Genetics of heifer reproductive traits in Japanese Black cattle

Objective The objective of this study was to identify environmental factors strongly associated with and to estimate genetic parameters of reproductive traits in Japanese Black heifers. Methods Data included reproduction records of Japanese Black heifers born between 2004 and 2014. First service non-return rate (NRR) to 56 days from first to successful insemination (FS), number of services per conception (IN), age at first calving (AFC) and gestation length were analyzed with the use of the general linear model. Genetic parameters were estimated with the use of the univariate animal model of the residual maximum likelihood. Results Averages of reproductive traits over eleven years were assessed, and the effects of farm, year, month, artificial insemination technician and interaction of farm×year on the traits were determined. Estimated heritability of FS was very low and that of AFC was higher than that of the other traits. A close genetic relation was observed among NRR, IN, and FS; however, their heritabilities were very low. AFC shows favorable genetic correlation with IN and FS. Conclusion Low heritabilities of most reproductive traits in Japanese Black heifers are strongly influenced by farm management practices, and that large residual variances make genetic evaluation difficult. Among the reproductive traits, AFC is potentially more useful for genetic improvement of heifer reproductive traits because it has high heritability and favorable genetic correlations with IN and FS.

[1]  M. Lund,et al.  Variance components and correlations of female fertility traits in Chinese Holstein population , 2017, Journal of Animal Science and Biotechnology.

[2]  T. Oikawa Effect of heat stress on age at first calving of Japanese Black cows in Okinawa. , 2017, Animal science journal = Nihon chikusan Gakkaiho.

[3]  M. Ersoy,et al.  EFFECT OF NON-GENETIC FACTORS ON REPRODUCTIVE TRAITS IN SIMMENTAL COWS REARED IN SUBTROPICAL CLIMATE CONDITION , 2017 .

[4]  Y. Sasaki,et al.  Reproductive performance of Japanese Black cattle: Association with herd size, season, and parity in commercial cow-calf operations. , 2016, Theriogenology.

[5]  P. A. Bernardes,et al.  Estimates of genetic parameters and genetic trends for reproductive traits and weaning weight in Tabapuã cattle. , 2015, Journal of animal science.

[6]  A. B. Bignardi,et al.  Genetic relationships among traits related to reproduction and growth of Nelore females. , 2014, Theriogenology.

[7]  Qin Zhang,et al.  Estimation of genetic parameters of fertility traits in Chinese Holstein cattle , 2014, Canadian Journal of Animal Science.

[8]  L. D. Haer,et al.  Estimation of genetic parameters of fertility traits, for virgin heifers in The Netherlands , 2013 .

[9]  C. Maltecca,et al.  Genetic parameters for fertility of dairy heifers and cows at different parities and relationships with production traits in first lactation. , 2012, Journal of dairy science.

[10]  M. Honarvar,et al.  Genetic variance components for female fertility in Iranian Holstein cows , 2011 .

[11]  S. Brar,et al.  Phenotypic and genetic parameters of reproductive traits in Tunisian Holstein cows. , 2010 .

[12]  R. Lôbo,et al.  Genetic associations between age at first calving and heifer body weight and scrotal circumference in Nelore cattle. , 2009, Journal of animal breeding and genetics = Zeitschrift fur Tierzuchtung und Zuchtungsbiologie.

[13]  G. Yagüe,et al.  Bayesian estimates of genetic parameters for pre-conception traits, gestation length and calving interval in beef cattle. , 2009, Animal reproduction science.

[14]  M. Suzuki,et al.  Relationships between reproductive traits of heifers and cows and yield traits for Holsteins in Japan. , 2009, Journal of dairy science.

[15]  S. Rensing,et al.  Genetic evaluation of fertility traits of dairy cattle using a multiple-trait animal model. , 2008, Journal of dairy science.

[16]  H. Hirooka,et al.  Genetic parameters for gestation length and the relationship with birth weight and carcass traits in Japanese Black cattle , 2008 .

[17]  R. Fernando,et al.  Pregnancy rate and first-service conception rate in Angus heifers. , 2006, Journal of animal science.

[18]  G. Kistemaker,et al.  Estimates of genetic parameters for Canadian Holstein female reproduction traits. , 2005, Journal of dairy science.

[19]  David A Dargatz,et al.  Calving and calving management of beef cows and heifers on cow-calf operations in the United States. , 2004, Theriogenology.

[20]  G. L. Bennett,et al.  Genetic relationships between scrotal circumference and female reproductive traits. , 2003, Journal of animal science.

[21]  J. Díez,et al.  Genetic relationships between calving date, calving interval, age at first calving and type traits in beef cattle , 2002 .

[22]  K. Suzuki,et al.  Current level of reproductive performances in Japanese Black cows , 2002 .

[23]  T. Katsuta,et al.  Heritability and Repeatability Estimates for Reproductive Traits of Japanese Black Cows , 2002 .

[24]  L R Schaeffer,et al.  Bayesian inference for categorical traits with an application to variance component estimation. , 2001, Journal of dairy science.

[25]  Robin Thompson,et al.  Linear and threshold model genetic parameters for disease, fertility and milk production in dairy cattle , 2000 .

[26]  G. L. Bennett,et al.  Genetic parameters for growth, puberty, and beef cow reproductive traits in a puberty selection experiment , 2000 .

[27]  J. Dekkers,et al.  Comparison of methods for genetic evaluation of sires for survival of their daughters in the first three lactations. , 1999, Journal of dairy science.

[28]  H. Harada,et al.  Genetic relationships of body measurements at registration to a couple of reproductive traits in Japanese black cows , 1998 .