Genetic correlations between dressage, show jumping and studbook‐entry inspection traits in a process of specialization in Dutch Warmblood horses

Sport performance in dressage and show jumping are two important traits in the breeding goals of many studbooks. To determine the optimum selection scheme for jumping and dressage, knowledge is needed on the genetic correlation between both disciplines and between traits measured early in life and performance in competition in each discipline. This study aimed to estimate genetic parameters to support decision-making on specialization of breeding horses for dressage and show jumping in Dutch warmblood horses. Genetic correlations between performance of horses in dressage and show jumping were estimated as well as the genetic correlation between traits recorded during studbook-entry inspections and performance in dressage and show jumping competitions. The information on competition comprised the performance of 82 694 horses in dressage and 62 072 horses in show jumping, recorded in the period 1993-2012. For 26 056 horses, information was available for both disciplines. The information on traits recorded at studbook-entry inspections comprised 62 628 horses, recorded in the period 1992-2013. Genetic parameters were estimated from the whole dataset and from a subset without horses recorded in both disciplines. Additionally, the genetic parameters were estimated in three different time periods defined by horses' birth year. The genetic correlation between dressage and show jumping in the whole dataset was -0.23, and it was -0.03 when it was estimated from horses recorded in only one discipline. The genetic correlation between dressage and show jumping was more negative in the most recent time period in all the cases. The more negative correlation between disciplines in more recent time periods was not reflected in changes in the correlations between competitions traits and the traits recorded in the studbook-first inspection. These results suggest that a breeding programme under specialization might be most effective defining two separate aggregate breeding goals for each of the disciplines.

[1]  P. Madsen,et al.  Analysis of competition performance in dressage and show jumping of Dutch Warmblood horses. , 2016, Journal of animal breeding and genetics = Zeitschrift fur Tierzuchtung und Zuchtungsbiologie.

[2]  P. Madsen,et al.  Effect of specialization on genetic parameters of studbook-entry inspection in Dutch Warmblood horses. , 2015, Journal of animal breeding and genetics = Zeitschrift fur Tierzuchtung und Zuchtungsbiologie.

[3]  P. Madsen,et al.  Genetic connections between dressage and show-jumping horses in Dutch Warmblood horses , 2014 .

[4]  H. Swalve,et al.  Genetic evaluations of the German Sport Horse: Population structure and use of data from foal and mare inspections and performance tests of mares , 2013 .

[5]  S. Brotherstone,et al.  Estimating variance components and predicting breeding values for eventing disciplines and grades in sport horses. , 2012, Animal : an international journal of animal bioscience.

[6]  K. F. Stock,et al.  Genetic correlations between free movement and movement under rider in performance tests of German Warmblood horses , 2011 .

[7]  A Näsholm,et al.  Genetic variation in competition traits at different ages and time periods and correlations with traits at field tests of 4-year-old Swedish Warmblood horses. , 2010, Animal : an international journal of animal bioscience.

[8]  A Näsholm,et al.  Genetic parameters for traits evaluated at field tests of 3- and 4-year-old Swedish Warmblood horses. , 2008, Animal : an international journal of animal bioscience.

[9]  S. Brotherstone,et al.  Use of competition data for genetic evaluations of eventing horses in Britain: Analysis of the dressage, showjumping and cross country phases of eventing competition , 2008 .

[10]  E. Strandberg,et al.  Use of field records and competition results in genetic evaluation of station performance tested Swedish Warmblood stallions , 2008 .

[11]  Brian J. Smith,et al.  boa: An R Package for MCMC Output Convergence Assessment and Posterior Inference , 2007 .

[12]  Bart J. Ducro,et al.  Genetic relations of movement and free-jumping traits with dressage and show-jumping performance in competition of Dutch Warmblood horses , 2007 .

[13]  Jan Philipsson,et al.  Review of genetic parameters estimated at stallion and young horse performance tests and their correlations with later results in dressage and show-jumping competition , 2006 .

[14]  J. Philipsson,et al.  An overview of breeding objectives for warmblood sport horses , 2004 .

[15]  E.P.C. Koenen,et al.  Genetic parameters of linear scored conformation traits and their relation to dressage and show-jumping performance in the Dutch Warmblood Riding Horse population , 1995 .

[16]  B. Kennedy,et al.  Asymmetrical correlated responses to selection under an infinitesimal genetic model , 1992, Theoretical and Applied Genetics.

[17]  H. Huizinga,et al.  Estimated parameters of performance in jumping and dressage competition of the Dutch Warmblood horse , 1989 .

[18]  O. W. Robison,et al.  Genetic parameters for testes traits in swine. , 1984, Journal of animal science.

[19]  E. Bruns Estimation of the breeding value of stallions from the tournament performance of their offspring , 1981 .

[20]  B. Ducro Relevance of test information in horse breeding , 2011 .