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宿主基因型和气象条件对春大麦镰孢穗枯病严重度和真菌毒素含量的影响。

Host Genotype and Weather Effects on Fusarium Head Blight Severity and Mycotoxin Load in Spring Barley.

机构信息

Chair of Phytopathology, School of Life Sciences, Freising-Weihenstephan, Technical University of Munich, 85354 Freising, Germany.

Chair of Analytical Food Chemistry, School of Life Sciences, Freising-Weihenstephan, Technical University of Munich, 85354 Freising, Germany.

出版信息

Toxins (Basel). 2022 Feb 8;14(2):125. doi: 10.3390/toxins14020125.

DOI:10.3390/toxins14020125
PMID:35202152
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8879614/
Abstract

Epidemiology of Fusarium Head Blight (FHB) of spring barley is relatively little understood. In a five-year study, we assessed quantitative resistance to FHB in an assortment of 17 spring barley genotypes in the field in southern Germany. To this end, we used soil and spray inoculation of plants with and . This increased disease pressure and provoked genotypic differentiation. To normalize effects of variable weather conditions across consecutive seasons, we used a disease ranking of the genotypes based on quantification of fungal DNA contents and multiple toxins in harvested grain. Together, this allowed for assessment of stable quantitative FHB resistance of barley in several genotypes. Fungal DNA contents were positively associated with species-specific toxins in single years and over several years in plots with soil inoculation. In those plots, plant height limited FHB; however, this was not observed after spray inoculation. A multiple linear regression model of recorded weather parameter and fungal DNA contents over five years identified time periods during the reproductive phase of barley, in which weather strongly influenced fungal colonization measured in mature barley grain. Environmental conditions before heading and late after anthesis showed strongest associations with DNA in all genotypes, whereas for , this was less consistent where we observed weather-dependent associations, depending on the genotype. Based on this study, we discuss aspects of practical resistance breeding in barley relevant to improve quantitative resistance to FHB and associated mycotoxin contaminations.

摘要

春大麦镰孢穗枯病(FHB)的流行病学尚未得到充分了解。在一项为期五年的研究中,我们在德国南部的田间评估了 17 个春大麦基因型对 FHB 的定量抗性。为此,我们使用土壤和喷雾接种和 来感染植物。这增加了疾病压力并引发了基因型分化。为了跨连续季节正常化可变天气条件的影响,我们使用基于真菌 DNA 含量和收获谷物中多种 毒素定量的基因型疾病排名。这使得我们能够评估几种基因型大麦中稳定的定量 FHB 抗性。在单一年份和土壤接种的多个年份中,真菌 DNA 含量与特定物种的 毒素呈正相关。在这些地块中,株高限制了 FHB;然而,在喷雾接种后未观察到这种情况。五年记录的气象参数和真菌 DNA 含量的多元线性回归模型确定了大麦生殖阶段的时间段,其中天气强烈影响了成熟大麦粒中真菌定殖的测量。在所有基因型中,抽穗前和开花后期的环境条件与所有基因型中的 DNA 均显示出最强的关联,而对于 ,情况则不一致,我们观察到取决于基因型的天气相关关联。基于这项研究,我们讨论了与提高 FHB 和相关真菌毒素污染的定量抗性相关的大麦实际抗性育种的方面。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fca2/8879614/4318f6084276/toxins-14-00125-g008.jpg
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