适合在不同种子引发条件下选择的小麦产量性状的基因型×环境互作

Genotype × Environment Interaction for Wheat Yield Traits Suitable for Selection in Different Seed Priming Conditions.

作者信息

Popović Vera, Ljubičić Nataša, Kostić Marko, Radulović Mirjana, Blagojević Dragana, Ugrenović Vladan, Popović Dragana, Ivošević Bojana

机构信息

Institute of Field and Vegetable Crops, 21000 Novi Sad, Serbia.

Biosense Institute, University of Novi Sad, 21000 Novi Sad, Serbia.

出版信息

Plants (Basel). 2020 Dec 19;9(12):1804. doi: 10.3390/plants9121804.

DOI:10.3390/plants9121804

PMID:33352667

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7767299/

Abstract

Different seed priming treatments are widely used in order to improve the nutritional status of wheat, as well as to improve its grain yield and yield- related traits. The present study aimed to evaluate the impact of seed priming with zinc oxide nanoparticles (ZnO NPs) on the yield related traits, such as, field emergence, plant height, spike length and grain yield per plant of four winter wheat genotypes ( L.) during two vegetation seasons of 2018/2019 and 2019/2020. The seeds of each wheat genotypes were primed with different concentrations of ZnO NPs (0 mg L, 10 mg L, 100 mg L and 1000 mg L) for 48 h in a dark box by continuous aeration and were sown in soil pots with 60-70% moisture content until full maturity. The additive main effects and multiplicative interaction (AMMI) models were used to study the genotype environment effects. The results indicated that the plants response to ZnO nanoparticles significantly increased all of the observed traits of the wheat, while its maximum rates reduced the traits of the wheat. The AMMI analysis revealed the very complex nature of the variation observed in the trial and showed the significant effect of the G×E interaction, in which the first main component was significant for all components.

摘要

为了改善小麦的营养状况以及提高其籽粒产量和产量相关性状，不同的种子引发处理方法被广泛应用。本研究旨在评估2018/2019和2019/2020两个植被季节中，用氧化锌纳米颗粒（ZnO NPs）引发种子对四种冬小麦基因型（L.）产量相关性状的影响，如田间出苗率、株高、穗长和单株籽粒产量。将每种小麦基因型的种子用不同浓度的ZnO NPs（0 mg/L、10 mg/L、100 mg/L和1000 mg/L）在黑暗箱中通过持续通气引发48小时，然后播种在土壤湿度为60 - 70%的花盆中直至完全成熟。采用加性主效应和乘积交互作用（AMMI）模型研究基因型环境效应。结果表明，植物对ZnO纳米颗粒的反应显著提高了小麦所有观察到的性状，而其最高浓度降低了小麦的性状。AMMI分析揭示了试验中观察到的变异的非常复杂的性质，并显示了G×E交互作用的显著影响，其中第一个主成分对所有成分都显著。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b561/7767299/16c328893b35/plants-09-01804-g001.jpg

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适合在不同种子引发条件下选择的小麦产量性状的基因型×环境互作

Genotype × Environment Interaction for Wheat Yield Traits Suitable for Selection in Different Seed Priming Conditions.

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