Abstract
The common bean provides a diet rich in vitamins, fiber, minerals and especially in proteins, which can provide food security for poor people in many countries. With the increase in demand for food production, cultivars with high grain yield potential that can be planted in different environments have been the focus of common bean breeding programs. Therefore, this study aimed to evaluate genetic parameters, grain yield, adaptability and stability simultaneously of common bean lines that compose the Value for Cultivation and Use trials of the South region of Brazil. The experiments were conducted in 13 environments in the states of Paraná, Santa Catarina and Rio Grande do Sul. The analysis of adaptability and stability were performed The common bean provides a diet rich in vitamins, fiber, minerals and especially in proteins, which can provide food security for poor people in many countries. With the increase in demand for food production, cultivars with high grain yield potential that can be planted in different environments have been the focus of common bean breeding programs. Therefore, this study aimed to evaluate genetic parameters, grain yield, adaptability and stability simultaneously of common bean lines that compose the Value for Cultivation and Use trials of the South region of Brazil. The experiments were conducted in 13 environments in the states of Paraná, Santa Catarina and Rio Grande do Sul. The analysis of adaptability and stability were performed using mixed linear models by the Residual Maximum Likelihood and the Best Linear Unbiased Predictor for predicting the genotypic values through Selegen statistical program. The selective accuracy of genotypes for their genotypic values was 87% and the broad-sense heritability for grain yield was 13%. The genotypes CHC 98-42, BRS Esteio, CNFP-10794, CHP 01-238, FT 08-75, IPR Campos Gerais, LP 09-40, CNFC 10762, C 4-7-8-1-2 and LEC 01-11 were superior based on the method of Harmonic Mean of Relative Performance of Genotypic Values. These genotypes presented a higher mean grain yield in comparison to the other evaluated genotypes, and could be recommended for cultivation in these regions. In addition, it was possible to obtain genetic gains of up to 9.5% for the CHC 98-42 line, showing its high genetic potential.
Highlights
Genetic parameters, yield adaptability...Phaseolus vulgaris L. is one of the most important staple foods to humans
The experimental errors associated with grain yield of 18 common bean genotypes evaluated in 13 environments, showed normal distribution, but not all environments showed homogeneous variances, allowing all subsequent analyzes to consider heterogeneous variances, justifying the use of mixed modeling Restricted Maximum Likelihood (REML)/Best Linear Unbiased Predictor (BLUP)
The analysis of deviance for random effects showed that the effects of genotype, and genotype by environment interaction (GEI) were significant at 1% by Chi-square test (χ2) (Table 2)
Summary
Yield adaptability...Phaseolus vulgaris L. is one of the most important staple foods to humans. Brazil is one the world's largest producer of common bean surpassing 2.6 million tons in the crop year of 2016 (Food and Agriculture Organization [FAO], 2018). This was possible due to the efforts of researchers to develop genotypes with high commercial value. Several public and private plant breeding institutions worldwide have invested heavily to obtain new and superior genotypes (Friesen, Brûlé-Babel, Crow, & Rothenburger, 2016), which are evaluated in field trials and different locations over the years for many agronomic traits. It aims to predict the performance of the genotypes when planning future series of trials (Laidig, Drobek, & Meyer, 2008)
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