Comparative analyses of fungicide sensitivity and SSR marker variations indicate a low risk of developing azoxystrobin resistance in Phytophthora infestans

Knowledge of the evolution of fungicide resistance is important in securing sustainable disease management in agricultural systems. In this study, we analyzed and compared the spatial distribution of genetic variation in azoxystrobin sensitivity and SSR markers in 140 Phytophthora infestans isolates...

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Bibliographic Details
Published in:Scientific reports 2016-02, Vol.6 (1), p.20483, Article 20483
Main Authors: Qin, Chun-Fang, He, Meng-Han, Chen, Feng-Ping, Zhu, Wen, Yang, Li-Na, Wu, E-Jiao, Guo, Zheng-Liang, Shang, Li-Ping, Zhan, Jiasui
Format: Article
Language:English
Subjects:
45/22
631/181
631/326/421
Azoxystrobin
China
Drug Resistance - drug effects
Fungicides
Fungicides, Industrial - pharmacology
Genetic diversity
Genetic Variation
Global warming
Growth rate
Humanities and Social Sciences
Late blight
Methacrylates - pharmacology
Microsatellite Repeats - genetics
multidisciplinary
Pathogens
Pesticides
Phytophthora infestans - drug effects
Phytophthora infestans - genetics
Phytophthora infestans - growth & development
Plant Leaves - parasitology
Pyrimidines - pharmacology
Reproductive fitness
Science
Solanum tuberosum - parasitology
Spatial distribution
Strobilurins
Temperature
Temperature effects
Temperature tolerance
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Summary:Knowledge of the evolution of fungicide resistance is important in securing sustainable disease management in agricultural systems. In this study, we analyzed and compared the spatial distribution of genetic variation in azoxystrobin sensitivity and SSR markers in 140 Phytophthora infestans isolates sampled from seven geographic locations in China. Sensitivity to azoxystrobin and its genetic variation in the pathogen populations was measured by the relative growth rate (RGR) at four fungicide concentrations and determination of the effective concentration for 50% inhibition (EC 50 ). We found that all isolates in the current study were sensitive to azoxystrobin and their EC 50 was similar to that detected from a European population about 20 years ago, suggesting the risk of developing azoxystrobin resistance in P. infestans populations is low. Further analyses indicate that reduced genetic variation and high fitness cost in resistant mutations are the likely causes for the low evolutionary likelihood of developing azoxystrobin resistance in the pathogen. We also found a negative correlation between azoxystrobin tolerance in P. infestans populations and the mean annual temperature of collection sites, suggesting that global warming may increase the efficiency of using the fungicide to control the late blight.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep20483