Abstract
This study aims to identify the phenotypic effects of traits associated with soybean pods and their growth habit. The experiments were carried out during the 2012 - 2013 agricultural year. It was done in randomized blocks arranged in a 2×20 factorial design (environments × soybean cultivars) with three replications. Data were subjected to individual analysis of variance for each environment and growth habit to verify the homogeneity of variances. Phenotypic path analysis among agronomic traits was performed for each environment within the soybean growth habits. The results showed considerable influences of growth habit via traits associated with soybean pods. The traits number of pods with two, three, and four grains directly influenced the grain yield of genotypes with indeterminate growth habit regardless of the environment. The soybean genotypes with determinate growth habit contributed greatly to grain yield through the traits number of pods with one, two, and three grains and thousand grain weight via pods with two or four grains. Indirect selection of superior genotypes for pods per plant and grain weight could provide satisfactory results for soybean yield in relation to the growth habit. The interrelationships obtained between growth habits and environments, can be applied to superior genotypes selection strategies in breeding soybean programs. Key words: Agriculture science, biometric models, Glycine max L., indirect selection, grain yield, soybean breeding.
Highlights
Soybean (Glycine max L.) is one of the main commodities grown in Brazil due to its great range of genotypes and differential traits that enable the development and production in diverse environments (Carvalho et al, 2010)
This study aims to identify the phenotypic effects of traits associated with soybean pods and their growth habit
The interrelationships obtained between growth habits and environments, can be applied to superior genotypes selection strategies in breeding soybean programs
Summary
Soybean (Glycine max L.) is one of the main commodities grown in Brazil due to its great range of genotypes and differential traits that enable the development and production in diverse environments (Carvalho et al, 2010). Differentiated phenotypic responses are intrinsic to the effects of genotype × environment interaction, where a particular genotype may present different associations between the traits involved. Comprehending the interrelations between the traits associated with soybean yield potential is essential, because the degree of contribution is intrinsic to the number of pods, grains per pod, and grain weight of the genotype. Correlations among these parameters become important for the indirect selection of superior genotypes (Nogueira et al, 2012). The breakdown of simple correlations allows one to quantify the contribution of the explanatory traits of soybean yield and elucidate the effects attributed to environmental modifications
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
