[1]Ou S H. Rice Disease[R]. London:Common Wealth Mycological Institute,1972:288-295.
[2]Tanaka E,Ashizawa T,Sonoda R,et al. Villosiclava virens gen. nov.,comb. nov.,the teleomorph of Ustilaginoidea virens,the causal agent of rice false smut[J]. Mycotaxon,2008,106:491-501.
[3]曹奎荣,钟雪明,陈婕,等. 稻曲病对水稻产量和品质的影响[J]. 浙江农业科学,2018,59(10):1868-1870.
[4]Li P X,Evans C D,Wu Y Z,et al. Evolution of the total syntheses of ustiloxin natural products and their analogues[J]. Journal of the American Chemical Society,2008,130(7):2351-2364.
[5]Luduena R F,Roach M C,Prasad V,et al. Interaction of ustiloxin-A with bovine brain tubulin[J]. Biochemical Pharmacology,1994,47(9):1593-1599.
[6]Zhang Y,Zhang K,Fang A F,et al. Specific adaptation of Ustilaginoidea virens in occupying host florets revealed by comparative and functional genomics[J]. Nature Communications,2014,5:3849-3860.
[7]Qiu J H,Meng S,Deng Y Z,et al. Ustilaginoidea virens:a fungus infects rice flower and threats world rice production[J]. Rice Science,2019,26(4):199-206.
[8]陈旭,邱结华,熊萌,等. 稻曲病研究进展[J]. 中国稻米,2019,25(5):30-36.
[9]杨晓杰,张少华,李为争,等. 粮食作物病虫害用药规律——基于对应分析途径的简明图解[J]. 江苏农业科学,2022,50(7):1-9.
[10]陶友权. 水稻稻曲病的发生规律与综合防控策略[J]. 安徽农学通报,2019,25(14):80-81.
[11]王昆,曹友仁,李振兴,等. 不同药剂防治水稻稻曲病田间药效试验[J]. 湖南农业科学,2022(4):50-52.
[12]许淑莲. 稻曲病的发生与防治[J]. 现代农村科技,2019(6):32-33.
[13]Zhou Y X,Li H H,Yu J J,et al. First report of propiconazole resistance in field isolates of Ustilaginoidea virens on rice in Jiangsu Province of East China[J]. Plant Disease,2017,101(5):840-841.
[14]Zhou Y X,Yua J J,Pan X Y,et al. Characterization of propiconazole field-resistant isolates of Ustilaginoidea virens[J]. Pesticides Biochemistry and Physiology,2108,153:144-151.
[15]Pan X Y,Cao H J,Yu J J,et al. Monitoring and analysis of rice pathogen Ustilaginoidea virens isolates with resistance to sterol demethylation inhibitors in China[J]. Phytopathology Research,2020,2:4.
[16]潘夏艳,朱凤,齐中强,等. 江苏省稻瘟病菌对稻瘟灵的抗药性监测及特性分析[J]. 植物病理学报,2022,52(3):416-424.
[17]俞咪娜,于俊杰,曹慧娟,等. 稻曲病病菌Zn2(Ⅱ)Cys6型转录因子UvZC1基因的克隆及功能分析[J]. 江苏农业学报,2021,37(6):1400-1408.
[18]Fan J,Yang J,Wang Y Q,et al. Current understanding on Villosiclava virens,a unique flower-infecting fungus causing rice false smut disease[J]. Molecular Plant Pathology,2016,17(9):1321-1330.
[19]杜一平. 稻曲病的发生与防治[J]. 现代农村科技,2020(10):37.
[20]杜元中. 水稻稻曲病的发病因素及防控措施[J]. 农技服务,2021,38(7):82-83.
[21]邢艳,王军,杨娟,等. 水稻稻曲病的发生规律及防治方法[J]. 植物医生,2021,34(4):67-71.
[22]Price C L,Parker J E,Warrilow A G S,et al. Azole fungicides-understanding resistance mechanisms in agricultural fungal pathogens[J]. Pest Management Science,2015,71(8):1054-1058.
[23]Schepers H T A M. Fitness of isolates of Sphaerotheca fuliginea resistant or sensitive to fungicides which inhibit ergosterol biosynthesis[J]. Netherlands Journal of Plant Pathology,1985,91:65-76.
[24]Tucker M A,Lopez-Ruiz,F,Cools H J,et al. Analysis of mutations in West Australian populations of Blumeria graminis f. sp. hordei CYP51 conferring resistance to DMI fungicides[J]. Pest Management Science,2019,76(4):1265-1272.
[25]Wang F,Lin Y,Yin W X,et al. The Y137H mutation of VvCYP51 gene confers the reduced sensitivity to tebuconazole in Villosiclava virens[J]. Scientific Reports,2015,5:17575-17587.
[1]徐晗,闫晗,褚晋,等.稻曲病菌致病力分化与接种处理条件优化[J].江苏农业科学,2020,48(18):128.
Xu Han,et al.Study on pathogenic differentiation and inoculation condition optimization of Ustilaginoidea virens[J].Jiangsu Agricultural Sciences,2020,48(5):128.