Evaluation of Genotype × Environment Interactions in Chinese Spring Wheat by the AMMI Model, Correlation and Path Analysis

Li, W.; Yan, Zhang; Wei, Yan; Lan, Xu; Zheng, Yuhong

doi:10.1111/j.1439-037x.2006.00200.x

Cited by 36 publications

(29 citation statements)

References 22 publications

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“…Some researchers studied correlation coeffi cients of various grain yield components with grain yield of bread wheat for its genetic improvement (Uddin et al, 1997;Aycecik and Yildirim, 2006;Akram et al, 2008). Several researchers reported that wheat grain yield was positively correlated with 1000 seed weight (Li et al, 2006;Akram et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…The correlation and path analysis of yield components are useful tools to determine valuable genotypes (Li et al, 2006). Path analysis is a reliable statistical method, which provides tool to quantify the interrelationship of various grain yield components and indicate whether the infl uence is directly refl ected in the grain yield or take some other path ways to produce an eff ect.…”

Section: Introductionmentioning

confidence: 99%

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Path Analysis of Grain Yield and Yield Components and Some Agronomic Traits in Bread Wheat

Janmohammadi¹,

Sabaghnia²,

Nouraein³

2014

Acta Univ. Agric. Silvic. Mendelianae Brun.

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Development of new bread wheat cultivars needs effi cient tools to monitor trait association in a breeding program. This investigation was aimed to characterize grain yield components and some agronomic traits related to bread wheat grain yield. The effi ciency of a breeding program depends mainly on the direction of the correlation between diff erent traits and the relative importance of each component involved in contributing to grain yield. Correlation and path analysis were carried out in 56 bread wheat genotypes grown under fi eld conditions of Maragheh, Iran. Observations were recorded on 18 wheat traits and correlation coeffi cient analysis revealed grain yield was positively correlated with stem diameter, spike length, fl oret number, spikelet number, grain diameter, grain length and 1000 seed weight traits. According to the variance infl ation factor (VIF) and tolerance as multicollinearity statistics, there are inconsistent relationships among the variables and all traits could be considered as fi rst-order variables (Model I) with grain yield as the response variable due to low multicollinearity of all measured traits. In the path coeffi cient analysis, grain yield represented the dependent variable and the spikelet number and 1000 seed weight traits were the independent ones. Our results indicated that the number of spikelets per spikes and leaf width and 1000 seed weight traits followed by the grain length, grain diameter and grain number per spike were the traits related to higher grain yield. The above mentioned traits along with their indirect causal factors should be considered simultaneously as an eff ective selection criteria evolving high yielding genotype because of their direct positive contribution to grain yield.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Path Analysis of Grain Yield and Yield Components and Some Agronomic Traits in Bread Wheat

Janmohammadi¹,

Sabaghnia²,

Nouraein³

2014

Acta Univ. Agric. Silvic. Mendelianae Brun.

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“…The graphic presentation of genotype and environment AMMI analysis values facilitates the visual evaluation of genotype and environment behaviour (Kaya et al, 2002;Li et al, 2006). The layout of the environments and restorer lines on the individual AMMI1 and AMMI2 biplots of the cms lines exhibited considerable differences, confirming the existence of interactions between the environments and hybrid combinations.…”

Section: Resultsmentioning

confidence: 99%

“…The results of AMMI analysis can be graphically presented in biplot form, which shows the main additive effects and interaction effects for all the genotypes and environments (Gabriel, 1971;Yan and Tinker, 2005;Gauch, 2006;Li et al, 2006;Krizmanić et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

Influence of cytoplasmic male sterile and restorer lines on the grain yield stability of sunflower under different environmental conditions

Liović

Mijić

Krizmanić

et al. 2012

Acta Agronomica Hungarica

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Environmental conditions (soil, weather) have the greatest impact on the production of all crops, so it is necessary to check the behaviour of new hybrid combinations under diverse environmental conditions. In 2009 and 2010, field trials were sown at various locations in Croatia to test new sunflower hybrid combinations bred at the Agricultural Institute in Osijek. In both years, the trials were conducted in Beli Manastir (BM09 and BM10), Nova Gradiška (NG09 and NG10) and Osijek (Os09 and Os10), while in 2010, a trial was also sown in Vukovar (Vu10). The genotypes included three cytoplasmic male sterile lines (cms 1-3) as female parent with a set of 8 fertility restorer lines (four branching restorers: oG1-4 and four single-headed restorers: oM5-8). The grain yield data were processed for years and locations (7 environments) using analysis of variance (ANOVA) and Additive Main effects and Multiplicative Interactions (AMMI) analysis with the SAS for Windows 9.1 statistical software. To obtain a better picture of the grain yield stability of the hybrid combinations in different environments, AMMI1 and AMMI2 biplots were made using IRRISTAT for Windows 5.0 software. No significant differences were found between the hybrid combinations of the female lines (cms 1-3). Among the environments, the significantly highest grain yield was recorded in the environment Os09 (4.220 t ha -1 ), followed by BM09 and Os10. As regards the restorers the highest grain yields (statistically on par with each other) were found for hybrid combinations involving oG2 and oM7 (3.726 and 3.666 t ha -1 ). Together, the first two interaction principle components (IPC) explained 85.4, 76.6 and 64.8% of the variability for crosses involving cms1, cms2 and cms3, respectively. The AMMI1 and AMMI2 biplots showed that the highest yielding hybrid combinations did not have the most stable grain yield. The greatest stability was shown by restorer line oM7 in cross combinations with inbred lines cms1 and cms2, while the same restorer line exhibited a large genotype × environment interaction and low stability when crossed with cms3.

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“…モデル (Bradu andGabriel 1978, Gauch 1988, Gauch and Zobel 1988)では，いくつかの安定性指標値が提唱され，品種における形質の安定性評価に用いられている (Zhang et al 1998a, 1998b, Purchase et al 2000, Li et al, 2006, Farshadfar 2008, Farshadfar et al 2011) ．また，遺伝子型の効果を調整し，主成分分析の可視化手段であるバイプロットの理解が容易な GGE バイプロットモデル (Gabriel 1971, Yan andKang 2003)は，よく用いられている手法である．これらの手法は，収量形質の安定性評価のために考案され，用いられてきたが (Crossa 1990, 1991, Yan and Kang 2003) ，現在まで広範な農業形質への応用例が報告されている (Zhang et al 2003, 八城ら 2004，Mohammadi et al 2011, Thangavel et al 2011 …”

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The evaluation of seasonal stability for hardness of rice cakes in glutinous rice cultivars under Niigata Prefecture, Japan

et al. 2014

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Evaluation of Genotype × Environment Interactions in Chinese Spring Wheat by the AMMI Model, Correlation and Path Analysis

Cited by 36 publications

References 22 publications

Path Analysis of Grain Yield and Yield Components and Some Agronomic Traits in Bread Wheat

Path Analysis of Grain Yield and Yield Components and Some Agronomic Traits in Bread Wheat

Influence of cytoplasmic male sterile and restorer lines on the grain yield stability of sunflower under different environmental conditions

The evaluation of seasonal stability for hardness of rice cakes in glutinous rice cultivars under Niigata Prefecture, Japan

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