Evaluation of genotype × environment interaction and stability of corn hybrids and relationship among univariate parametric methods

Changizi, Mahdi; Choukan, R; Heravan, E Majidi; Bihamta, Mohammad Reza; Darvish, F

doi:10.4141/cjps-2013-386

Cited by 6 publications

(15 citation statements)

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“…Therefore, the selection of stable genotypes, based on these measures, caused high yield genotypes to be introduced as stable genotypes. PCA analysis has been used by other researchers to examine the relationships between yield performance and stability indices 32,[47][48][49] .…”

Section: Discussionmentioning

confidence: 99%

Stability of Rice Mutant Lines By Linear Mixed Model And Suggestion A New Index Based For Yield Performance And Stability

Sharifi¹,

Ebadi²,

Hallajian³

2021

Preprint

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Fourteen rice mutant lines with four cultivars were evaluated in a randomized complete block design with three replications in three locations in Iran (Rasht, ChaparSar and Fars province) during two growing seasons (2014-2016). In addition, a new index namely as equivalent index of stability and performance (EISP) is suggested for simultaneous evaluation of yield performance and stability. The heat map of yield performance and WAASB (weighted average of absolute scores based on BLUP (best linear unbiased prediction)) identified G3, G9, G6, G12 and G5 as highly productive and stable genotypes. Based on the analysis by multi-trait stability index (MTSI) G7, G5 and G1 were selected as superior genotypes. The top five superior genotypes based on harmonic mean and of the relative performance of genotypic values (HMRPGV) were G5, G12, G7, G2 and G1. For verification of EISP, its value was calculated for some of multi and univariate stability indices and identified genotypes G5 and G12 as the best ones. Principal component analysis indicated yield positively correlated with HMGV, RPGV, HMRPGV, EIS2P EIbP and EIPiP. In conclusion, G12, G5 and G9 had a significant advantage over all genotypes and could undergo selection or cultivar introduction processes.

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Section: Discussionmentioning

confidence: 99%

Stability of Rice Mutant Lines By Linear Mixed Model And Suggestion A New Index Based For Yield Performance And Stability

Sharifi¹,

Ebadi²,

Hallajian³

2021

Preprint

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“…Pabale and Pandya (2010)indicated that the genotypes GHB-788, GHB-832 and GHB-840 were observed as most stable and widely adapted over environments in the models of Eberhart and Russell (1966), Perkins and Jinks (1968) and Freeman and Perkins (1971). Changizi et al (2014) revealed that the selection of stable genotypes, based on these previous methods, caused high yield genotypes to be introduced as stable genotypes. These results are in agreement with those reported by Saha, (1999), Shinde et al (2002), Chikurte et al (2003), Yahaya et al (2006), Islam et al, (2006) Mohammadi et al (2012) and Karimzadeh et al (2012).…”

Section: -Grain Yield (Ardab/feddan)mentioning

confidence: 99%

“…Hence a study of GEI can lead to successful evaluation of wheat cultivars for stability in yield performance under various environmental conditions. Almost all breeders have used the term ''stability'' to characterize a genotype which ever showed a constant yield across environments (Dehghani et al 2008;Changizi et al 2014).Several statistical methods can be used as important measures of crop yield stability, the most widely used is the joint linear regression analysis as proposed by (Eberhart and Russell, 1966;Perkins and Jink, 1968;Freeman and Perkins, 1971).The selection of stable genotypes, based on stability parameters, caused high yield genotypes to be introduced as stable genotypes. The aims of thisstudy were to estimate stability parameters of the 25 bread wheat genotypes under 8 environments (two year and four water irrigation treatments) to identify genotypes with high yield stability.…”

Section: Introductionmentioning

confidence: 99%

A comparison of bread wheat genotypes under various environments using different stability models

Said

Motawea

Morsy

2020

SVU-International Journal of Agricultural Sciences

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“…Currently the demand for maize was increase, but the existing production supply was still unable to ful ll it 3 . One of the causes of low maize production was caused by the in uence of environmental conditions of cultivation including agro-climate and cultivation techniques 4 . Given the importance of maize and its potential for cultivation throughout Indonesia, the increased in yields must be taken seriously.…”

Section: Introductionmentioning

confidence: 99%

“…The eld experiment was conducted at eight locations in Java island, Indonesia during two seasons used a randomized completed block design with three replications.The experimental results showed that the main effects of growing season, location, hybrid, and GEIs, had a signi cant effect on maize hybrid yields. Stability measurements S (3) , S (6) , NP (2) , NP (3) , NP (4) , and CV i , belong to the concept of dynamic stability that can be used to selected maize hybrids in favorable environments, while other measurements were classi ed as in the concept of static stability. Two maize hybrids were successfully selected to have high and stable yields based on numerical and visual measurements, namely SC3 and SC9.…”

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confidence: 99%

Maize Hybrids: Mega-Environments in Java Island, Indonesia

Wicaksana

Maulana

Yuwariah

et al. 2021

Preprint

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Identification of grain yields on stable and high yielding maize hybrids in a wide environment requires high accuracy. There were many stability measurement methods used in multi-environment experiments. However, the relationship between each measurement was still difficult to understand. The objectives of this study were to: 1. identified the effect of growing season, location, hybrids (genotypes), and their interactions (GEIs) on grain yields; 2. determined the relationship between each stability measurement; 3. selected the stable and high yielding maize hybrids in a wide environment; and 4. determined favorable (discriminativeness) locations for testing. The field experiment was conducted at eight locations in Java island, Indonesia during two seasons used a randomized completed block design with three replications. The experimental results showed that the main effects of growing season, location, hybrid, and GEIs, had a significant effect on maize hybrid yields. Stability measurements S(3), S(6), NP(2), NP(3), NP(4), and CVi, belong to the concept of dynamic stability that can be used to selected maize hybrids in favorable environments, while other measurements were classified as in the concept of static stability. Two maize hybrids were successfully selected to have high and stable yields based on numerical and visual measurements, namely SC3 and SC9. The two hybrids can be used as candidates for a sustainable maize development program. GJRS and KARS were the most discriminativeness environments. Both can be used as a favorable environment for selecting the ideal maize hybrid.

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Evaluation of genotype × environment interaction and stability of corn hybrids and relationship among univariate parametric methods

Cited by 6 publications

References 0 publications

Stability of Rice Mutant Lines By Linear Mixed Model And Suggestion A New Index Based For Yield Performance And Stability

Stability of Rice Mutant Lines By Linear Mixed Model And Suggestion A New Index Based For Yield Performance And Stability

A comparison of bread wheat genotypes under various environments using different stability models

Maize Hybrids: Mega-Environments in Java Island, Indonesia

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