Geospatial share of fungicide resistant Botrytis cinerea mutations in the Tokaj and Eger wine regions according to local pest management strategies

Acta Phytopathologica Et Entomologica Hungarica Pub Date : 2024-06-05 DOI:10.1556/038.2024.00205

Júlia Hegyi-Kaló, Richard F. Golen, Z. Karácsony, Adrienn Gomba-Tóth, Thomas Cels, Á. I. Hegyi, K. Váczy

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Abstract

Botrytis cinerea is one of the fungal pathogens with the widest host plant spectrum, causing serious yield losses and significant economic damage in vineyards from year to year. As an ubiquitous, polyphagous fungal pathogen, with both saprophytic and parasitic lifestyle. The sequential use of active substances belonging to the same chemical family to protect vineyards can lead to an increase in fungal chemical resistance, which is reflected in the enrichment of point mutations in the genomic regions coding proteins involved in the mechanism of action of different pesticides. The aim of our studies was to compare the sensitivity to different fungicides of B. cinerea populations in two wine regions with different pest management practices: the Tokaj region, where the presence of B. cinerea is necessary to produce noble rot wines, and the adjacent Eger Region, where a total protection against B. cinerea is desired. Our study is the first Hungarian report of some previously studied resistance mutations in ERG27 and SDHB protein-coding genes. We identified point mutations in ERG27 transmembrane domain that have not been previously described but may affect the emergence of resistance to certain fungicides. Our study shows that the B. cinerea population of the Northern Hungary region is consistently characterized by an increase in fenhexamid resistance.

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托卡伊和埃格尔葡萄酒产区根据当地虫害管理策略确定的抗杀菌剂灰葡萄孢菌变异的地理空间比例

葡萄灰霉病是寄主植物分布最广的真菌病原体之一，每年都会给葡萄园造成严重的产量损失和巨大的经济损失。它是一种无处不在的多食性真菌病原体，具有吸食和寄生两种生活方式。连续使用属于同一化学家族的活性物质来保护葡萄园，会导致真菌耐药性的增加，这反映在不同杀虫剂作用机制中编码蛋白质的基因组区域中点突变的富集上。我们研究的目的是比较两个葡萄酒产区不同虫害管理方法下的葡萄孢菌对不同杀菌剂的敏感性：托卡伊产区和邻近的埃格尔产区，前者是生产贵腐葡萄酒的必要条件，而后者则是希望完全防止葡萄孢菌的危害。我们的研究是匈牙利首次报告以前研究过的 ERG27 和 SDHB 蛋白编码基因中的一些抗性突变。我们发现了 ERG27 跨膜结构域中的点突变，这些突变以前未被描述过，但可能会影响对某些杀真菌剂产生抗性。我们的研究结果表明，匈牙利北部地区的 B. cinerea 种群一直具有芬克菌胺抗性增加的特点。

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来源期刊

Acta Phytopathologica Et Entomologica Hungarica Agricultural and Biological Sciences-Plant Science

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal publishes papers on the infectious diseases of plants, damages caused by insects and deals with the basic aspects of chemical and biological protection. Within its field of interest additional topics such as resistance against plant diseases, and physiological, biochemical and molecular questions of plant resistance and susceptibility are also discussed. Publishes book reviews and advertisements.