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Unveiling early-stage responses of sensitive traits to water stress in tropical maize: a characterization study of a public panel: Unveiling early-stage responses of sensitive traits to water stress

One of the major goals of modern agriculture is to achieve increased crop yield using less water. Despite significant advancements in genomics, an efficient phenotypic characterization remains indispensable for the success of modern breeding programs aiming to expedite genetic gains through early-st...

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Published in:	Euphytica 2025, Vol.221 (1)
Main Authors:	Machado, Ingrid Pinheiro, de Pontes, Fernanda Carla Ferreira, de Souza Silveira, Maria Valnice, Lobo, Antônio Lucas Aguiar, Siqueira, Michele Jorge Silva, Fritsche-Neto, Roberto, DoVale, Júlio César
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Language:	English
Subjects:	Biomedical and Life Sciences Biotechnology Life Sciences Plant Genetics and Genomics Plant Pathology Plant Physiology Plant Sciences
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container_title	Euphytica
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creator	Machado, Ingrid Pinheiro de Pontes, Fernanda Carla Ferreira de Souza Silveira, Maria Valnice Lobo, Antônio Lucas Aguiar Siqueira, Michele Jorge Silva Fritsche-Neto, Roberto DoVale, Júlio César
description	One of the major goals of modern agriculture is to achieve increased crop yield using less water. Despite significant advancements in genomics, an efficient phenotypic characterization remains indispensable for the success of modern breeding programs aiming to expedite genetic gains through early-stage selection deployment. Thus, this study aimed to identify which traits are most important to discriminate the maize genotypes to support early selection under contrasting water availability conditions. For this, we used a public diversity panel of 360 tropical maize inbred lines, involving two conditions, well-watered (WW) and water-stress (WS) across eight trials. Evaluations were carried out in the phenological stage V6 for shoot and root traits. There was a significant variation in the panel performance, mainly for root traits under WS conditions, composing six clusters. Notably, clustering patterns based on principal components were similar under WW and WS conditions. A strong correlation was found among roots length, surface area, and volume, allowing the exclusion of more error-prone traits. Redundancy analysis (RDA) highlighted plant height, stalk diameter, and lateral roots length as the most sensitive traits to WS, suggesting their utility in early selection for water-use efficiency in maize breeding programs.
doi_str_mv	10.1007/s10681-024-03448-6
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title	Unveiling early-stage responses of sensitive traits to water stress in tropical maize: a characterization study of a public panel: Unveiling early-stage responses of sensitive traits to water stress
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