浙江省稻田藤仓镰孢霉对咪鲜胺的敏感性及抗药性菌株的适合度与交互抗性

为明确浙江省水稻恶苗病主要致病菌藤仓镰孢霉Fusarium fujikuroi对咪鲜胺的抗性现状,以1μg/mL为区分剂量,对2017和2018两年采自浙江省绍兴、嘉兴和金华3个地区稻田的共400株藤仓镰孢霉对咪鲜胺的抗性进行了检测,并测定了抗药性菌株的适合度及其对其他常用甾醇脱甲基抑制剂类(DMIs)杀菌剂的交互抗性。结果表明:两年的抗药性菌株频率分别为53.2%和46.7%;多数田间敏感菌株在产孢能力和孢子萌发能力上强于田间抗药性菌株,在菌丝生长速率和致病性方面则两者差异不大;就稻田藤仓镰孢霉而言,咪鲜胺与丙硫菌唑之间存在交互抗性,但咪鲜胺与戊唑醇、苯醚甲环唑、丙环唑、叶菌唑、己唑醇和三唑酮之间均不存在交互抗性。研究表明,浙江省稻田藤仓镰孢霉对咪鲜胺已经产生了严重的抗药性,需要轮换使用不同作用机制的杀菌剂进行防治。     

咪鲜胺对水稻恶苗病菌及其抗药突变体生长发育的影响

采用菌丝生长速率法和显微镜观察,研究了咪鲜胺对水稻恶苗病菌Fusarium fujikuroi生长发育及菌丝形态的影响。结果表明:咪鲜胺对水稻恶苗病菌敏感菌株及其抗药性突变体的菌丝生长、孢子萌发、芽管伸长均有明显的抑制作用,而对产孢量无影响。当咪鲜胺浓度为0.5 μg/mL时,能够完全抑制敏感菌株菌丝的生长,而不能抑制不同抗性水平抗性菌株的菌丝生长。随抗性倍数从24倍增加到112倍,药剂对抗药突变体菌落扩展的影响逐渐减小。咪鲜胺对敏感菌株菌丝生长的EC50 值为0.047 μg/mL,最小抑制浓度(MIC) 为 0.5 μg/mL。 20.00 μg/mL咪鲜胺可完全抑制亲本敏感菌株的孢子萌发,而对不同抗药突变体孢子萌发和芽管伸长的抑制率分别为84.1% ~89.0%和58.5％ ~65.8%,表明抗药突变体在菌丝生长、孢子萌发、芽管伸长等阶段对药剂的敏感性与亲本菌株相比都有了不同程度的降低。10 μg/mL咪鲜胺处理菌丝12 h后,亲本菌株菌丝顶端膨大畸形,抗药突变体的菌丝顶端膨大,并在菌丝上长有许多细小分枝,表明药剂对抗药突变体次生菌丝生长的抑制作用不明显。     

水稻恶苗病菌对三种浸种剂的抗性及抗药菌株的竞争力

从江苏13个地区采集病样,并分离获得水稻恶苗病菌Fusarium moniliforme548个菌株,检测其对多菌灵、咪鲜胺和浸种灵等三种浸种剂的抗性及抗药菌株的竞争力。结果发现,以10μg/mL(MIC)为检测标准,抗多菌灵菌株频率平均为95.8%,其中高抗菌株(MIC>100μg/mL)占82.7%,少数高抗菌株EC50>1000μg/mL,且抗性稳定;菌株敏感性频率分布法测定水稻恶苗病菌对咪鲜胺的敏感基线为(0.00075±0.00003)μg/mL(EC50)和0.85μg/mL(MIC),以3μg/mL(MIC)为检测标准,抗咪鲜胺菌株有8个,抗性菌株频率平均为1.5%,且均为高抗(抗性倍数103.1~126.2)或中抗(抗性倍数24.6~95.0)水平,但经转管培养5~20代后菌株抗性显著下降;以同样方法测定水稻恶苗病菌对浸种灵的敏感基线为(1.265±0.014)μg/mL(EC50)和3.13μg/mL(MIC),以5μg/mL(MIC)为标准,未检测到抗浸种灵菌株。此外,抗、感菌株分生孢子等量混合液接种结果表明,抗多菌灵菌株在水稻上竞争力较强,而抗咪鲜胺菌株竞争力较弱。     

福建省玉米小斑病菌对丙环唑、烯唑醇和咪鲜胺的敏感性

为明确玉米小斑病菌对丙环唑、烯唑醇和咪鲜胺的敏感性,采用菌丝生长速率法测定了自福建省15个市、县分离的185株玉米小斑病菌对3种药剂的敏感性。结果显示:供试菌株对丙环唑、烯唑醇和咪鲜胺的EC50值分别在0.0186~7.779、0.0416~22.32和0.0053~7.930μg/mL之间。敏感性频率分布图显示,玉米小斑病菌群体中已出现对丙环唑、烯唑醇和咪鲜胺敏感性降低的亚群体。以连续单峰频次分布的大多数菌株群体的EC50平均值(0.5199±0.0284)、(0.4079±0.0204)和(0.3818±0.0202)μg/mL分别作为玉米小斑病菌对丙环唑、烯唑醇和咪鲜胺的相对敏感基线,发现各有15.14%、20.00%和17.30%的菌株对丙环唑、烯唑醇和咪鲜胺产生了抗性,抗性倍数最高分别为14.96、54.71和20.77。玉米小斑病菌对3种杀菌剂之间具有显著的交互抗性,而丙环唑和烯唑醇之间的交互抗性相关系数最高,为0.8662。本研究结果可为田间玉米小斑病防控杀菌剂的合理使用提供理论依据。     

2017年-2021年江苏省小麦赤霉病菌群体对4种杀菌剂的抗药性监测

为明确江苏省小麦赤霉病菌群体对常用杀菌剂的抗药性情况,本研究于2017年-2021年连续5年分别从苏南、苏北及苏中小麦种植区采集病穗,分离培养获得赤霉病菌菌株共计4 055株,采用区分剂量法测定了供试菌株对4种杀菌剂(多菌灵、氰烯菌酯、戊唑醇和咪鲜胺)的抗性频率。结果表明:2017年-2021年江苏省田间小麦赤霉病菌对多菌灵的抗性频率分别为58.44%、56.30%、44.68%、48.28%、46.39%,呈逐年下降的趋势;不同地区小麦赤霉病菌对多菌灵的抗药性呈现地区差异性,苏北地区对多菌灵的抗性频率最高,其次是苏中地区,抗性频率最低的是苏南地区。2021年首次在田间采集到对氰烯菌酯、戊唑醇和咪鲜胺的抗性菌株,其抗性频率分别为0.45%、0.89%和0.09%,在以上的抗性菌株中同时具有多菌灵抗性的双重抗性菌株。表明江苏省小麦赤霉病菌对氰烯菌酯、戊唑醇和咪鲜胺产生了抗药性,虽抗性频率较低,仍需尽快制定田间抗性治理方案,延缓田间病菌对常用杀菌剂的抗性发展。     

江苏省水稻恶苗病菌对咪鲜胺和氰烯菌酯的敏感性

对采自江苏省姜堰、靖江和常州3个地区的水稻恶苗病样品进行了病原菌的分离和鉴定,利用菌丝生长速率法测定了病原菌对咪鲜胺和氰烯菌酯的敏感性。结果表明:分离得到77株水稻恶苗病菌Fusarium fujikuroi;咪鲜胺对水稻恶苗病菌的EC50值在0.020~1.333μg/m L之间,分离到的菌株对咪鲜胺均表现为中抗和高抗,其中中抗菌株18株,占23.38%,高抗菌株59株,占76.62%,说明咪鲜胺高抗菌株已经成为江苏省的恶苗病菌优势群体。氰烯菌酯(JS399-19)对水稻恶苗病菌的EC50值在0.012~2.040μg/m L之间,菌株的敏感性频率近似正态分布,EC50均值为(0.684±0.265)μg/m L,建议将此值作为江苏省水稻恶苗病菌对氰烯菌酯的敏感性基线。     

吉林省西瓜蔓枯病菌对咪鲜胺和苯醚甲环唑敏感基线的建立和抗性监测

为明确吉林省西瓜蔓枯病菌Stagonosporopsis citrulli对咪鲜胺和苯醚甲环唑的抗药性水平, 本试验采用菌丝生长速率法测定了151株西瓜蔓枯病菌对这两种药剂的敏感性及两种药剂对西瓜蔓枯病菌的MIC值, 并测定了吉林省7个西瓜主产区的375株菌株对这两种药剂的抗性水平。结果表明, 供试的151株菌株对这两种药剂的敏感性频率分布均呈连续的单峰曲线, 接近正态分布; 对咪鲜胺和苯醚甲环唑的敏感基线分别为(0.203 0±0.135 3) μg/mL和(0.675 9±0.394 2) μg/mL; 两种药剂的最低抑制浓度MIC分别为20 μg/mL和40 μg/mL。供试375株菌株对两种杀菌剂的抗性频率均为0。本研究结果为咪鲜胺和苯醚甲环唑的合理用药策略提供了科学依据, 为后续其抗性风险评估奠定了基础。     

对噻枯唑具有抗性的水稻白叶枯病菌菌株的性质

对田间和室内分别筛选的抗噻枯唑的水稻白叶枯病菌菌株性质研究发现:室内筛选的抗药菌株在水稻上失去致病性,而田间抗药菌株在离体下则不表现抗药性;抗噻枯唑的菌株对敌枯唑表现交互抗性,对叶枯净不表现交互抗性;抗性菌株与敏感菌株混合接种于无药水稻上发现,抗性菌株的竞争力稍低于敏感菌株;供试的抗性菌株在无药平板上转移6代后,抗性仍很稳定,但在无药的水稻上反复接种、分离4代后,抗性水平有所下降。     

江苏省水稻恶苗病菌种群鉴定及抗药性检测

由藤仓赤霉复合种Gibberella fujikuroi species complex引起的恶苗病(rice bakanae disease)是严重危害水稻的种传病害.为探明江苏省水稻恶苗病菌的种群结构及对多菌灵、咪鲜胺和氰烯菌酯的抗药性现状,分别对2019年江苏省13个县(市)和2020年18个县(市)采集的恶苗病...     

中国华北地区瓜类尖孢镰刀菌对咪鲜胺的敏感性及抗药突变株生物学性状研究

为明确中国华北地区瓜类尖孢镰刀菌Fusarium oxysporum Schl.对咪鲜胺的抗药性现状及抗药突变株的生物学性状,采用菌丝生长速率法,分别测定了采自北京、山东、河北等地未使用过咪鲜胺的112株瓜类尖孢镰刀菌对咪鲜胺的敏感性,并通过药剂驯化的方法获得尖孢镰刀菌抗咪鲜胺突变株。结果表明:咪鲜胺对112株瓜类尖孢镰刀菌的平均EC50值为（0.030 1±0.030 4）μg/mL,菌株频率呈连续单峰曲线分布,未发现敏感性明显下降的亚群体,因此,可将该EC50值作为瓜类尖孢镰刀菌对咪鲜胺的敏感基线。药剂驯化共获得7株抗咪鲜胺突变株,其抗性倍数介于6.2~26.8之间;突变株在菌丝生长速率、菌丝干重和致病力等方面均明显低于亲本菌株,差异显著;仅突变株HG13052701-R1的抗药性可以稳定遗传,其他6株抗咪鲜胺突变株的抗药性均不能稳定遗传。室内交互抗性测定结果表明,咪鲜胺仅与戊唑醇之间有交互抗性,与多菌灵和齅霉灵之间均无交互抗性关系。研究表明,瓜类尖孢镰刀菌在药剂选择压下可以形成抗咪鲜胺群体,具有低等抗药性风险。     

The Y123H substitution perturbs FvCYP51B function and confers prochloraz resistance in laboratory mutants of Fusarium verticillioides

Fusarium verticillioides reduces corn yield and contaminates infected kernels with the toxin fumonisin, which is harmful to humans and animals. Previous research has demonstrated that F. verticillioides can be controlled by the azole fungicide prochloraz. Currently, prochloraz is used as a foliar spray to control maize disease in China, which will increase the risk of resistance. Although F. verticillioides resistance to prochloraz has not been reported in the field, possible resistance risk and mechanisms resulting in prochloraz resistance were explored in the laboratory. Four prochloraz‐resistant strains of F. verticillioides were generated by successive selection on fungicide‐amended media. The mycelial growth rates of the mutants were inversely related to the level of resistance. All four mutants were cross‐resistant to the triazole fungicides triadimefon, tebuconazole and difenoconazole, but not to the multisite fungicide chlorothalonil or to the MAP/histidine‐kinase inhibitor fungicide fludioxonil. Based on the Y123H mutation in FvCYP51B, the four resistant mutants were subdivided into two genotypes: PCZ‐R1 mutants with wildtype FvCYP51B and PCZ‐R2 mutants with substitution Y123H in FvCYP51B. Wildtype FvCYP51B complemented the function of native ScCYP51 in Saccharomyces cerevisiae YUG37::erg11, whereas Y123H‐mutated FvCYP51B did not. For the PCZ‐R1 mutants, induced expression of FvCYP51A increased resistance to prochloraz. For the PCZ‐R2 mutants, disruption of FvCYP51B function by the Y123H substitution caused constitutive up‐regulation of FvCYP51A expression and thus resistance to prochloraz.     

Impact of fludioxonil resistance on fitness and cross-resistance profiles of Altrenaria solani laboratory mutants

Sensitivity and inherent resistance risk of Alternaria solani to fludioxonil, cross-resistance profiles and the potential implications of resistance mutations on fitness parameters were investigated. Fludioxonil was highly effective against a wild type A. solani field strain both in vitro (EC₅₀?=?0.05 μg/mL) and in preventive applications on artificially inoculated tomato fruit. Mutants with low [Resistance factor (Rf): 15 based on EC₅₀], medium (Rf: 150–300) and high (Rf: > 1000) levels of phenylpyrrole resistance were isolated from the wild type strain at high frequencies following mutagenesis with UV irradiation and selection on fludioxonil containing medium. Resistant isolates retained their resistance levels even after 9 subcultures on fungicide-free growth medium while they could express their resistant phenotypes in planta. Investigation of cross-resistance relationships showed that fludioxonil resistance mutations also reduce the sensitivity of mutant strains to the aromatic hydrocarbon fungicide quintozene as well as the dicarboximides iprodione and vinclozolin. No cross-resistance was observed between fludioxonil and fungicides with different modes of action such as the sterol biosynthesis inhibitors (DMIs) imazalil and flusilazole and the carboxamide boscalid. All fludioxonil resistant isolates were more sensitive to the anilinopyrimidine pyrimethanil, while only two isolates were less sensitive to the QoI pyraclostrobin compared to the wild-type strain. Study of fitness determining parameters showed that resistance mutation(s) had no adverse effects on mycelial growth, conidial germination and sensitivity to osmotic stress while they had a pleiotropic effect on virulence and conidia production in resistant mutants. Results of the present study indicate that fludioxonil is a highly effective fungicide against A. solani, while the risk of resistance development to this fungicide is considered to be medium making fludioxonil an ideal alternative to high risk fungicides such as boscalid and pyraclostrobin whose performance against early blight has already been compromised by resistance development.

     

Characterisation of benzimidazole-resistant strains of Rhynchosporium secalis

Abstract: Benzimidazole-resistant mutants of Rhynchosporium secalis were easily generated in the laboratory using UV mutagenesis. Three levels of resistance were identified (low, LR; moderate, MR; high, HR), but there was no negative cross-resistance with N-phenylcarbamate fungicides. In all cases pathogenicity was reduced, in some cases drastically. Benzimidazole-resistant field strains were first detected in 1990, some 15 years after this fungicide group was first used in UK barley crops. Unlike laboratory mutants, only HR phenotypes were isolated from the field, and all showed negative cross-resistance to N-phenylcarbamates. These field resistant strains were no less pathogenic than wild-type ones. Carbendazim binding to tubulin-like protein from HR phenotypes, whether generated in the laboratory or isolated from the field, was reduced.     

三七圆斑病菌槭菌刺孢对嘧菌酯、咪鲜胺和苯醚甲环唑的敏感性及生存适合度分析

采用菌丝生长速率法测定了采自云南省5个三七主要产区的34株三七圆斑病原菌槭菌刺孢Mycocentrospora acerina (R. Hartig) Deighton对嘧菌酯、咪鲜胺和苯醚甲环唑的敏感性，并对不同敏感性菌株进行了生存适合度测定。结果表明:咪鲜胺、嘧菌酯及苯醚甲环唑对所有供试槭菌刺孢的菌丝生长均有明显的抑制作用，3种杀菌剂的EC₅₀值分别在0.03~1.91 mg/L、0.18~2.36 mg/L和0.45~2.15 mg/L之间，即该菌株对咪鲜胺的敏感性对高于嘧菌酯和苯醚甲环唑；低敏感性菌株的致病力和菌丝生长速率与敏感性菌株间无显著差异，说明供试槭菌刺孢菌株在当地均具有较高的生存适合度。     

New Cases of Negative Cross-resistance between Fungicides,Including Sterol Biosynthesis Inhibitors

A survey of fungicide resistance in Mycosphaerella graminicola and Tapesia acuformis, two major pathogens of winter wheat in France, respectively responsible for speckled leaf blotch and eyespot, led to the characterization of two types of resistant strains to sterol 14α-demethylation inhibitors (DMIs). Most of the strains of M. graminicola collected in France in 1997–1998 were resistant to all DMIs, and only in a few strains was the resistance to several triazoles associated with increased susceptibility to pyrimidine derivatives (i.e., fenarimol, nuarimol) and triflumizole. On the other hand, in T. acuformis the most prevalent strains were those which exhibited negative-cross resistance between DMIs. In both fungi such a phenomenon could be related to changes in cytochrome P450 sterol 14α-demethylase, the target site of these fungicides. For Botryotinia fuckeliana, the causal agent of grey mould, the extensive monitoring conducted in French vineyards before the marketing of fenhexamid revealed the presence of highly resistant strains to this promising botryticide (only in tests involving mycelial growth measurements). Negative cross-resistance to edifenphos and several sterol biosynthesis inhibitors, such as prochloraz and fenpropimorph, was observed in fenhexamid resistant strains. Synergism of the antifungal action of fenhexamid by cytochrome P450 inhibitors, such as the DMI fungicides, was only recorded in fenhexamid resistant strains. These data and those previously obtained with edifenphos resistant strains of Magnaporthe grisea (rice blast pathogen) suggest that in fenhexamid resistant strains of B. fuckeliana the same cytochrome P450 monooxygenase could be involved in detoxification of fenhexamid and activation of edifenphos. Received 6 September 1999/ Accepted in revised form 13 September 1999     

Resistance to inhibitors of sterol biosynthesis in field isolates or laboratory strains of the eyespot pathogen Pseudocercosporella herpotrichoides

Strains of Pseudocercosporella herpotrichoides collected in France on winter wheat give either fast-growing mycelial colonies with regular margins or slow-growing mycelial colonies with irregular margins. Most of the fastgrowing isolates were sensitive to triadimenol (EC₅₀ below 2mg litre^?1), but some of them were resistant to this inhibitor of sterol C-14 demethylation. In contrast, all the slow-growing strains were highly resistant to triadimenol (EC₅₀ greater than 100 mg litre^?1). This resistance was also expressed in inhibition of germ-tube elongation. Positive cross-resistance was observed between most of the inhibitors of sterol C-14 demethylation, with the exception of some imidazole derivatives (clotrimazole, prochloraz). All the fast-growing strains were tolerant to fenpropimorph and fenpropidin whereas the slow-growing ones were susceptible; the reverse was true with piperalin and tridemorph. All the field isolates were inhibited to the same extent by the inhibitors of squalene-epoxidase, nafifine and terbinafine. Two types of mutant resistant to triadimenol have been induced under laboratory conditions from sensitive fast-growing strains. The most common mutants were resistant to all the inhibitors of sterol C–14 demethylation and also in some conditions to fenpropimorph, tridemorph and the inhibitors of squalene-epoxidase. The other mutants were characterised by a reduced spectrum of cross-resistance between triadimenol and the other inhibitors of sterol biosynthesis. The field isolates and laboratory mutants resistant to triadimenol and propiconazole were also resistant to each of the four enantiomers of these two fungicides.     

赣南脐橙绿霉病菌对常用杀菌剂抗性监测

 本文研究了来自赣南7个县的柑橘绿霉病菌(Penicillium digitatum)种群对该地区常用杀菌剂抑霉唑、咪鲜胺、甲基硫菌灵和百可得的抗性频率、抗性水平和对抑霉唑的抗性分子机制。结果表明:病菌对抑霉唑和咪鲜胺存在基本一致的抗性;2011和2012年病菌种群对抑霉唑和咪鲜胺的抗性频率分别为82%和90%,平均抗性倍数为51.5倍,抗性分子机制均属于IMZ-R3,即CYP51B基因启动子区发生199 bp插入的突变;病菌种群对甲基硫菌灵的抗性频率分别为82%和91%;病菌种群对百可得均表现敏感。本研究为采后柑橘病害防治药剂选择提供了科学的依据。     

The effect of dose and mobility on the strength of selection for DMI fungicide resistance in inoculated field experiments

Plots of spring wheat cv. Baldus were inoculated at GS 13 with four Mycosphaerella graminicola isolates, two relatively susceptible and two relatively resistant to DMI fungicides. Changes in the ratio of relatively susceptible to resistant types following fungicide or water sprays were measured. Three fungicides were compared: flutriafol, which is very mobile within leaves, fluquinconazole, which is less so, and prochloraz, which is almost immobile. All are inhibitors of sterol demethylation. In 1996, fungicide-treated plots were sprayed once with half the recommended dose at GS 39–47. In 1997, three doses were used: one-quarter and one-eighth of the recommended dose and a dual application of two one-eighth recommended doses, a week apart. Isolates were classified using a discriminating dose assay and the ratio of relatively susceptible to relatively resistant isolates in each field plot before and after fungicide application calculated. In both years, the numbers of relatively susceptible and relatively resistant isolates were equal just before fungicide application. All fungicides caused significant selection towards resistance, but the strength of selection varied with fungicide, dose and position in the crop canopy. Fluquinconazole selected most strongly and gave the best control of disease. Interactions between fungicide and dose were not significant. Selection was equally strong all along leaves sprayed with prochloraz, but increased smoothly from base to tip of leaves sprayed with fluquinconazole or flutriafol. Averaged over fungicides, reducing the dose of a single fungicide application from one-quarter to one-eighth slightly reduced selection towards resistance on both leaf layers. The dual one-eighth dose caused twice the change of the single one-eighth dose on the flag leaf, but was similar to a single spray on leaf 2.     

Resistance to acylalanines in Pseudoperonospora cubensis1

Resistance to acylalanine fungicides in Pseudoperonospora cubensis, the downy mildew of cucurbits, is reviewed. Insensitive strains of the fungus predominated during the second year of metalaxyl application in cucumber glasshouses in Greece and Israel. Resistance was detected either on detached cucumber leaves floated on metalaxyl solutions or on potted plants treated (sprayed or drenched) with this fungicide. Metalaxyl-resistant strains of P. cubensis showed good pathogenicity and fitness, and competed favorably with the sensitive strains in the absence of the fungicide. A synergism between these two biotypes resulted in an increased virulence of the resistant forms on metalaxyl-treated plants. Metalaxyl-resistant strains of the pathogen exhibited cross resistance to other acylalanine fungicides. Strains resistant to acylalanines and to the chemically unrelated oomycete-fungicides fosetyl-Al and propamocarb were isolated in Israel, as well. In Greece, however, protective sprays with fosetyl-Al, cymoxanil and mancozeb gave good control of cucumber downy mildew when the pathogen was resistant to metalaxyl. P. cubensis is the first case of fungus which developed resistance to acylalanines in the field.