Phenotypic and Genetic Factors Affecting on Reproductive Lifetime of Lori-Bakhtiari Ewes
Subject Areas : Camel
م.
وطن خواه
1
(Department of Animal Science, Chaharmahal va Bakhtiary Agricultural and Natural Resources Research and Education Center, AREEO, Shahrekord, Iran)
Keywords: genetic parameters, reproductive efficiency, ewe's lifetime,
Abstract :
In this study phenotypic and genetic factors affecting the reproductive efficiency of Lori-Bakhtiari ewes were determined using 8202 reproductive records of 2478 ewes collected at Shooli research station in the southwestern part of Iran (Shahrekord) during 1989 to 2012. Reproductive efficiency over all consecutive lambing opportunities were calculated by adding the total reproductive efficiency traits per ewe joined for all of the parturition opportunities. Reproductive traits included in the current study were: number of parity (NP), total number of lambs born (TNLB), total number of lambs weaned (TNLW), total of lambs birth weight (TLBW), total of lambs weaning weight (TLWW), total of lambs weaning weight per kg ewe body weight (TLWW/EBW) and total of lambs weaning weight per kg metabolic ewe body weight (TLWW/MEBW). The data set analyzed with multi-trait animal model included the fixed effects of birth year of ewe, number of parturition in ewe's lifetime, ewe body weight as covariate and random effects direct additive genetic and residual. The overall mean of NP, TNLB, TNLW, TLBW, TLWW, TLWW/EBW and TLWW/MEBW were 3.31, 3.31, 3.21, 16.51 kg, 87.31 kg, 1.51 and 4.16, respectively. The effect of non-genetic factors were significant for all investigated traits in this study (P<0.01). The heritability estimates were medium (0.30) for NP and low (0.08 to 0.11) for other reproductive efficiency traits. The estimates of genetic and phenotypic correlations between the traits were high (0.72 to 0.99) or medium to high (0.57 to 0.99). Thus, improving environmental effects could make significant improvements in reproductive efficiency traits at first. The low to medium heritability estimate and high genetic correlations obtained between reproductive efficiency traits in ewe's lifetime and high phenotypic standard deviation from them indicated that improvement by selection of all of traits, especially NP can be improved TLWW as net reproductive efficiency trait in Lori-Bakhtiari ewes.
Abdelqader A., Al Yacoub A. and Gauly M. (2012). Factors influencing productive longevity of Awassi and Najdi ewes in intensive production systems at arid regions. Small Rumin. Res. 104, 37-44.
Borg R.C. (2007). Phenotypic and genetic evaluation of fitness characteristics in sheep under a range environment. Ph D. Thesis. VirginiaUniv., US.
Brash L.D., FogartyN.M. and Gilmour A.R.(1994a). Reproductive performance and genetic parameters for Australian Dorset sheep. Australian J. Agric. Res. 45, 427-441.
Brash L.D., FogartyN.M. and Gilmour A.R. (1994b). Genetic parameters for Australian maternal and dual-purpose meat sheep breeds. II. Liveweight, wool and reproduction in Corriedale sheep. Australian J. Agric. Res. 45, 469-480.
Cloete S.W.P. and Heydenrych H.J. (1986). Factors affecting reproduction in Merino ewes of the Tygerhoek Merino flock. South African J. Anim. Sci. 16, 36-42.
Cloete S.W.P. and Heydenrych H.J. (1987a). Genetic parameters for reproduction rate in the Tygerhoek Merino flock. 1. Heritability. South African J. Anim. Sci. 17, 1-7.
Cloete S.W.P. and Heydenrych H.J. (1987b). Genetic parameters for reproduction rate in the Tygerhoek Merino flock. 2. Genetic correlations with wool and live mass traits. South African J. Anim. Sci. 17, 8-14.
Duguma G., Schoeman S.J., Cloete S.W.P. and Jordaan G.F. (2002). Genetic and environmental parameters for ewe productivity in Merinos. South African J. Anim. Sci. 32, 154-159.
Eküz B., Zcan M. and YilmazA. (2005). Estimates of phenotypic and genetic parameters for ewe productivity traits of Turkish Merino (Karacabey Merino) Sheep. Turkish J. Vet. Anim. Sci. 29, 557-564.
Ercanbrack S.K. and Knight A.D. (1989). Lifetime production of ¼ and ½ Finnsheep ewes from Rambouillet, Targhee and Columbia dams as affected by natural attrition. J. Anim. Sci. 67, 3258-3265.
FogartyN.M. (1995). Genetic parameters for live weight, fat and muscle measurements, wool production and reproduction in sheep: a review. Anim. Breed. Abstr. 63, 101-143.
FogartyN.M., Brash L.D. and Gilmour A.R. (1994). Genetic parameters for reproduction and lamb production and their components and liveweight, fat depth and wool production in Hyfer sheep. Australian J. Agric. Res. 45, 443-457.
Gallivan C. (1996). Breeding objectives and selection index for genetic improvement of Canadian sheep. Ph D. Thesis. University of Guelph, Ontario, Canada.
ImanN.Y. and Slyter A.L. (1996). Lifetime and wool production of Targhee or Finn-Dorset-Targhee ewes managed as farm or range flock. 2. Cumulative lamb and wool production. J. Anim. Sci. 74, 1757-1765.
Langford C., Alcock D., Holst P., Shands C. and Casburn G. (2004). Wean More Lambs Optimising Sheep Reproductive Performance. Meat Livest Australia Publication, North Sydney.
Lee G.J., Atkins K.D. and Sladek M.A. (2009). Heterogeneity of lifetime reproductive performance, its components and associations with wool production and live weight of Merino ewes. Anim. Prod. Sci. 49(7), 624-629.
Lobo R.N.B. and Lobo A.M.B.O. (2010). An evaluation of the ratio of lambs weight to ewe weight as an indicator of ewe efficiency. Pp. 6-13 in Proc. 9th World Cong. Genet. Appl. Livest. Prod.Leipzig, Germany.
Mekkawy W., Roehe R., Lewis R.M., Davies M.H., Bünger L., Simm G. and Haresign W. (2009). Genetic relationship between longevity and objectively or subjectively assessed performance traits in sheep using linear censored models. J. Anim. Sci. 87, 3482-3489.
Meyer K. (2013). WOMBAT- A program for Mixed Model Analyses by Restricted Maximum Likelihood. User Notes, Animal Genetics and Breeding Unit, Armidale, Australia.
Mishra A.K., Arora A.L., Prince L.L.L., Gowane G.R. and Kumar S. (2009). Lifetime litter size and ewes productivity efficiency of Garole × Malpura crossbred sheep. Indian J. Anim. Sci. 79(10), 1075-1077.
Olivier W.J., Snyman M.A., Olivier J.J., Van Wyk J.B. and Erasmus G.J. (2001). Direct and correlated responses to selection for total weight of lamb weaned in Merino sheep. South African J. Anim. Sci. 31, 115-121.
Qureshi M.A., Nawaz M. and Khan M.A. (1997). Lifetime production of Kajli ewes at Khushab and Khizerabad: reproduction and lamb production as affected by ewe longevity. Asian-Australas J. Anim. Sci.10(4), 408-415.
Ray E.E. and Smith S.L. (1966). Effect of body weight of ewes on subsequent lamb production. J. Anim. Sci. 25, 1172-1175.
SAS Institute. (2004). SAS®/STAT Software, Release 9. SAS Institute, Inc., Cary, NC. USA.
Snyman M.A., Erasmus G.J. and Van Wyk J.B. (1998a). The possible genetic improvement of reproduction and survival rate in Afrino sheep using a threshold model. South African J. Anim. Sci. 28, 120-124.
Snyman M.A., Erasmus G.J., Van Wyk J.B. and Olivier J.J. (1998b). Genetic and phenotypic correlations among production and reproduction traits in Afrino sheep. South African J. Anim. Sci. 28, 74-81.
Snyman M.A., Olivier J.J., Erasmus G.J. and Van Wyk J.B. (1997). Genetic parameter estimates for total weight of lamb weaned in Afrino and Merino sheep. Livest. Prod. Sci. 48, 111-116.
Vatankhah M. (2005). Defining a proper breeding scheme for Lori-Bakhtiari sheep in village system. Ph D. Thesis. University of Tehran, Iran.
Vatankhah M., Talebi M.A. (2008). Genetic parameters of body weight and fat-tail measurements in lambs. Small Rumin. Res. 75, 1-6.