Influence of sex and slaughter age on body composition of Muscovy ducks reared in South Benin

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Research Paper 01/06/2019
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Influence of sex and slaughter age on body composition of Muscovy ducks reared in South Benin

Finagnon Josée Bernice Houessionon, Gabriel Assouan Bonou, Chakirath Folakè Arikè Salifou, Mahamadou Dahouda, Tossou Jacques Dougnon, Guy Apollinaire Mensah, Issaka Youssao Abdou Karim
Int. J. Biosci.14( 6), 98-109, June 2019.
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Abstract

Muscovy ducks reared in Benin have a good growth performance and are very rustic animals. However, these birds’ carcass traits are little-known. This study aimed to evaluate the body composition of Muscovy ducks reared in South Benin. Thus, data on carcass traits and fifth quarter components were collected from February 07 to April 04, 2018 on 40 Muscovy ducks, including 5 males and 5 females by age class with a total of four age classes. The age 1 was for ducks of 4 to 6 months old, the age 2 for ducks of 6 to 8 months old, the age 3 for birds of 8 to 10 months old and the age 4 for animals older than 10 months. The collected data was analyzed with SAS (Statistical Analysis System, 2013). Means, standard deviations and coefficients of variation were calculated by the procedure Proc meansand the frequenciesby the procedure Procfreq.The live weight at slaughter, the hot carcass weight, the cold carcass weight, the body components weight of males were higher (p<0.001) than those of females. The hot carcass yield, the cold carcass yield and the percentages of carcass components and of the fifth quarter had this same trend. On the contrary, the abdominal fat weight of males was lower than that of females (p<0.01). This study also revealed that the live weight at the slaughter, the hot carcass weight, the cold carcass weight and the carcass components weight increased gradually with age (p<0.001). However, age has no effect on the thighs, liver and head percentages (p>0.05). The principal components analysis revealed three groups of traits: the group 1 concerns quantitative traits, the group 2, organ percentages considering carcass weights, and the group 3, carcass yields at slaughter. The animal age at slaughter, the animal live weight at slaughter, the hot carcass weight, the cold carcass weight, the carcass cuts weight and the fifth quarter components weight were positively correlated with each other and negatively correlated with the percentages of the carcass cuts and of viscera. In sum, the body composition of Muscovy ducks varies according to the sex and animal age at slaughter.

VIEWS 32

Adamski MP, Kowalczyk AM, Lukaszewicz ET, Korzeniowska AM. 2011. Effects of sex and inclusion of dried distillers grains with solublesonslaughter yield and meat characteristics of Pekin ducks. British Poultry Science 52, 742-749.

Baeza E, Chartrin P, Bordeau T, Lessire M, Thoby JM, Gigaud V, Blanchet M, Alinier A, Leterrier C. 2013. Omega-3 polyunsaturated fatty acids provided during embryonic development improve the growth performance and welfare of Muscovy ducks (Cairinamoschata). Poultry Science 96, 3176-3187.

Bonou AG, Ahounou GS, Salifou CFA, Fanou AY, Toleba SS, Konsaka MB, Dahouda M, Dougnon TJ, Farougou S, Youssao AKI. 2017b. Influence of pre-slaughter transportation and capture chase stress on carcass and meat quality of indigenous chicken reared under traditional system in Benin. International Journal of Agronomy and Agricultural Research 10, 27-40.

CountryStat/Benin. 2015. Base de données statistiques. http://countrystat.org/home.aspx?c=BENetta=053CPD050ettr=7.

CICAR. (Comité Interprofessionnel du Canard A Rôtir). 2014. Quand le canard à rôtir se raconte au quotidien. 7ème édition. www.canards.fr

DE (Direction de l’Élevage). 2016. Rapport annuel 2015. République du Bénin. 106 p.

Djitie KF, Nana NFC, Ngoula F, Kana JR, Teguia A. 2014. Effet du type de matière grasse alimentaire sur quelques paramètres biochimiques, de croissance et de la semence chez le Canard de Barbarie. International Journal of Innovation and AppliedStudies 8, 1462-1469.

Erisir Z, Poyraz O, Onbsilar EE, Erdem E, Oksurtepe GA. 2009. Effects of housing system, swimming pool and slaughter age on duck performance, carcass and meat characteristics. Journal of Animal and Veterinary Adavances 8, 1864-1869.

FAO. 2015. Secteur Avicole Bénin. Revues nationales de l’élevage de la division de la production et de la santé animales de la FAO 10. Rome.

FAOSTAT. 2011. Secteur Avicole Bénin. Revues nationales de l’élevage de la division de la production et de la santé animales de la FAO.

Institut National de la Statistique et de l’Analyse Economique (INSAE). 2016.Effectif de la population des villages et quartiers de villes du Bénin, Cotonou,République du Bénin, 85 p.

Houessionon FJB, Youssao IAK. 2018. Caractéristique des élevages des canards de barbarie (cairinamoschata) au Sud-Bénin. Journée Scientifique de la célébration du quarantenaire de l’Ecole Polytechnique d’Abomey-Calavi du 05 au 09 Février 2018, Université d’Abomey-calavi, Bénin.

Houessionon FJB, Youssao IAK. 2018. Evaluation des performances zootechniques des canards de barbarie (cairina moschata) au Sud-Bénin. Journée Scientifique du Centre Béninois de la Recherche Scientifique et de l’innovation du 26 au 28 Juin 2018 au Champ de Foire, Cotonou, Bénin.

Larzul C, Imbert B, Bernadet MD, Guy G, Rémignon H. 2006.Meat quality in an intergeneric factorial cross breeding between muscovy (Cairina moschata) and Pekin (Anas platyrhynchos) ducks. Journal of Animal Research55, 219–229. http://dx.doi.org/10.1051/animres:2006010

Makram A, Galal A, El-Attar AH. 2017. Carcass parameters of sudani, muscovy duck strains and their cross. Egyptian Journal Animal Production 54, 47-53.

Omojola AB. 2007. Carcass and Organoleptic. Characteristics of Duck Meat as Influenced by Breed and Sex. International Journal of Poultry Science 6, 329-334.

Teulier L. 2010.Adaptations métaboliques du caneton de Barbarie (Cairina moschata) et du Manchot Royal (Aptenodytespatagonicus) en réponse à un stress chronique froid. Biologie animale. Université Claude Bernard – Lyon I. Français. <NNT : 2010LYO10295>. <Tel-00799347>

Teulier L, Rouanet JL, Letexier D, Romestaing C, Belouze M, Rey B, Duchamp C, Roussel D. 2010.Cold acclimation induced non-shivering thermogenesis in birds isassociated with upregulation of avian UCP but not with innate uncoupling or altered ATP efficiency. Journal Experimental Biology 213, 2476-82.

Tomasz K, Juliusz MK. 2004. Comparison of physical and qualitative traits of meat of two Polish conservative flocks of ducks. Arch. Tierz., Dummerstorf 47, 367-375.

Tougan PU, Youssao AKI, Dahouda M, Salifou CFA, Ahounou GS, Kpodekon M, Mensah GA, Kossou DN, Amenou C, Kogbeto C, Thewis A. 2013a. Variability of carcass traits of local poultry populations of Gallus gallus specie of Benin by genetic type, breeding mode and slaughter age. International Journal of Poultry Science 12, 473-483.

Tougan PU, Dahouda M, Ahounou GS, Salifou CFA, Kpodekon MT, Mensah GA, Kossou DNF, Amenou C, Kogbeto CE, Thewis A, Youssao IAK. 2013b. Effect of breeding mode, type of muscle and slaughter age on technological meat quality of local poultry population ofGallus-gallus species of Benin. International Journal of Biosciences 3, 1-17.

Uhlířová L, Tůmová E, Chodová D, Vlčková J, Ketta M, Volek Z, Skřivanová V. 2018. The effect of age, genotype and sex on carcass traits, meat quality and sensory attributes of geese. Asian-Australas Journal of Animal Sciences 31, 421-428.

Youssao AK, Alkoiret IT, Dahouda M, Assogba MN, Idrissou ND, Kayang BB, Yapi-Gnaoré V, Assogba HM, Houinsou AS, Ahounou SG, Tougan UP, Rognon X, Tixier-Boichard M. 2012. Comparison of growth performance, carcass characteristics and meat quality of Benin indigenous chickens and Label Rouge (T55×SA51).African Journal of Biotechnology 11, 145-155.

Zhang LYR, Zhang S, Wang Z, Yang L, Huang L, F, Yuan JM, Xia Z. 2018.Effects of stocking density on growth performance, meat quality and tibia development of Pekin ducks. Animal Science Journal 10, 1111.