02635naa a2200289 a 450000100080000000500110000800800410001902400370006010000190009724501460011626000090026250000790027152017240035065000100207465000140208465000090209865300390210765300360214670000160218270000170219870000230221570000210223870000140225970000180227370000160229177300380230710585742019-05-28       2018    bl uuuu     u00u1 u    #d7 a10.2135/cropsci2017.09.05642DOI1 aMONTEVERDE, E.  aMultienvironment models increase prediction accuracy of complex traits in advanced breeding lines of rice (O. sativa).h[electronic resource]  c2018  aArticle history: Accepted on May 09, 2018. Published online June 21, 2018.  aABSTRACT: Genotype x environment interaction (G x E) is the differential response of genotypes in different environments and represents a major challenge for breeders. Genotype  x year-interaction (G x Y) is a relevant component of G x E, and accounting for it is an important strategy for identifying lines with stable and superior performance across years. In this study, we compared the prediction accuracy of modeling G x Y using covariance structures that differ in their ability to accommodate correlation among environments. We present the use of these approaches in two different rice (Oryza sativa L.) breeding populations (indica and tropical japonica) for predicting grain yield, plant height, and three milling quality traits—milling yield, head rice percentage, and grain chalkiness—under different cross-validation (CV) scenarios. We also compared model performance in the context of global predictions (i.e., predictions across years). Most of the benefits of multienvironment models come from modeling genetic correlations between environments when predicting performance of lines that have been tested in some environments but not others (CV2). For predicting the performance of newly developed lines (CV1), modeling between environment correlations has no effect compared with considering environments independently. Response to selection of multienvironment models when modeling covariance structures that accommodate covariances between environments was always beneficial when predicting the performance of lines across years. We also show that, for some traits, high prediction accuracies can be obtained in untested years, which is important for resource allocation in small breeding programs.  aARROZ  aGENOTIPOS  aRICE  aGENOTYPE X ENVIRONMENT INTERACTION  aINTERACCIONES GENOTIPO-AMBIENTE1 aROSAS, J.E.1 aBLANCO, P.H.1 aPÉREZ DE VIDA, F.1 aBONNECARRERE, V.1 aQUERO, G.1 aGUTIERREZ, L.1 aMCCOUCH, S.  tCrop Science, 2018, 58:1519-1530.