1. Pathotype Characterization of Plasmodiophora brassicae by European Clubroot Differential and Williams Sets in China.
- Author
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Zeng L, Zhang Y, Wu Y, Zhang X, Zhao C, Ren L, Huang J, Cheng X, Liu S, and Liu L
- Subjects
- China, Plant Roots parasitology, Virulence, Brassica parasitology, Disease Resistance, Plasmodiophorida genetics, Plasmodiophorida physiology, Plasmodiophorida pathogenicity, Plant Diseases parasitology
- Abstract
Clubroot disease caused by the soil-borne Plasmodiophora brassicae is devastating to Brassicaceae crops and spreading rapidly in China in recent years, resulting in great yield losses annually. Virulence of P. brassicae populations specializes and is in dynamic change in the fields. Information on the pathotypes and their distributions is crucial to control the clubroot disease. Presently, the pathotypes of P. brassicae prevalent in China, however, are not well determined. In this study, we used 16 Brassica hosts, including the European Clubroot Differential (ECD) and Williams sets, to designate the pathotypes of 33 P. brassicae populations from 13 provinces. The 33 P. brassicae populations could be divided into 26 pathotypes by the ECD set or seven pathotypes by the Williams set, revealing ECD16/15/31 and ECD16/31/31 or P4 and P2 as the predominant pathotypes. We found that the Brassica rapa differentials ECD01 to ECD04 showed stable and high levels of resistance to most pathotypes of P. brassicae in China, thereby providing valuable resources for clubroot-resistance breeding of Brassicaceae crops. The ECD set exhibited much higher discernibility and further divided the isolates that belonged to the P4 pathotype into 10 ECD pathotypes. Isolates of ECD16/23/31 and ECD16/15/31 were strongly virulent on Huashuang 5R, the first and widely used clubroot-resistant cultivar of oilseed rape in China. As we learn, 26 pathotypes are the most diverse populations of P. brassicae characterized until now in China. Our study provides new insights into virulence specialization of P. brassicae and their geographical distributions, contributing to exploitation of clubroot-resistant resources and the field layout of the present resistant Brassica crops in China., Competing Interests: The author(s) declare no conflict of interest.
- Published
- 2024
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