AMMI (additive main effect and multiplicative interaction) model for assessment of yield stability of spring barley genotypes

Authors

  • M. P. Solonechnyi Plant Production Institute nd. a V. Ya. Yuriev of NAAS, Ukraine, Ukraine Author
  • M. R. Kozachenko Plant Production Institute nd. a V. Ya. Yuriev NAAS, Ukraine, Ukraine Author
  • N. I. Vasko Plant Production Institute nd. a V. Ya. Yuriev NAAS, Ukraine, Ukraine Author
  • O. G. Naumov Plant Production Institute nd. a V. Ya. Yuriev NAAS, Ukraine, Ukraine Author
  • O. V. Solonechna Plant Production Institute nd. a V. Ya. Yuriev NAAS, Ukraine, Ukraine Author https://orcid.org/0000-0002-1221-6939
  • O. Ye. Vazhenina Plant Production Institute nd. a V. Ya. Yuriev NAAS, Ukraine, Ukraine Author https://orcid.org/0000-0003-2205-378X
  • K. V. Kompanets Plant Production Institute nd. a V. Ya. Yuriev NAAS, Ukraine, Ukraine Author

DOI:

https://doi.org/10.30835/2413-7510.2016.87620

Keywords:

AMMI, ASV, spring barley, genotype-environment interaction, yield capacity, stability, line

Abstract

The article presents results of AMMI analysis of yield capacity and phenotypic stability of 8 promising spring barley lines and 2 standard varieties. The study indentified genotypes that consistently fulfill their genetic potentials under contrastive hydrothermal conditions: lines 06-652 (G4) and 09-837 (G8). Line 09-837 named as ‘Lord’ was submitted to the state variety trial. Benefits of AMMI analysis for assessment of breeding material at the final stage of breeding are shown

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Published

2016-12-25

Issue

No. 110 (2016): Plant Breeding and Seed Production

Section

METHODS AND RESULTS SELECTION

License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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