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Seress D, Molnár O, Matolcsi F, Pintye A, Kovács GM, Németh MZ. Development and implementation of a novel CAPS assay reveals high prevalence of a boscalid resistance marker and its co-occurrence with an azole resistance marker in Erysiphe necator. Plant Dis 2024. [PMID: 38616393 DOI: 10.1094/pdis-06-23-1114-sr] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 04/16/2024]
Abstract
Succinate dehydrogenase inhibitors (SDHIs), are frequently used against powdery mildew (PM) fungi, such as Erysiphe necator, the causal agent of grapevine PM. Fungicide resistance, however, hinders effective control. DNA-based monitoring facilitates the recognition of resistance. We aimed (i) to adapt an effective method to detect a widespread genetic marker of resistance to boscalid, a commonly used SDHI, and (ii) to study the co-occurrence of the marker with a marker of resistance to demethylase inhibitor (DMI) fungicides. Sequencing of the sdhB gene identified a non-synonymous substitution, denoted as sdhB-A794G, leading to an amino acid change (H242R) in the sdhB protein. In vitro fungicide resistance tests showed that E. necator isolates carrying sdhB-A794G were resistant to boscalid. We adopted a cleaved amplified polymorphic sequence-based method and screened more than 500 field samples collected from five Hungarian wine regions in two consecutive years. The sdhB-A794G marker was detected in all wine regions and in both years, altogether in 61.7% of samples, including 20.5% in which both sdhB-A794G and the wild-type were present. The frequency of sdhB-A794G was higher in SDHI-treated vineyards than in vineyards without any SDHI application. A significant difference in the presence of the marker was detected among wine regions; its prevalence ranged from none to 100%. We identified significant co-occurrence of sdhB-A794G with the CYP51-A495T (Y136F) mutation of the CYP51 gene, a known marker of resistance to DMIs. The monitoring of fungicide resistance is fundamental for the successful control of E. necator. Our rapid, cost-effective diagnostic method will support decision-making and fungicide resistance monitoring and management.
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Affiliation(s)
- Diána Seress
- HUN-REN Centre for Agricultural Research, Plant Protection Institute, Budapest, Hungary;
| | - Orsolya Molnár
- HUN-REN Centre for Agricultural Research, Plant Protection Institute, Budapest, Hungary;
| | - Fruzsina Matolcsi
- HUN-REN Centre for Agricultural Research, Plant Protection Institute, Budapest, Hungary
- Eötvös Loránd University, 54616, Institute of Biology, Department of Plant Anatomy, Budapest, Hungary;
| | - Alexandra Pintye
- HUN-REN Centre for Agricultural Research, Plant Protection Institute, Budapest, Hungary
- Eötvös Loránd University, 54616, Institute of Biology, Department of Plant Anatomy, Budapest, Hungary;
| | - Gábor M Kovács
- HUN-REN Centre for Agricultural Research, Plant Protection Institute, Budapest, Hungary
- Eötvös Loránd University, 54616, Institute of Biology, Department of Plant Anatomy, Budapest, Hungary;
| | - Márk Z Németh
- HUN-REN Centre for Agricultural Research, Plant Protection Institute, Budapest, Hungary;
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Jurick WM, Choi MW, Gaskins VL, Peter KA, Cox KD. Would You Like Wood or Plastic? Bin Material, Sanitation Treatments, and Bin Inoculum Levels Impact Blue Mold Decay of Stored Apple Fruit. Plant Dis 2023; 107:1177-1182. [PMID: 36256742 DOI: 10.1094/pdis-05-22-1045-re] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 06/16/2023]
Abstract
Blue mold, caused primarily by Penicillium expansum, is a significant postharvest disease of apples. It not only causes economic losses but also produces mycotoxins that contaminate processed fruit products, which contributes to food waste and loss. Previous research has shown that packing and storage bins harbor Penicillium spores and that steam and hot water efficiently reduce spore inoculum levels. However, studies using wooden and plastic bins regarding their ability to harbor spores, the effect of chemical sanitation treatments on spore levels, and the impact of rinsate from treated bins on apple fruit decay have not been investigated for the Mid-Atlantic area (Okull et al. 2006; Rosenberger 2009). We evaluated different sanitation treatments (chemical and physical) to reduce P. expansum inoculum levels on wooden and plastic bins. We determined that wooden bins bound P. expansum spores four orders of magnitude higher than plastic. When both bin types were treated with steam (wooden) or sterile hot water (plastic), Thyme Guard, or Academy, all treatments resulted in significantly (P < 0.05) lower spore levels compared to untreated controls. Although, plastic bins retained lower numbers of spores after inoculation with contaminated spore rinsate and required much higher concentrations of P. expansum spores in rinsate to retain spores at levels that would lead to decay on apple fruit. Overall, we demonstrated that plastic bins retain fewer spores than wooden bins and that both can be sanitized by various physical or chemical treatments. We envision that our findings will be applicable in the future as the techniques implemented in this study were used to investigate industry-relevant questions. Our goal is that the research techniques and findings become feasible with advancements in technology and/or accompany other shifts in existing processes in commercial pome fruit packing and storage facilities.
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Affiliation(s)
| | - Mei-Wah Choi
- Section of Plant Pathology and Plant-Microbe Biology, Cornell AgriTech, Cornell University, Geneva, NY 14456
| | | | - Kari A Peter
- Penn State University, Fruit Research and Extension Center, Biglerville, PA 17307
| | - Kerik D Cox
- Section of Plant Pathology and Plant-Microbe Biology, Cornell AgriTech, Cornell University, Geneva, NY 14456
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Culbreath AK, Kemerait RC, Brenneman TB, Cantonwine EG, Rucker KS. Effect of In-Furrow Application of Fluopyram on Leaf Spot Diseases of Peanut. Plant Dis 2021; 105:2374-2379. [PMID: 33656366 DOI: 10.1094/pdis-01-21-0052-re] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 06/12/2023]
Abstract
In peanut (Arachis hypogaea) production, in-furrow applications of the premix combination of the succinate-dehydrogenase-inhibitor (SDHI) fungicide and nematicide fluopyram and the insecticide imidacloprid are used primarily for management of nematode pests and for preventing feeding damage on foliage caused by tobacco thrips (Frankliniella fusca). Fluopyram is also active against many fungal pathogens. However, the effect of in-furrow applications of fluopyram on early leaf spot (Passalora arachidicola) or late leaf spot (Nothopassalora personata) has not been characterized. The purpose of this study was to determine the effects of in-furrow applications of fluopyram + imidacloprid or fluopyram alone on leaf spot epidemics. Field experiments were conducted in Tifton, GA in 2015, 2016, and 2018 to 2020. In all experiments, in-furrow applications of fluopyram + imidacloprid provided extended suppression of early leaf spot and late leaf spot epidemics compared with the nontreated control. In 2020, there was no difference between the effects of fluopyram + imidacloprid and fluopyram alone on leaf spot epidemics. Results indicated that fluopyram could complement early-season leaf spot management programs. Use of in-furrow applications of fluopyram should be considered as an SDHI fungicide application for resistance management purposes.
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Affiliation(s)
- Albert K Culbreath
- Department of Plant Pathology, The University of Georgia, Coastal Plain Experiment Station, 2360 Rainwater Road, Tifton, GA 31793-0748
| | - Robert C Kemerait
- Department of Plant Pathology, The University of Georgia, Coastal Plain Experiment Station, 2360 Rainwater Road, Tifton, GA 31793-0748
| | - Timothy B Brenneman
- Department of Plant Pathology, The University of Georgia, Coastal Plain Experiment Station, 2360 Rainwater Road, Tifton, GA 31793-0748
| | - Emily G Cantonwine
- Department of Biology, Valdosta State University, 1500 N. Patterson St., Valdosta, GA 31698
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Owen WJ, Yao C, Myung K, Kemmitt G, Leader A, Meyer KG, Bowling AJ, Slanec T, Kramer VJ. Biological characterization of fenpicoxamid, a new fungicide with utility in cereals and other crops. Pest Manag Sci 2017; 73:2005-2016. [PMID: 28471527 PMCID: PMC5599960 DOI: 10.1002/ps.4588] [Citation(s) in RCA: 15] [Impact Index Per Article: 2.1] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 01/05/2017] [Revised: 03/22/2017] [Accepted: 04/05/2017] [Indexed: 05/11/2023]
Abstract
BACKGROUND The development of novel highly efficacious fungicides that lack cross-resistance is extremely desirable. Fenpicoxamid (Inatreq™ active) possesses these characteristics and is a member of a novel picolinamide class of fungicides derived from the antifungal natural product UK-2A. RESULTS Fenpicoxamid strongly inhibited in vitro growth of several ascomycete fungi, including Zymoseptoria tritici (EC50 , 0.051 mg L-1 ). Fenpicoxamid is converted by Z. tritici to UK-2A, a 15-fold stronger inhibitor of Z. tritici growth (EC50 , 0.0033 mg L-1 ). Strong fungicidal activity of fenpicoxamid against driver cereal diseases was confirmed in greenhouse tests, where activity on Z. tritici and Puccinia triticina matched that of fluxapyroxad. Due to its novel target site (Qi site of the respiratory cyt bc1 complex) for the cereals market, fenpicoxamid is not cross-resistant to Z. tritici isolates resistant to strobilurin and/or azole fungicides. Across multiple European field trials Z. tritici was strongly controlled (mean, 82%) by 100 g as ha-1 applications of fenpicoxamid, which demonstrated excellent residual activity. CONCLUSIONS The novel chemistry and biochemical target site of fenpicoxamid as well as its lack of cross-resistance and strong efficacy against Z. tritici and other pathogens highlight the importance of fenpicoxamid as a new tool for controlling plant pathogenic fungi. © 2017 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.
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Affiliation(s)
- W John Owen
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Dow AgroSciences LLC Zionsville RdIndianapolisINUSA
| | - Chenglin Yao
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Dow AgroSciences LLC Zionsville RdIndianapolisINUSA
| | - Kyung Myung
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Dow AgroSciences LLC Zionsville RdIndianapolisINUSA
| | - Greg Kemmitt
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Dow AgroSciences LLC Zionsville RdIndianapolisINUSA
| | - Andrew Leader
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Dow AgroSciences LLC Zionsville RdIndianapolisINUSA
| | - Kevin G Meyer
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Dow AgroSciences LLC Zionsville RdIndianapolisINUSA
| | | | - Thomas Slanec
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Dow AgroSciences LLC Zionsville RdIndianapolisINUSA
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Zhang S, Mersha Z, Vallad GE, Huang CH. Management of Powdery Mildew in Squash by Plant and Alga Extract Biopesticides. Plant Pathol J 2016; 32:528-536. [PMID: 27904459 PMCID: PMC5117861 DOI: 10.5423/ppj.oa.05.2016.0131] [Citation(s) in RCA: 3] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Subscribe] [Scholar Register] [Received: 05/31/2016] [Revised: 08/05/2016] [Accepted: 08/15/2016] [Indexed: 06/06/2023]
Abstract
Although many fungicides are registered for use to control powdery mildew on cucurbits, management of resistance to fungicides in pathogen populations still remains a major challenge. Two biopesticides Regalia SC and HMO 736 were evaluated in the greenhouse and field for their efficacy against powdery mildew in squash. In greenhouses, Regalia SC alone significantly (P < 0.05) reduced powdery mildew compared to the nontreated control, and was as effective as the chemical standard Procure 480SC (triflumizole). In alternation with Procure 480SC, Regalia SC demonstrated greater or equivalent effects on reducing the disease. HMO 736 alone showed varying levels of disease control, but alternating with Procure 480SC significantly improved control efficacy. In addition, application of Regalia SC or HMO 736 each in alternation with Procure 480SC significantly increased the chlorophyll content in leaves and the total fresh weight of squash plants, when compared with the water control, Regalia SC and HMO 736 alone. In field trials, application of Regalia SC and HMO 736 each alone significantly reduced disease severity in one of two field trials during the early stage of disease development, but not during later stages when disease pressure became high. Both Regalia SC and HMO 736 each applied in alternation with Procure 480SC significantly improved the control efficacy compared to Procure 480SC alone. Results from this study demonstrated that an integrated management program can be developed for powdery mildew in squash by integrating the biopesticides Regalia SC, HMO 736 with the chemical fungicide Procure 480SC.
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Affiliation(s)
- Shouan Zhang
- Tropical Research and Education Center, University of Florida’s Institute of Food and Agricultural Sciences (UF/IFAS), Homestead, FL 33031,
USA
| | - Zelalem Mersha
- Tropical Research and Education Center, University of Florida’s Institute of Food and Agricultural Sciences (UF/IFAS), Homestead, FL 33031,
USA
| | - Gary E. Vallad
- Gulf Coast Research and Education Center, University of Florida’s Institute of Food and Agricultural Sciences (UF/IFAS), Wimauma, FL 33598,
USA
| | - Cheng-Hua Huang
- Gulf Coast Research and Education Center, University of Florida’s Institute of Food and Agricultural Sciences (UF/IFAS), Wimauma, FL 33598,
USA
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