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Egg and meat production performances of two varieties of the local Ardennaise poultry breed: silver black and golden black

Published online by Cambridge University Press:  20 November 2013

N. Moula*
Affiliation:
Department of Animal production, Division of Genetics, Biostatistics and Rural Economics, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium
C. Michaux
Affiliation:
Department of Animal production, Division of Genetics, Biostatistics and Rural Economics, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium
F.X. Philippe
Affiliation:
Department of Animal production, Division of Genetics, Biostatistics and Rural Economics, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium
N. Antoine-Moussiaux
Affiliation:
Department of Animal production, Division of Genetics, Biostatistics and Rural Economics, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium
P. Leroy*
Affiliation:
Department of Animal production, Division of Genetics, Biostatistics and Rural Economics, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium
*
Correspondence to: Dr N. Moula and Professor P. Leroy. Moula, Department of Animal production, Division of Genetics, Biostatistics and Rural Economics, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium. emails: [email protected]; [email protected]
Correspondence to: Dr N. Moula and Professor P. Leroy. Moula, Department of Animal production, Division of Genetics, Biostatistics and Rural Economics, Faculty of Veterinary Medicine, University of Liege, Liege, Belgium. emails: [email protected]; [email protected]
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Summary

The Ardennaise breed is emblematic of the Belgian poultry diversity. We compared two varieties of the breed, the golden black and the silver black. The comparison encompassed: (i) the morphology of adult birds, (ii) the growth, carcass characteristics and meat quality of broilers 22 weeks old, (iii) the laying rate during 52 weeks and the egg quality. Significant differences were observed in the size of mature males and females: body weight, diameter and length of the tarsus, size of the comb and wattles. The two varieties did not differ concerning the carcass and meat quality traits. The golden black has a higher laying rate and a higher yolk / albumen ratio, but lays lighter eggs. It could be interesting to complete this study by molecular markers analysis to evaluate the degree of genetic diversity between the two varieties.

Résumé

La poule Ardennaise est une race emblématique de la biodiversité avicole belge. Cette étude est consacrée à la comparaison de deux variétés de la race Ardennaise (Noire dorée et Noire Argentée). La comparaison est réalisée par le biais de trois études: (1) caractérisation morpho-biométrique des deux variétés; (2) caractérisation de la croissance et de la qualité de la carcasse et de la viande; (3) suivi du taux de ponte pendant 52 semaines et étude de la qualité des œufs à 30, 45, 60 et 75 semaines d'âge. Des différences significatives ont été enregistrées entre les deux variétés au niveau des poids corporels, du grand diamètre du tarse, de la longueur du tarse et de la taille de la crête. La variété de la poule Ardennaise n'influence significativement aucun des caractères quantitatif et qualitatif de production de viande (rendement, poids après abattage, pH, couleur de la viande). Cependant, elle influence significativement le poids de l'œuf entier, le poids du blanc, le pourcentage du blanc, le pourcentage du jaune, le rapport jaune/blanc et le pH du blanc (p < 0.05). Il serait intéressant de compléter cette étude par une analyse moléculaire permettant de préciser le degré de similitude génétique entre les deux variétés et éventuellement avec les autres variétés de la race.

Resumen

La raza Ardenesa es una raza emblemática dentro de la diversidad avícola belga. Se han comparado dos variedades de la raza, la negra dorada y la negra plateada. La comparación comprendió (i) la morfología de aves adultas, (ii) el crecimiento, características de la canal y calidad de la carne de pollos broiler de 22 semanas de edad, (iii) la tasa de puesta durante 52 semanas y la calidad del huevo. Se observaron diferencias significativas en el tamaño de machos y hembras maduros: peso corporal, diámetro y longitud de los tarsos, tamaño de la cresta y de las barbillas. Las dos variedades no difirieron en lo que respecta a parámetros de la canal o de calidad de carne. La variedad negra dorada presenta una mayor tasa de puesta y un mayor ratio yema/albumen, pero pone huevos de menor peso. Podría resultar interesante completar este estudio con un análisis de marcadores moleculares para evaluar el grado de diversidad genética entre las dos variedades.

Type
Research Article
Copyright
Copyright © Food and Agriculture Organization of the United Nations 2013 

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References

Akbar, M.K., Gavora, J.S., Friars, G.W. & Gower, R.S. 1983. Composition of eggs by commercial size categories effects of genetic group, age and diet. Poultry Scince, 62: 925933.CrossRefGoogle Scholar
Benabdeljelil, K., Lahbabi, S. & Bordas, A. 2003. Comparison of crosses including a local breed or an experimental line to a commercial control for egg production in Morocco. Revue d'élevage et de médecine vétérinaire des pays tropicaux, 56: 193198.Google Scholar
Carpiaux, E. 1921. Traité complet Aviculture. Edited by Duculot, Imprimerie-Librairie J.: Gembloux, 344 p.Google Scholar
Debut, M., Berri, C., Baeza, E., Arnould, C., Guemene, D., Sante-Lhoutellier, V., Boutten, B., Jego, Y., Chapuis, H., Beaumont, C. & Lebihan-Duval, E. 2005. Variabilité génétique de la qualité de la viande en relation avec les caractéristiques du muscle et la réponse au stress dans une lignée lourde de poulet. In Sixièmes Journées de la Recherche Avicole, Tours. St Malo.Google Scholar
Delgado, C., Rosegrant, M., Steinfeld, H., Ehui, S. & Courbois, C. 1999. Livestock to 2020 the next food revolution. Discussion paper. A 2020 Vision for Food, Agriculture, and the Environment 28, International Food Policy Research Institute.Google Scholar
Dolgokorova, A.M. 2006. Morphology and biochemical composition of eggs in meat hens of different age. Russian Agricultural Sciences, 10: 2124.Google Scholar
FAO. 1981. Descripteurs des espèces avicoles. In: banque de données des ressources génétiques animales, Organisation des Nations Unies pour l'Alimentation et l'Agriculture: Rome, pp. 1315.Google Scholar
Fletcher, D.L., Britton, W.M., Pesti, G.M. & Rahn, A.P. 1983. The relationship of layer flock age and egg weight on egg component yields and solids content. Poultry Science, 62: 18001805.CrossRefGoogle Scholar
Flock, D.K., Preisinger, R. & Schmutz, M. 2001. Egg quality-a challenge for breeders of laying hens. In Proceedings of IX European Symposium on the Quality of Egg Products, Kusadasi, Turkey, pp. 5561.Google Scholar
Harms, R.H. & Hussein, S.M. 1993. The nutritional value of yolk: albumen ratio in hen eggs from commercial flocks. Journal of Applied Poultry Research, 2: 166170.CrossRefGoogle Scholar
Hartmann, C., Johansson, K., Strandberg, E. & Wilhemson, M. 2000. One-generation divergent selection on large and small yolk proportions in a White Leghorn Line. British Poultry Science, 41: 280286.CrossRefGoogle Scholar
Hartmann, C., Johansson, K., Strandberg, E. & Ryhmer, L. 2003. Genetic correlations between the maternal genetic effect on chick weight and the direct genetic effects on egg composition traits in a white leghorn line. Poultry Science, 82: 18.CrossRefGoogle Scholar
Hocking, P.M., Bain, M., Channing, C.E., Fleming, R. & Wilson, S. 2003. Genetic variation for egg production, egg quality and bone strength in selected and traditional breeds of laying fowl. British Poultry Science, 44: 365373.Google ScholarPubMed
Lariviere, J.M. & Leroy, P. 2005. Poultry Biodiversiy in Belgium. In 4th European Poultry Genetics Symposium, Dubrovnik, Croatia.Google Scholar
Lariviere, J.M. & Leroy, P. 2008. Conservation et valorisation de la diversité des ressources génétiques du poulet en Europe : initiatives et perspectives. Annales de Médecine Vétérinaire, 152(4): 203220.Google Scholar
Marion, A., Nordskog, A.W., Tolman, H.S. & Forsythe, R.H. 1964. Egg composition as influenced by breeding, egg size, age and season. Poultry Science, 43: 255264.CrossRefGoogle Scholar
Molette, C., Serieye, V., Remignon, H. & Babile, R. 2005. Comparaison des qualités sensorielles et technologiques de la viande de deux types génétiques de dindes. In : Sixièmes Journées de la Recherche Avicole, Tours. St Malo, 30 et 31 mars 2005.Google Scholar
Monira, K.N., Salahuddin, M. & Miah, G. 2003. Effect of breed and holding period on egg quality characteristics of chicken. International Journal of Poultry Science, 2: 261263.Google Scholar
Moula, N., Antoine-Moussiaux, N., Farnir, F. & Leroy, P. 2009a. Evaluation of the production performances of an endangered local poultry breed, the Famennoise. International Journal of Poultry Science, 4: 389396.CrossRefGoogle Scholar
Moula, N., Antoine-Moussiaux, N., Farnir, F., Philippart, De Foy, M. & Leroy, P. 2009b. Performances zootechniques de la poule Ardennaise, une race ancienne pour le futur ? Annales de Médecine Vétérinaire, 153: 6675.Google Scholar
Moula, N., Antoine-Moussiaux, N., Farnir, F. & Leroy, P. 2009c. L'Ardennaise: statut de la race et de ses variétés. Annales de Médecine Vétérinaire, 153: 231240.Google Scholar
Moula, N., Jacquet, M., Verelst, A., Antoine-Moussiaux, N., Farnir, F. & Leroy, P. 2012. Les races de poules belges de grande taille. Annales de Médecine Vétérinaire, 156: 3765.Google Scholar
N'Dri, A.L. 2006. Etude des interactions entre génotype et environnement chez le poulet de chair et la poule pondeus. (Thèse pour obtenir le grade de Docteur). Institut national agronomique : Paris-Grignon, 208 p. Google Scholar
Nys, Y. 1986. Relationship between age, shell quality and individual rate and duration of shell formation in domestic hens. British Poultry Science, 27: 253259.CrossRefGoogle Scholar
Parmar, S.N.S., Thakur, M.S., Tomar, S.S. & Pilla, P.V.A. 2006. Evaluation of egg quality traits in indigenous Kadaknath breed of poultry. Livestock Research for Rural Development, 18, article 32.Google Scholar
Porter, T., Kebreab, E., Kuhi, H.D., Lopez, S., Strathe, A.B. & France, J. 2010. Flexible alternatives to the Gompertz equation for describing growth with age in turkey hens. Poultry Science, 89: 371378.CrossRefGoogle Scholar
Quentin, M., Bouvarel, I., Berri, C., Le Bihan-Duval, E., Baeza, E., Jego, Y. & Picard, M. 2003. Growth, carcass composition and meat quality reponse to dietary concentrations in fast-, medium- and slow-growing commercial broilers. Animal Research, 52: 6577.CrossRefGoogle Scholar
Rossi, M. & Pompei, C. 1995. Changes in some egg components and analytical values due to hen age. Poultry Science, 74: 152160.CrossRefGoogle ScholarPubMed
Sante, V., Fernandez, X. & Monin, G.I.P. 2001. Méthode de mesure de la qualité des viandes de volaille. INRA Production Animales, 14: 247254.CrossRefGoogle Scholar
SAS. 2001. SAS/STAT User's Guide. Version 9. SAS Inst. Inc., Cary, NC.Google Scholar
Sauveur, B. 1997. Les critères et facteurs de la qualité des poulets Label Rouge. INRA Production Animales, 10: 219226.CrossRefGoogle Scholar
Touraille, C., Ricard, F.H., Kopp, J., Valin, C. & Leclerq, B. 1981. Qualité du poulet. 2- évolution en fonction de l'âge des caractéristiques physico-chimiques et organoleptiques de la viande. Arch Geflugelk, 45: 97104.Google Scholar
Tyler, C. & Geake, F.H. 1964. Eggshell strength and its relationship to thickness, with particular reference to individuality in the domestic hen. British Poultry Science, 5: 318.CrossRefGoogle Scholar
Vij, P.K., Tantia, M.S., Mishra, B., Bharani Kumar, S.T. & Vijh, R.K. 2006. Characterization of Aseel, Danki, Kalasthi and Ghagus breeds of chicken. Indian Journal of Animal Science, 76: 944949.Google Scholar
Voitellier, C. 1925. Aviculture, Les races de volailles, poules, Pintades, Dindons, Canards, Oies, Pigeons. Paris, Librairie J.-B Bailliére et Fils, Rue Hautefeuille, 19, Prés du Boulevard Saint Germain.Google Scholar
Washburn, K.W. 1982. Incidence, cause and prevention of egg shell breakage in commercial production. Poultry Science, 61: 20052012.CrossRefGoogle Scholar
Wells, R.G. 1968. The measurement of certain egg quality charachteristics. In CARTER, T.C., ed. Egg Quality, A Study of the Hen's Egg. Edinburgh, OLIVIER & BOYD, 331 pp.Google Scholar
Youssao, A.K., Toleba, S.S., Dahouda, M., Adehan, R., Ahounou, G.S., Mama Ali, A.A., Gbangboche, A.B., Lariviere, J.M. & Leroy, P. 2009. Growth performances and suitability for processing of Ardenne chicken in the sub-humid region of Benin. Livestock Research for Rural Development, 21: article 55.Google Scholar
Zaman, M.A., Sorensen, P. & Howlider, M.A. 2004. Egg production performances of a breed and three crossbreeds under semi-scavenging system of management. Livestock Research for Rural Development, 16: article 8.Google Scholar