期刊
PHYTOPATHOLOGY
卷 111, 期 7, 页码 1158-1165出版社
AMER PHYTOPATHOLOGICAL SOC
DOI: 10.1094/PHYTO-10-20-0457-R
关键词
crown rust; disease resistance; fungal pathogens; host-pathogen test; oat; Pc genes; Puccinia coronata f. sp. avenae
资金
- Ministry of Agriculture and Rural Development of the Republic of Poland
This study characterized the pathotype structure of Puccinia coronata in Poland, revealing high pathotype diversity among isolates collected from different regions and years. The virulence of P. coronata isolates varied significantly between locations and years, with some isolates being able to overcome certain oat differentials while displaying modest overall virulence levels. This information can be valuable for developing resistance breeding strategies and selecting effective major genes for incorporation into cultivars.
Crown rust caused by Puccinia coronata f. sp. avenae is one of the most destructive diseases of oat, regularly occurring worldwide and leading to significant yield losses. This article characterizes the pathotype structure of P. coronata in Poland and evaluates the potential of crown rust race-specific resistance genes for use in practical breeding conditions in this region. A total of 466 isolates were derived from four locations of intensive oat breeding in Poland in 2017 to 2019, representing P. coronata populations from West, East, South, and Central Poland. Their virulence structure was determined on 35 Pc differential lines in laboratory conditions. In each year and location, high pathotype diversity was observed. In total, 347 (75%) pathotypes were detected. On average P. coronata isolates collected in 2017 and 2018 were virulent to 11% of the oat differentials. In 2019 isolates from East and South of Poland were able to overcome 18.3 and 18.5% of the oat differentials, respectively. There was no isolate virulent against Pc51, Pc52, and Pc91 crown rust resistance genes. P. coronata isolates displayed modest virulence levels, high diversity, and no prevailing pathotype. The information provided here may be helpful for development of resistance breeding strategies and in choosing the most effective major genes for pyramiding into cultivars.
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