02837naa a2200325 a 450000100080000000500110000800800410001902400380006010000190009824501350011726000090025252018870026165000200214865000200216865000240218865000230221265000100223565000210224565000340226665000220230065000110232270000180233370000150235170000280236670000170239470000200241170000160243170000170244777300470246420467912016-06-10       2015    bl uuuu     u00u1 u    #d7 a10.1016/j.livsci.2015.03.0302DOI1 aVENTURA, H. T.  aComparing multi-trait Poisson and Gaussian Bayesian models for genetic evaluation of litter traits in pigs.h[electronic resource]  c2015  aAbstract: Reproductive traits as number of piglets born (NPB) and weaned (NWP) are directly related to the economic efficiency of swine production systems. Pig breeding programs seek to increase the number of weaned piglets per sow per year, and the NPB is among the factors that directly and indirectly influence the NWP. Thus, multi-trait evaluations are essential to estimate heritabilities and mainly genetic correlations between these traits over different farrowing orders. In general, Gaussian linear mixed models have been used to genetic evaluation of litter traits; however since these traits are characterized as count variables, Poisson models are also indicated. Some studies were carried out using Poisson mixed models in the area of Animal Breeding and Genetics, but they do not point out for a multi-trait scenario, as it should be for litter size at birth and weaning. Toward this orientation, we aimed to apply a multi-trait Poisson mixed model (MPM) for the genetic evaluation of the number of born and weaned piglets under a Bayesian framework. It was aimed also to compare the proposed model with the traditional multi-trait Gaussian model (MGM) by using posterior based goodness-of-fit measures. Two-trait analyses for NPB and NWP were performed separately by each considered farrowing order (first, second and third) using MPM and MGM fitted to data from a commercial Landrace population. Based on DIC (Deviance Information Criterion) and PMP (Posterior Model Probability) values, the MGM outperformed the MPM, but the genetic parameter and breeding values provided by both models were consistent and similar over the three first farrowing orders. Bayesian generalized a multi-trait mixed model approach is feasible for genetic evaluations in the animal breeding context and can be an alternative method for genetic evaluations assuming non-Normal phenotypes.  aAnimal breeding  aAnimal genetics  aAnimal reproduction  aMolecular genetics  aSwine  aGenética animal  aMelhoramento genético animal  aProdução animal  aSuíno1 aSILVA, F. F e1 aVARONA, L.1 aFIGUEIREDO, E. A. P. de1 aCOSTA, E. V.1 aSILVA, L. P. da1 aVENTURA. R.1 aLOPES, P. S.  tLivestock Sciencegv. 176, p. 47-53, 2015.