Assessment of adaptability and seed yield stability of selected quinoa (Chenopodium quinoa Willd.) genotypes in spring cropping systems in cold and temperate regions of Iran

Iranian Society of Crops and Plant Breeding Sciences Pub Date : 2021-02-01 DOI:10.52547/ABJ.22.4.376

M. Bagheri, Z. Anafjeh, M. Taherian, A. Emami, Ali M. Molaie, S. Keshavarz, S. Prof., Khuzestan Agricultural Researcher, Khorasan-e-Razavi Agricultural Prof., West Azarbaijan Agricultural Researcher, Chaharmahal Faculty member, Bakhtiari Agricultural, Seed Researcher

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Abstract

Bagheri, M., Z. Anafjeh, M. Taherian, A. Emami, A. R. Molaie and S. Keshavarz. 2021. Assessment of adaptability and seed yield stability of selected quinoa (Chenopodium quinoa Willd.) genotypes in spring cropping systems in cold and temperate regions of Iran. Iranian Journal of Crop Sciences. 22(4): 376-387. (In Persian). To study the adaptability and seed yield stability, in this experiment, ten quinoa genotypes including; Red Carina, Titicaca, Giza1, Q12, Q18, Q21, Q22, Q26, Q29, Q29 and Q31 were evaluated using randomized complete block design with three replications in 2017 and 2018 in four locations; Karaj, Shahr-e-Kord, Kashmar and Urmia for their adaptability and grain yield stability. The results showed that quinoa genotypes had significant differences for most of the studied traits. However, genotype × location × year interaction effects on plant height, inflorescence length and days to flowering was not significant. Q26 genotype had the highest grain yield (2007 kg.ha) in Shahr-e-Kord. The lowest yield (338.33 kg.ha) was related to Q21 genotype in Karaj. The results of AMMI stability analysis showed that Q29 genotype had the highedt grain yiled stability with the shortest distance from the center of the graph. Cv. Giza1, cv. Red Carina, Q31 and Q26 genotypes also ranked next in terms of grain yield stability. Also, Q12, Red Carina and Q22 genotypes had specific adaptation in Karaj and Kashmar, and Giza1 and Q18 genotypes showed high specific adaptation in Urmia. In general, the results of this experiment showed that all quinoa genotypes were compatible with spring cultivation in experimental sites.

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伊朗寒温带地区春季种植系统中选定藜麦(野生藜麦)基因型的适应性和种子产量稳定性评价

Bagheri, M. Anafjeh, M. Taherian, A. Emami, A. R. Molaie和S. Keshavarz。2021。伊朗寒温带地区春季种植系统中选定藜麦(野生藜麦)基因型的适应性和种子产量稳定性评价作物学报，22(4):376-387。(波斯)。为了研究藜麦的适应性和产量稳定性，本试验选取了10个藜麦基因型:采用2017年和2018年4个地点3个重复的随机完全区组设计对红卡里纳、提提卡卡、吉萨a1、Q12、Q18、Q21、Q22、Q26、Q29、Q29和Q31进行评价;Karaj, shahre - kord, Kashmar和Urmia的适应性和粮食产量稳定性。结果表明，藜麦基因型在大部分性状上存在显著差异。基因型×位置×年互作对株高、花序长和开花天数的影响不显著。Q26基因型产量最高(2007 kg.ha)。卡拉季最低产量为338.33 kg.ha，与Q21基因型有关。AMMI稳定性分析结果表明，Q29基因型籽粒产量稳定性最高，距图中心距离最短。简历。Giza1,简历。红红、Q31和Q26基因型在籽粒产量稳定性方面也排在第二位。Q12、Red Carina和Q22基因型在Karaj和Kashmar具有特异性适应，Giza1和Q18基因型在Urmia具有高度特异性适应。总体而言，本试验结果表明，所有藜麦基因型都与试验地春耕相适应。

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Iranian Society of Crops and Plant Breeding Sciences

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