GGE biplot

Adaptability and phenotypic stability of soybean cultivars for grain yield and oil content

K. B. Silva, Bruzi, A. T., Zuffo, A. M., Zambiazzi, E. V., Soares, I. O., de Rezende, P. M., Fronza, V., Vilela, G. D. L., Botelho, F. B. S., Teixeira, C. M., Coelho, M. Ade O., Silva, K. B., Bruzi, A. T., Zuffo, A. M., Zambiazzi, E. V., Soares, I. O., de Rezende, P. M., Fronza, V., Vilela, G. D. L., Botelho, F. B. S., Teixeira, C. M., Coelho, M. Ade O., Silva, K. B., Bruzi, A. T., Zuffo, A. M., Zambiazzi, E. V., Soares, I. O., de Rezende, P. M., Fronza, V., Vilela, G. D. L., Botelho, F. B. S., Teixeira, C. M., and Coelho, M. Ade O., “Adaptability and phenotypic stability of soybean cultivars for grain yield and oil content”, vol. 15, p. -, 2016.

The aim of this study was to verify the adaptability and stability of soybean cultivars with regards to yield and oil content. Data of soybean yield and oil content were used from experiments set up in six environments in the 2011/12 and 2012/13 crop seasons in the municipalities of Patos de Minas, Uberaba, Lavras, and São Gotardo, Minas Gerais, Brazil, testing 36 commercial soybean cultivars of both conventional and transgenic varieties. The Wricke method and GGE biplot analysis were used to evaluate adaptability and stability of these cultivars.

Genotypic stability and adaptability in tropical maize based on AMMI and GGE biplot analysis

M. Balestre, Von Pinho, R. G., Souza, J. C., and Oliveira, R. L., “Genotypic stability and adaptability in tropical maize based on AMMI and GGE biplot analysis”, vol. 8, pp. 1311-1322, 2009.

We evaluated the phenotypic and genotypic stability and adaptability of hybrids using the additive main effect and multiplicative interaction (AMMI) and genotype x genotype-environment interaction (GGE) biplot models. Starting with 10 single-cross hybrids, a complete diallel was done, resulting in 45 double-cross hybrids that were appraised in 15 locations in Southeast, Center-West and Northeast Brazil.