Adaptability and stability of maize hybrids using the Eberhart and Russell and AMMI models in subtropical environments

ABSTRACT Brazil boasts a vast variety of environmental conditions conducive to maize cultivation. Given the various maize hybrids available in the Brazilian market, properly selecting and positioning different genetic materials are critical for successful grain production. Thus, this study aimed to...

Full description

Saved in:
Bibliographic Details
Published in:Ciência e agrotecnologia Vol. 48
Main Authors: Rosa, Guilherme Bergeijer da, Follmann, Diego Nicolau, Pereira, Anderson Crestani, Bolzan, Felipe Tascheto, Marchioro, Volmir Sérgio, Maldaner, Ivan Carlos
Format: Journal Article
Language:English
Published: Editora da Universidade Federal de Lavras 01-01-2024
Universidade Federal de Lavras
Subjects:
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:ABSTRACT Brazil boasts a vast variety of environmental conditions conducive to maize cultivation. Given the various maize hybrids available in the Brazilian market, properly selecting and positioning different genetic materials are critical for successful grain production. Thus, this study aimed to determine the adaptability and stability of different maize hybrids, comparing the Eberhart and Russell and AMMI models, to guide the positioning of these maize hybrids in subtropical regions. A randomized block experimental design with six hybrids and three replicates was used. The experimental environments were defined by combinations of factors such as location, sowing time, fungicide management and irrigation, resulting in 12 distinct environments. Notably, the two models largely agree. For instance, the AG 9025 PRO3 hybrid showed a high yield during early sowing under favorable conditions, whereas the AS 1730 PRO3 and DKB 230 PRO3 hybrids had good yields even under unfavorable conditions. The main limitation of the Eberhart and Russell model is its limited ability to interpret stability, classifying hybrids only as having high or low predictability, limiting the detailed interpretation of stability. Conversely, the AMMI model offers a more detailed analysis of stability, allowing the interpretation of hybrid stability within a broader set and presenting information graphically, which facilitates understanding and enables a more comprehensive and accurate analysis for the appropriate positioning of maize hybrids.
ISSN:1981-1829
1981-1829
DOI:10.1590/1413-7054202448008824