Nonparametric Analysis of Genotype Grain Yield Performance of Barley Trials Based on Ranks

IF 0.9 4区农林科学 Q3 AGRONOMY

Romanian Agricultural Research Pub Date : 2022-01-01 DOI:10.59665/rar3911

B. Vaezi, Naser Sabgahnia, A. Mehraban, H. Hatami-Maleki

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引用次数: 1

Abstract

Plant breeding has been concerned with genotype by environment (GE) interaction and high yielding genotypes with stable performance are desirable while this target is difficult to achieve due to high environmental variations and unpredictable GE interaction. Stability of grain yield performance of 18 barley genotypes was evaluated at 5 locations for 3 years in the rainfed conditions and it was studied through 25 nonparametric stability methods. Four nonparametric tests indicated highly significant GE interaction due to differential performance of genotypes across fifteen environments. Regarding mean yield and six Hühn’s statistics, genotype G12 (1946 kg ha-1) was the most favorable genotype while based on the RN1, G4, G10 and G11 were the most stable genotypes. Genotypes G4, G8 and G10 were the most favorable genotypes according to rank-sum while genotypes G2, G13 and G18 were the most favorable genotypes based on nonparametric superiority. The relative interactivity index identified G4, G16 and G8 as the most stable genotypes while the genotypic classification identified G1, G2, G13 and G18 as the most stable genotypes. Clustering of the nonparametric stability methods indicated that there were two groups with different static and dynamic characteristics. In this study, five nonparametric stability methods as GC, FM, PA, RN2 and KR2 were associated with high grain yield and reflected the dynamic concept of stability, but the other twenty nonparametric stability methods were not positively correlated with yield and characterized a static concept of stability. Finally, genotypes genotype G13 (2114.13 kg ha-1) and G18 (2062.69 kg ha-1) were found to be the most favorable genotypes and are thus recommended for commercial release in semiarid areas of Iran.

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基于秩的大麦基因型籽粒产量性能的非参数分析

植物育种一直关注环境相互作用下的基因型，高产且性能稳定的基因型是人们追求的目标，但由于环境的高度变化和基因相互作用的不可预测性，这一目标很难实现。采用25种非参数稳定性方法，对18个大麦基因型在5个地点3年旱作条件下的籽粒产量性能稳定性进行了评价。四项非参数测试表明，由于基因型在15种环境中的差异表现，转基因相互作用非常显著。从平均产量和h hn’s 6项统计数据来看，G12 (1946 kg ha-1)是最有利的基因型，而基于RN1, G4、G10和G11是最稳定的基因型。G4、G8和G10基因型为最有利基因型，G2、G13和G18基因型为最有利基因型。相对互作指数鉴定G4、G16和G8为最稳定基因型，基因型分类鉴定G1、G2、G13和G18为最稳定基因型。对非参数稳定性方法的聚类分析表明，存在静态和动态特性不同的两组。在本研究中，GC、FM、PA、RN2和KR2等5种非参数稳定方法与高产相关，体现了动态稳定概念，而其他20种非参数稳定方法与高产不呈正相关，体现了静态稳定概念。最后，基因型G13 (2114.13 kg ha-1)和G18 (2062.69 kg ha-1)被认为是最有利的基因型，因此建议在伊朗半干旱地区进行商业释放。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Romanian Agricultural Research 农林科学-农艺学

CiteScore

0.90

自引率

28.60%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal ROMANIAN AGRICULTURAL RESEARCH is an “open access” one, which publishes original articles, short communications, presenting new scientific results – theoretical, experimental and technical – on plant breeding and genetics, physiology, biotechnology, mineral nutrition and plant protection, in field crops. Reviews on up-to date subjects and recent research, preferably from Eastern Europe, may also be published.