Document Type : Research Paper

Authors

1 Head of Animal Breeding and Genetics Dept. in Animal Science Research Institute if Iran

2 null

3 experter

Abstract

This research, aimed to estimate genetic parameters to evaluate breeding strategy for some important production and reproduction traits in Yazd native fowls.For this purpose, the data collected for12 generations (2006-2015) in Yazd native fowls was used. Genetic parameters were estimated by multi-trait animal model using WOMBAT software and breeding values were predicted for all birds.The highest and lowest heritability were estimated for weight at sexual maturity (0.58±0.02) and egg weight at 1st day of laying (0.19 ± 0.01), respectively. Genetic trends of BW1, BW8, BW12, ASM, WSM, EN, EW1 and MEW were estimated, 0.39, 15.79, 25.98, -1.78, 26.65, 1.87, 0.24 and 0.69 respectively, that all traits were significant. Results of this study showed that the breeding program applied in Yazd native fowls, genetic structure has improved. Also, a series of six different animal models were fitted for all traits, and the best model for each trait was chosen based on log-likelihood ratio tests (LRT).Our results showed that maternal effects are significant in economic traits in Yazd native fowls and so, the inclusion of these effects in models, increasing the accuracy of the estimates of direct heritability .Therefore, We must in future selections program, analysis of traits under selection, with the most appropriate model to be done.

Keywords

امامقلی بگلی، ح. زره داران، س.  حسنی، س. عباسی، م.ع. (1388) برآورد پارامترهای ژنتیکی صفات مهم اقتصادی در مرغهای بومی استان یزد. مجله علوم دامی ایران، دوره 40، شماره4، صفحات 63-70.
قره داغی، ع. ا.، قربانی، ش.، کمالی، م. و عباسی م. ع. (1393). برآورد پارامترها و روند ژنتیکی و فنوتیپی صفات اقتصادی در مرغان بومی استان آذربایجان غربی. مجله پژوهش سازندگی امور دام و آبزیان، شماره 104، 243-254.
Akbas, A., Y. Unver, I. Oguz, & O. Aitan. 2002. Estimation of genetic parameters for clutch traits in laying hens. 7th World Congress on Genetics Applied to Livestock Production, August 19–23,Montpellier, France.
Bourdon, R.M. 1997. Understanding animal breeding . 1 st ed. Prentice Hall, Inc.,New Jersey, U.S.A. PP:1-523.
Boroujeni, F. G., Torshizi, R. V. & Kashan, N. E. J. 2007. Estimation of direct genetic, maternal genetic and maternal environmental effects for body weight traits in a commercial broiler line. The 3rdinternational congress of quantitative genetic, 19-27 Aug., Hangzhou, China.
Crawford, R. D. 1993. Poultry Breeding and Genetics. Elsevier, Amsterdam. 990 pp.
Dana, N., vander Waaij, L.H., van Arendonk, J.A.M., 2010. Genetic and phenotypic parameter estimates for body weights and egg production in Horro chicken of Ethiopia. Trop. Anim. Health Prod. http://dx.  doi.org/10.1007/s11250-010-9649-4.
Dadpasand Taremsari, M. 1999. Study of genetic trends for production traits of Holstein cattle in Iran.M.Sc. dissertation, Tehran University, Iran.
 Emamgholi Begli, H., Zerehdaran, S., Hassani, S., Abbasi, M.A., Khan Ahmadi, A.R., 2010. Heritability, genetic and phenotypic correlations of egg quality traits in Iranian native fowl. Br. Poult. Sci. 5 (6):740–744.
  Gaya, L.G., Costa, A.M., Ferraz,J.B., Rezende,F.M., 2007. Genetic trends of absolute and relative heart weight in a male broiler line. Genetics and Molecular Research. 6: 1091–1096.
Ghorbani, Sh., Kamali, M.A., Abbasi, M.A., Ghafouri-Kesbi, F., 2012. Estimation of maternal effects on some economic traits of north Iranian native fowls using different models. J. Agr. Sci. Tech. 14, 95–103.
Ghorbani, Sh.,Tahmoorespur, M.,Maghsoudi, A. & Abdollahi-Arpanahi, R. 2013. Estimates of (co)variance components for production and reproduction traits with different models in Fars native fowls. Livestock Science.151:115-123.
Grosso, J.L., Balieiro, J.C., Eler, J.P., Ferraz, J.B., Mattos, E.C., Michelan Filho, T., 2010 Comparison of different models to estimate genetic parameters for carcass traits in a commercial broiler line. Genet. Mol. Res. 9, 908–918.
Hartmann, C., Johansson, K., Strandberg, E., and Rydhmer, L. 2003. Genetic correlation between the maternal genetic effect on chick weight and direct genetic effects on egg composition traits in a White Leghorn line. J. Poult. Sci. 82: 1–8.
Heydarpour, M., Schaeffer, L.R., Yazdi, M.H., 2008. Influence of population structure on estimates of direct and maternal parameters. J. Anim. Breed. Genet. 125, 89–99.
Kamali, M.A., Ghorbani, S.H., Moradi Sharbabak, M., Zamiri, M.J., 2007. Heritabilities and genetic correlations of economic traits in Iranian  native fowl and estimated genetic trend and inbreeding coefficients. Br. Poult. Sci. 48, 443–448.
Koerhuis, A. N. M. & J. C. McKay. 1996. Restricted maximum likelihood estimation of genetic parameters on egg production traits in relation to juvenile body weight in broiler chicken. Livestock Production Science, 46: 117–127.
Kranis, A., Hocking, P. M., Hill, W. G. andWoolliams, J. A. 2006. Genetic Parametersfor a Heavy Female Turkey Line: Impact ofSimultaneous Selection for Body Weightand Total Egg Number. Br. Poult. Sci., 47:685-693.
Le Bihan-Duval, E., Mignon-Grasteau, S., Millet, N. & Beau-Mont, C. 1998.  Genetic analysis of a selection experiment on increased body weight and breast muscle weight as well as on limited abdominal fat weight. British Poultry Science,  39: 346-353.                
Lwelamira, J., Kifaro, G.C., Gwakisa, P.S., 2009. Genetic parameters for body weights, egg traits and antibody response against Newcastle Disease Virus (NDV) vaccine among two Tanzania chicken ecotypes. Trop. Anim. Health Prod. 41: 51–59.
Mourão, G.B., Gaya, L.G., Ferraz, J.B.S., Mattos, E.C., Costa, A.M.M.A.,. Michelan-Filho, T., Cunha Neto, O.C., Felício, A.M., Eler, J.P., 2008. Genetic trend estimates of meat quality traits in a male broiler line. Genetics and Molecular Research. 7 (3): 749–761.
Meyer K. 2007. WOMBAT – A tool for mixed model analyses in quantitative genetics by REML. Journal of Zhejiang University – Science B 8, 815 – 82.
Prado–Gonzalez, E. A., I. Ramirez–Avila & J. C. Segura–Correa. 2003. Genetic parameters for body weights of Creole chickens from Southeastern Mexico using an animal model. Livestock Research For Rural Development, 15 (1).
Robinson, F. E., J. L. Wilson, M. W. Yu, G. M. Fasenko & R. T. Hardin. 1993. The relationship between body weight and reproduction efficiency in meat–ltype chickens. Poultry Science, 72: 912–922.
Saatci, M., Ap Dewi, I., Aksoy, A.R., 2003. Application of REML procedure to estimate the genetic parameters of weekly liveweights in one-toone sire and dam pedigree recorded Japanese quail. J. Anim. Breed.  Genet. 120: 23–28.
Sargolzaei, M., Iwaisaki, H. and Colleau, J. J.2006 .A tool formonitoring genetic diversity. Comm. 27-28 in proceeding of the 8th World Congress Genetics Applied Livestock. ProBelo Horizonte, Brazil.
Shafaat, K., Vaez Torshizi, R. & Emam Jomeh Kashan, N. 2008. Investigation of sire and yearinteraction effect on correlation between direct and maternal genetic of body weight at 6 weeks in acommercial Broiler Line. 3rd Iranian Congress of Animal Science, 15-16 Oct., Mashhad, Iran. (In Farsi).
Sabri, H.M., Wilson, H.R., Harms, R.H. and Wilcox, C.J., 1999. Genetic parameters for egg and related characteristics of white leghorn hens in a subtropical environment. Genetics and Molecular Research. 22 (2): 183–186.