“GGE biplot” assessment of phenotypic stability of spring barley varieties
DOI:
https://doi.org/10.30835/2413-7510.2015.54059Keywords:
GGE Biplot, spring barley, environmental variety trial, stabiltity, adaptability, performance, genotypeAbstract
The article presents GGE biplot analysis of results of environmental trials in 17 varieties of spring barley bred at the Plant Production Institute nd. a V.Ya. Yuriev of NAAS. The study results discriminate genotypes with stable realization of their genetic potential in a number of environments as well as genotypes combining a high level of a trait with its stable expression. The varieties Kozvan, Perl, Agrariy and Kosar were chosen as valuable source material for spring barley breeding. We think that GGE biplot can be a comprehensive alternative to the most conventional methods of assessment of adaptive features in genotypes.
References
Palanog AD, Endino CA, Ciocon IMG, Sta. Ines LT, Libetario EM. Adaptability and stability analysis of newly-released rice varieties using GGE biplot analysis. Asia life sciences. 2014; 23(2):515-526.
Rezene Y, Bekele A, Goa Y. GGE and AMMI biplot analysis for field pea yield stability in SNNPR state, Ethiopia. International Journal of Sustainable Agricultural Research. 2014; 1 (1): 28-38.
Yan W, Tinker NA. Biplot analysis of multi-environment trial data: Principles and applications. Can. J. Plant Sci. 2006; 86:623–645.
Pourdad SS, Moghaddam MJ. Study on seed yield stability of sunflower inbred lines through GGE biplot. Helia. 2013; 36(58):19-28.
Yan W, Kang MS, Ma B, Woods S, Cornelius PL. GGE biplot vs. AMMI analysis of genotype – by- environment data. Crop Sci. 2007; 47:643-655.
Yan W, Hunt L, A., Sheny Q, Szlavnics Z. Cultivar evaluation and mega-environment investigation based on the GGE biplot. Crop Sci. 2000; 40:597-605.
Yan W. GGEbiplot – a Windows application for graphical analysis of multi-environment trial data and other types of twoway data. Agron. J. 2001; 93: 1111–1118.
Yan W, Kang MS. GGE biplot analysis: A graphical tool for breeders, geneticists and Agronomists. CRC press : Boca Raton (FL). 2003.
Yan W, Tinker NA. An integrated biplot analysis system for displaying, interpreting, and exploring genotype-byenvironment interactions. Crop Sci. 2005; 45: 1004–1016.
Fan XM, Kang MS, Chen H, Zhang Y, Tan J, Xu C. Yield stability of maize hybrids evaluated in multi-environment trials in Yunnan, China. Agron. J. 2007; 99:220-228.
Solonechnyi PM, Kozachenko MR, Vasko NI, Naumov OG, Dmytrenko PP, Kovalenko OL. Stability of productivity elements in spring barley varieties under ecological testing conditions. Selektsia I nasinnitstvo. 2014; 105:194–203.
Solonechnyi PM. Adaptability and stability of spring barley cultivars in terms of performance. News Of The Poltava State Agrarian Academy. 2014; 4 (75):48-53.
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Copyright (c) 2015 M. P. Solonechnyi, R. M. Kozachenko, N. I. Vasko, O. G. Naumov, O. V. Solonechna, E. O. Vazhenina, B. O. Bondareva, L. A. Kovalenko
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