Models for optimizing selection based on adaptability and stability of cotton genotypes

Peixoto, Marco Antônio; Evangelista, Jeniffer Santana Pinto Coelho; Alves, Rodrigo Silva; Farias, F. J. C.; Carvalho, Luiz Paulo de; Teodoro, Larissa Pereira Ribeiro; Teodoro, Paulo Eduardo

doi:10.1590/0103-8478cr20200530

Cited by 7 publications

(8 citation statements)

References 20 publications

(23 reference statements)

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“…(2020) and Peixoto et al. (2021). The selection of these biparental crosses will incorporate into the breeding program resilient genotypes, capable of adapting to micro‐ and macro‐environmental variations, which, ultimately, will promote greater security for producers.…”

Section: Discussionmentioning

confidence: 95%

“…This significance justifies the use of a methodology that capitalizes the GHI effects, since the objective was to elevate the selective accuracy and select the most stable and adaptable biparental crosses . The HMRPGV, which ranks the biparental crosses based on stability, adaptability, and productivity and/or resistance simultaneously, proved to be adequate to identify the genotypes that met these requirements, showing that those with greater genotypic values are also those with greater stability and adaptability, a fact also observed by Evangelista et al (2020) and Peixoto et al (2021). The selection of these biparental crosses will incorporate into the breeding program resilient genotypes, capable of adapting to micro-and macro-environmental variations, which, ultimately, will promote greater security for producers.…”

Section: Discussionmentioning

confidence: 97%

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Number of harvest years and selection for productivity, witches’ broom resistance, stability, and adaptability in cacao

et al. 2022

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A suitable statistical model for the analysis of repeated measures is a prerequisite for an accurate genetic selection of cacao (Theobroma cacao L.) genotypes. Thus, the objectives of this study were to (a) evaluate homoscedastic and heteroscedastic repeatability models, (b) estimate the optimal number of harvest years for genetic selection, and (c) identify and select biparental crosses with high productivity, witches' broom (Moniliophthora perniciosa Stahel & Philips-Mora) resistance, stability, and adaptability. Twenty biparental crosses were evaluated in a complete randomized blocks design, with seven replications and 12 trees per plot for 10 harvest years. Evaluated traits were number of healthy fruits (NHF), number of symptomatic fruits for witches' broom (NWBF), dry bean weight (DBW), and fruit index (FI). Variance components were estimated by restricted maximum likelihood, and genotypic values were predicted by best linear unbiased prediction. The best-fitted repeatability model for each trait was indicated by Akaike's information criterion. The additive index was used for simultaneous selection for productivity, witches' broom resistance, stability, and adaptability. The heteroscedastic repeatability model showed the best fit for all traits. For HF, WBF, and FI, two and seven harvest years were sufficient for selection aiming at recombination and recommendation, respectively. For NWBF, evaluated only from the seventh year onwards, one harvest year was enough for recombination and three for recommendation. Five biparental crosses with high productivity, witches' broom resistance, stability, and adaptability were selected for recombination and/or for competition trials for recommendation. Such results can help define efficient strategies and optimize cacao breeding programs.

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 97%

Number of harvest years and selection for productivity, witches’ broom resistance, stability, and adaptability in cacao

et al. 2022

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“…The variance estimates of the genotype × year interaction can be considered low and indicate that the different climatic conditions that occurred from one season to another in the same site were not sufficient to alter the ranking of the genotypes. Several studies, when estimating variances related to genotypic and environmental effects and their interaction using mixed models, have found a predominance of genotypic variance in the expression of total phenotypic variance (Carvalho et al., 2016; Farias et al., 2016; Peixoto et al., 2020; Peixoto et al., 2021).…”

Section: Discussionmentioning

confidence: 99%

“…Upland cotton ( Gossypium hirsutum L.) is an herbaceous crop and the most cultivated species worldwide for the production of fiber, providing more than 90% of the world's cotton (Peixoto et al., 2021). In addition to increasing yield, the major target of breeding programs for the agricultural crops, cotton breeding programs seek to improve fiber quality traits to meet the textile industry's requirements (Scarpin et al., 2022; Shahzad et al, 2019; Teodoro et al., 2019).…”

Section: Introductionmentioning

confidence: 99%

“…Several methodologies have been proposed in the last decades to recommend genotypes when G × E interaction is present (van Eeuwijk et al., 2016). Recently, the estimation of variance components by linear mixed models using the restricted maximum likelihood method (REML) and the prediction of genotypic values by best linear unbiased prediction (BLUP) of random effects are one of the main procedures used to investigate the G × E interaction in cotton (Carvalho et al., 2016; Farias et al., 2016; Liu et al., 2022; Peixoto et al., 2020; Peixoto et al., 2021).…”

Section: Introductionmentioning

confidence: 99%

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Genotype selection for fiber quality traits in cotton in the Brazilian Northeast

et al. 2022

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The search for cotton (Gossypium hirsutum L.) genotypes gathering high yield and fiber quality is the main objective of breeding programs. The objectives of this study were: (a) to verify which effects contribute the largest fraction of the total phenotypic variance of cotton fiber quality traits and (b) to recommend the best genotypes for these traits. Eight competition trials of cotton cultivars were carried out between the 2017 and 2019 seasons. Field trials were carried out in Alagoinha (crops seasons 2017, 2018, and 2019) and Barbalha (2017 and in a randomized block design with three repetitions. Fifteen genotypes developed by the cotton plant breeding program of Embrapa Algodão were evaluated. The following fiber quality traits were evaluated: fiber percentage (FP), average boll weight (BW), upper-half mean length, fiber uniformity (UNIF), short fiber index (SFI), fiber strength (STR), elongation (ELG), micronaire (MIC), and fiber maturity. Genotypic values (GVs) for the evaluated traits were estimated. The total phenotypic variance of the fiber quality traits evaluated is mostly composed of genotypic effects. Only the traits FP, BW, and ELG showed significant genotypes × sites interaction. The genotype G1 has high GVs for the traits FP, BW, fiber length, and fiber uniformity. The G15 stood out by gathering high values for UNIF, SFI, and STR.

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Envirotypes applied to evaluate the adaptability and stability of wheat genotypes in the tropical region in Brazil

Casagrande,

Mezzomo,

de Sousa

et al. 2024

Euphytica

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Global climate changes can dramatically impact wheat production in Brazil's Cerrado biome, considered a new wheat farming frontier. Therefore, new approaches are needed to better understand the G×E interaction in environments with high climate variations. Here, we integrate envirotyping, adaptability, and stability techniques to better understand the G×E interaction and provide new insights for the recommendation of tropical wheat genotypes that can perform well in hotter and drier environments. Thirty-six wheat genotypes were evaluated for grain yield in eight eld trials in 2018, 2019, and 2020 in the Brazilian Cerrado region. There is strong evidence that even in irrigated conditions, temperatures > 30 ºC during the booting and heading/ owering stages dramatically reduce the grain yield. Two lines, VI14774 (GY = 3800 kg ha -1 ), and VI14980 (GY = 4093 kg ha -1 ) had better performance in the hotter environment (~ 22% and ~ 32% higher than the grand mean) and are potential germplasm sources for warmer environments at the boosting and heading/ owering stages. Overall, this study provides new insights on how the environment typing can be useful to better understand the genotype-byenvironment interaction and help to breed new climate-resilient wheat cultivars for the cerrado region. In this study, the REML/BLUP and GGE Biplot methods highly correlate in terms of genotype classi cation for selection and recommendation purposes. The genotypes VI 14127, VI 14197, VI 14026, and BRS 264 are the closest to a hypothetical ideal genotype.

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Models for optimizing selection based on adaptability and stability of cotton genotypes

Cited by 7 publications

References 20 publications

Number of harvest years and selection for productivity, witches’ broom resistance, stability, and adaptability in cacao

Number of harvest years and selection for productivity, witches’ broom resistance, stability, and adaptability in cacao

Genotype selection for fiber quality traits in cotton in the Brazilian Northeast

Envirotypes applied to evaluate the adaptability and stability of wheat genotypes in the tropical region in Brazil

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