Disease resistance and adaptation of winter wheat lines derived from wide hybridisation under arid environments

IF 0.8 4区农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY

Zemdirbyste-agriculture Pub Date : 2022-09-27 DOI:10.13080/z-a.2022.109.029

I. Motsnyi, М. Lytvynenko, E. Gоlub, T. Nargan, Мykola Nakonechnyy, S. Lyfenko, Оlga Mоlоdchenkоvа, Yaroslav Fanin, Ivan Mіshchеnkо, Аndrii P. Smertenko, Lidiya Mіshchеnkо

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Abstract

A combination of fungal diseases and drought can cause significant yield losses of winter wheat ( Triticum aestivum L.). It is known that alien traits introduced through wide hybridisation contribute to breeding of cultivars with a higher yield potential in arid environments. In this study, the impact of alien genes on the main agronomic traits in the arid environments of the Southern Steppe of Ukraine was analysed. The lines were grown under the arid conditions in 5 and 10 m 2 plots in the 2019–2021 growing seasons. Eight agronomic and six plant pathological traits were assessed and subjected to statistical analysis to comprehend the diversity and connections between the features. Due to the successful introgression of alien genes from all sources involved in hybridisation, most of lines were resistant to one of the rust species. The lines derived from the genotype containing the translocation 1BL.1RS in the karyotype and Triticum timopheevii in the pedigree were resistant to all rust species. There was a negative correlation between the protein content and grain yield in 2020 ( r = −0.40***), and a weak positive correlation was found between the grain yield and resistance to yellow rust ( R sp = 0.19* in 2019 and R sp = 0.26*** in 2020) or tolerance to Septoria leaf blotch ( R sp = 0.27***). Under drought conditions, the grain yield reduced by 32.5% in 2020 and ca. 70% in 2021. The lines containing alien genes Lr42 and Hs showed a higher grain yield than the recurrent and standard ones. For further breeding, eighteen lines with a high TKW, protein content, and grain yield, and resistance to drought or disease were identified, and four promising drought-tolerant lines have been selected.

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干旱环境下广泛杂交的冬小麦品系的抗病性和适应性

真菌病害与干旱的结合可造成冬小麦(Triticum aestivum L.)的重大产量损失。众所周知，通过广泛杂交引进的外来性状有助于在干旱环境中培育出具有更高产量潜力的品种。本研究分析了外来基因对乌克兰南部草原干旱环境下主要农艺性状的影响。在2019-2021年生长季，在干旱条件下分别在5和10 m2的地块上种植。对8个农艺性状和6个植物病理性状进行了评价和统计分析，以了解这些性状之间的多样性和联系。由于参与杂交的所有来源的外源基因的成功渗入，大多数品系对其中一种锈病具有抗性。这些系来源于含有易位1BL的基因型。核型1RS和家系Triticum timopheevii对所有锈病种均具有抗性。2020年蛋白质含量与籽粒产量呈负相关(r = - 0.40***)，籽粒产量与抗黄锈性(r sp = 0.19* *， 2020年r sp = 0.26***)、抗紫斑病性(r sp = 0.27***)呈弱正相关。在干旱条件下，粮食产量在2020年下降了32.5%，在2021年下降了约70%。含有外源基因Lr42和Hs的品系的籽粒产量高于常规品系和常规品系。为进一步选育，鉴定了18个TKW高、蛋白含量高、产量高、抗旱抗病的品系，选育了4个抗旱潜力大的品系。

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

Zemdirbyste-agriculture AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

1.80

自引率

11.10%

发文量

审稿时长

>12 weeks

期刊介绍： Zemdirbyste-Agriculture is a quarterly scientific journal which covers a wide range of topics in the field of agricultural sciences, agronomy. It publishes articles of original research findings in the English language in the field of agronomy (soil and crop management, crop production, plant protection, plant breeding and genetics, biotechnology, plant nutrition, agrochemistry, soil science, microbiology etc.) and related areas. Articles are peer-reviewed. Review, debating papers as well as those of a methodological nature will also be considered.