks and ganders. Proceedings 1st World Waterfowl Conference Dec. 1–4 Taichung, Taiwan R.O.C. pp. 413–424.Google Scholar
Guy, G., Hermier, D., Davail, S., Bely, M., Andre, J-M. and Hoo-Paris, R. (1999) Meat production and force-feeding ability of different types of ducks. Proceedings 1st World Waterfowl Conference Dec. 1–4 Taichung, Taiwan R.O.C. pp. 462–468.Google Scholar
Hu, Y.H., Rouvier, R., Poivey, J.P., Brun, J.M. and Sellier, N. (1997) Fertility and early embryonic viability in the intergeneric cross-breeding between Muscovy drake and common duck femalesProceedings 11th European Symposium on WaterfowlNantes September 8–10, pp. 382391, France.Google Scholar
Hu, Y.H., Poivey, J.P., Rouvier, R., Wang, C.T. and Tai, C. (1999) Heritabilities and genetic correlations of body weights and feather length in growing Muscovy selected in Taiwan. British Poultry Science 40: 605612.Google Scholar
Hu, Y.H., Poivey, J.P., Rouvier, R., Liu, S.C. and Tai, C. (2003) Heritabilities and genetic correlations of laying traits in Muscovy selected in Taiwan. British Poultry Science (submitted).Google Scholar
Huang, H.H. (1985) Selection of white mule ducks. Journal of the Chinese Society of Animal Science 14(34): 111122.Google Scholar
Huang, C.W., Rouvier, R., Cheng, Y.S. and Huang, M.C. (2001) Study on amplified fragment length polymorphisms of genomic DNA in Brown Tsaiya ducks. Journal of the Chinese Society of Animal Science 30(4): 139.Google Scholar
Larzul, C., Rouvier, R., Rousselot-Pailley, D. and Guy, G. (2000) Estimation of genetic parameters for growth, carcass and overfeeding traits in a white geese strain. Genetics Selection Evolution 32: 415427.Google Scholar
Lee, S.R., Huang, J.F., Sheu, N.S., Chen, S.Y., Chen, B.J., Jiang, Y.N., Tai, L.J.J. and Tai, C. (1992) Study on the performance of Brown Tsaiya duck (Anas platyrhynchos var Domestica). Journal of Taiwan Livestock Research 25: 3548.Google Scholar
Lee, S.R. and Kang, C.L. (1997) Improvement on percentage of white plumage in mule ducks. Journal of Taiwan Livestock Research 30(3): 293299.Google Scholar
Maak, S., Neumann, K., Von Lengerken, G. and Gattermann, R. (2000) First seven microsatellites developed for the Pekin duck (Anas platyrhynchos). Animal Genetics 31: 233.Google Scholar
Mignon-Grasteau, S., Beaumont, C., Poivey, J.P. and De Rochambeau, H. (1998) Estimation of the genetic parameters of sexual dimorphism of body weight in “label” chickens and Muscovy ducks. Genetics Selection Evolution 30: 481492.Google Scholar
Pingel, H. (1990a) Genetics of growth and meat production in waterfowl. In: Poultry breeding and genetics, p. 691704, Editors Crawford, R. D., Elsevier, Amsterdam, Netherlands.Google Scholar
Pingel, H. (1990b) Genetics of egg production and reproduction in waterfowl. In: Poultry breeding and genetics, p. 771780, Editors Crawford, R. D., Elsevier, Amsterdam, Netherlands.Google Scholar
Pingel, H. (1999) Influence of breeding and management on the efficiency of duck production. Lohman information 22: 713.Google Scholar
Poivey, J.P., Cheng, Y.S., Rouvier, R., Tai, C., Wang, C.T. and Liu, H.L. (2001) Genetic parameters of reproductive traits in Brown Tsaiya ducks artificially inseminated with semen from Muscovy drakes. Poultry Science 80: 703709.Google Scholar
Poujardieu, B., Guichard, F. and Laventure, P. (1994) Paramètre génétiques de croissance et de gavage de la cane commune. Genetics Selection Evolution 26: 463472.Google Scholar
Rosinski, A., Rouvier, R., Guy, G., Rousselot-Pailley, D. and Bielinska, H. (1996) Possibilities of increasing reproductive performance and meat production in geese. In : Proceedings of the XXth World's Poultry Congress, New Delhi, India, vol III: 724735.Google Scholar
Rouvier, R., Vrillon, A., Rousselot-Pailley, D. and Larrue, P. (1982a) Note sur l' efficacité théorique d'un indite de sélection sur collatéraux pour le foie gras de l'oie Landaise. Annales de Génétique et de Sélection Animale 14: 245252.Google Scholar
Rouvier, R., Vrillon, A., Rousselot-Pailley, D. and Larrue, P. (1982b) Etude de quelques facteurs de variation du poids à deux mois et des performances de prégavage et de gavage d'oies Landaises en station. Annales de Génétique et de Sélection Animale 14: 381398.Google Scholar
Rouvier, R., Babilé, R., Salzmann, F., Auvergne, A. and Poujardieu, B. (1987) Répétabilité de la fertilité des canes Rouen et Pékin (Anas platyrhynchos) en croisement interspécifique avec le Barbarie (Cairina moschata) par insémination artificielle. Genetics Selection Evolution 19(1): 103112.Google Scholar
Rouvier, R., Poujardieu, B., Rousselot-Pailley, D., Larrue, P. and Esteve, D. (1992) Paramètre génétiques de caractères de croissance, de gavage et de foie gras dans le croisement de deux souches d'oies (Anser anser) sélectionnées. Genetics Selection Evolution 24: 5369.Google Scholar
Rouvier, R., Brun, J.M, Delaunay, I., Sellier, N., Richard, M-M. and Tixier-boichard, M. (2002) Possibilités d'amélioration des productions d'œufs et d'oisons par oie. 5èmes Journées de la Recherche sur les Palmipèdes à Foie Gras, 9–10 10, Pau, France. pp. 14.Google Scholar
Sellier, N. and Rousselot-Pailley, D. (1997) Incidence of the day length, and comparison between full or semi-claustration on reproductive performances of Grey Landes geese. Proceedings 11th European Symposium on Waterfowl Nante September 8–10, pp 418–422, France.Google Scholar
Sellier, N. and Rousselot-Pailley, D. (1999) Effects of lighting programs, artificial insemination and improvement of gosling production – A synthesis of results in experimental station of waterfowl producing fatty liver. Proceedings Symposium Scientific Cooperation in Agriculture between Institut National de la Recherche Agronomique (France) and Council of Agriculture (Taiwan, R.O.C.), pp.123–135.Google Scholar
Tai, C. (1985) Duck breeding and artificial insemination in Taiwan. In: Duck Production Science and World Practice, p. 193203, Editors Farrell, D. J. and Stapleton, P., University of New England, Armidale, Australia.Google Scholar
Tai, C., Rouvier, R. and Poivey, J.P. (1989) genetic parameters of some growth and egg production traits in laying Brown Tsaiya (Anas platyrhynchos). Genetics Selection Evolution 21: 377384.Google Scholar
Tai, C. and Rouvier, R. (1998) Crossbreeding effect on sexual dimorphism of body weight in intergeneric hybrids obtained between Muscovy and Pekin duck. Genetics Selection Evolution 30: 163170.CrossRefGoogle Scholar
Tai, C., Wang, C.T. and Huang, C.C. (1999) Production systems and economic characters in waterfowl. Proceedings 1st World Waterfowl Conference, Dec. 1–4, Taichung, Taiwan R.O.C. pp.1931.Google Scholar
Vignal, A., Fillon, V., Vignoles, M., Morisson, M., Crooijmans, R.P.M.A. and Groenen, M.A.M. (1999) The development of comparative molecular genome analysis in duck. Proceedings 1st World Waterfowl Conference 12. 1–4, Taichung, Taiwan R.O.C. pp.603–606.Google Scholar
Wezyk, S. (1999) Current problems of waterfowl genetics and breeding. Proceedings 1st World Waterfowl Conference, 12. 1–4, Taichung, Taiwan R.O.C. pp. 5062.Google Scholar
Yeh, L.T, Chiou, T.S., Wang, S.D., Wu, K.C., Chang, H.L. and Cheng, Y.S. (1999) Goose breeding: progress and prospect for improvement of egg production in White Roman geese. Proceedings Symposium Scientific Cooperation in Agriculture between Institut National de la Recherche Agronomique (France) and Council of Agriculture (Taiwan, R.O.C.) Toulouse April 19–20, pp.117–122, France.Google Scholar