Volatiles from biofumigant plants have a direct effect on carpogenic germination of sclerotia and mycelial growth of Sclerotinia sclerotiorum

Sclerotinia sclerotiorum, which can cause Sclerotinia stem rot, is a prevalent plant pathogen. This study aims to evaluate the application potential of benzovindiflupyr, a new generation of succinate dehydrogenase inhibitor (SDHI), against S. sclerotiorum. In our study, 181 isolates collected from different crops (including eggplant [n = 34], cucumber [n = 27], tomato [n = 29], pepper [n = 35], pumpkin [n = 32], and kidney bean [n = 25]) in China were used to establish baseline sensitivity to benzovindiflupyr. The frequency distribution of the 50% effective concentration (EC50) values of benzovindiflupyr was a unimodal curve, with mean EC50 values of 0.0260 ± 0.011 μg/ml, and no significant differences in mean EC50 existed among the various crops (P > 0.99). Benzovindiflupyr can effectively inhibit mycelial growth, sclerotial production, sclerotial shape, and myceliogenic and carpogenic germination of the sclerotia of S. sclerotiorum. In addition, benzovindiflupyr showed good systemic translocation in eggplant. Using benzovindiflupyr at 100 μg/ml yielded efficacies of 71.3 and 80.5% for transverse activity and cross-layer activity, respectively, which were higher than those of acropetal and basipetal treatments (43.6 and 44.7%, respectively). Greenhouse experiments were then carried out at two experimental sites for verification. Applying benzovindiflupyr at 200 g a.i. ha−1 significantly reduced the disease incidence and severity of Sclerotinia stem rot. Overall, the results demonstrated that benzovindiflupyr is a potential alternative product to control Sclerotinia stem rot.

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Stimulatory Effects of Sublethal Doses of Dimethachlon on Sclerotinia sclerotiorum

Plant Disease ◽

10.1094/pdis-10-13-1059-re ◽

2014 ◽

Vol 98 (10) ◽

pp. 1364-1370 ◽

Cited By ~ 21

Author(s):

Feng Zhou ◽

Hong-Jie Liang ◽

Ya-Li Di ◽

Hong You ◽

Fu-Xing Zhu

Keyword(s):

Oilseed Rape ◽

Sclerotinia Sclerotiorum ◽

Mycelial Growth ◽

Plant Disease ◽

Pathogenic Fungi ◽

Potato Dextrose Agar ◽

Detached Leaves ◽

Sublethal Doses ◽

Fungal Phytopathogens ◽

Plant Disease Management

Growth and virulence stimulations of sublethal doses of fungicides on plant-pathogenic fungi and oomycetes have been reported and the stimulatory effects are potentially relevant to plant disease management. Sclerotinia sclerotiorum is one of the most devastating and economically important necrotrophic fungal phytopathogens, capable of infecting more than 400 species of plants worldwide. In order to study stimulatory effects of sublethal doses of fungicides on S. sclerotiorum, 55 dimethachlon-sensitive isolates and 3 dimethachlon-resistant isolates of S. sclerotiorum were assayed to determine effects of sublethal doses of dimethachlon on mycelial growth rate on potato dextrose agar (PDA) media and virulence on oilseed rape plants. Results showed that all 3 dimethachlon-resistant isolates and 13 of the 55 sensitive isolates exhibited stimulatory responses to sublethal doses of dimethachlon. Dimethachlon-resistant isolates grew significantly (P < 0.05) faster on PDA media amended with dimethachlon at 0.5 to 4 μg/ml than on fungicide-free PDA media. As for virulence on detached leaves of oilseed rape plants, lesion diameters of dimethachlon-resistant isolates after growth on PDA media amended with dimethachlon at 0.5 to 2 μg/ml were significantly larger (P < 0.05) than the control. The maximum stimulatory effects were 42.40 to 59.80%. In pot experiments, for both dimethachlon-sensitive and -resistant isolates, significant (P < 0.05) virulence stimulations were observed after spraying with dimethachlon at a concentration of 2 μg/ml. After growing on dimethachlon-amended PDA media, H2O2 sensitivity of S. sclerotiorum decreased significantly (P < 0.05) compared with the nonamended PDA control.

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Rizobactérias no controle de Sclerotinia sclerotiorum, e efeitos no desenvolvimento vegetativo de plântulas de soja

Colloquium Agrariae ◽

10.5747/10.5747/ca.2020.v16.n4.a388 ◽

2020 ◽

Vol 16 (4) ◽

pp. 110-120

Author(s):

Renata Silva Canuto de Pinho ◽

Bruna Canabarro Pozzebon ◽

Ketlen Raisa Rey Rodrigues ◽

Renata Bolacel Arns ◽

Cezario Almeida Alves ◽

...

Keyword(s):

Volatile Compounds ◽

Sclerotinia Sclerotiorum ◽

Mycelial Growth ◽

Water Soluble ◽

Alternative Methods ◽

Yield Potential ◽

Vegetative Development ◽

Produce Water ◽

Soybean Seedlings ◽

Root Size

Sclerotinia sclerotiorumis one of the main pathogens of soybean crop, reducing crop yield potential and causing losses of up to 37%. Because it is a soil inhabitant, its management is difficult. However, the adoption of alternative methods, such as the use of antagonists, may help reduce the pathogen inoculum. Thus, the objective of this work was to select native soybean rhizobacteria and to verify the potential of in vitroantagonism against Sclerotinia sclerotiorum, as well as the effect of these isolates on the germination and vegetative developmentof soybean seedlings. For this, tests of inhibition and mycelial growth rate index, production of volatile compounds, production of rhizobacterial metabolites and vegetative development of soybean seedlings were conducted.With respect to antagonism, I1, U4, M6, M8 and U13 isolates were the most effective. For the production of volatile compounds by the overlapping plate method, isolates M8, M10, M9, I1, M6 and U4 had the largest reductions in pathogen mycelial growth. For the ability of isolates to produce water-soluble metabolites in culture medium, it was found that isolates I1, M3, M6 and U13 were the most effective. For the vegetative development of soybean seedlings, except for the root length, in which the isolates M8, I14, M9, I1, M6 and M10 provided the largest increases in root size, the other variables did not show significant increases when compared with the witness.In general, isolates M8, M10, M9, I1, M6 and U4 are effective in inhibiting mycelial growth of Sclerotinia sclerotiorum, produce volatile organic compounds that help control the pathogen, however, they do not show significant increases in the vegetative development of soybean seedlings.

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Sclerotinia sclerotiorum KK-1 isolate from Belarus: pathogenicity factors and glyphosate sensitivity

Journal of the Belarusian State University Biology ◽

10.33581/2521-1722-2020-3-54-69 ◽

2020 ◽

pp. 54-63

Author(s):

Alena V. Kulik ◽

Margarita A. Shukshina ◽

Anatoliy N. Evtushenkov

Keyword(s):

Oxalic Acid ◽

Sclerotinia Sclerotiorum ◽

Daucus Carota ◽

Catabolite Repression ◽

Mycelial Growth ◽

Significant Inhibition ◽

Fungal Isolate ◽

Bromophenol Blue ◽

Pathogenicity Factors ◽

Polygalacturonase Activity

In the presence work, mycelial growth, sclerotia formation, polygalacturonase, a-amylase and cellulase activities of a Belarusian fungal isolate Sclerotinia sclerotiorum KK-1 collected from infected сarrot (Daucus carota subsp. sativus) were analyzed. It was established that polygalacturonase was induced by pectin and subject to catabolite repression by glucose. The ability of the isolate to produce oxalic acid, an important factor of pathogenesis, was observed throughout fungus incubation on PDA medium amended with bromophenol blue. Glyphosate (commercial counterpart «Tornado») starting from its level in the medium of 200 mg/L caused a significant inhibition of mycelial growth and sclerotia formation. It was observed that a-amylase and cellulase activities were inhibited by glyphosate unlike polygalacturonase activity.

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Carpogenic Germinability of Diverse Sclerotinia sclerotiorum Populations Within the Southwestern Australian Grain Belt

Plant Disease ◽

10.1094/pdis-12-19-2575-re ◽

2020 ◽

Vol 104 (11) ◽

pp. 2891-2897

Author(s):

Pippa J. Michael ◽

King Yin Lui ◽

Linda L. Thomson ◽

Katia Stefanova ◽

Sarita J. Bennett

Keyword(s):

Sclerotinia Sclerotiorum ◽

Temperature Fluctuations ◽

Sclerotinia Stem Rot ◽

Dark Cycle ◽

Diurnal Temperature ◽

Population Responses ◽

Carpogenic Germination ◽

Southwestern Australia ◽

Temperature Regimes ◽

Mycelial Compatibility

Sclerotinia stem rot, caused by the necrotrophic plant pathogen Sclerotinia sclerotiorum (Lib.) de Bary, is a major disease of canola and pulses in Australia. Current disease management relies greatly on cultural and chemical means of control. Timing of fungicide applications remains a challenge, because efficacy is dependent on accurate prediction of ascospore release and presence on the plant. The aims of this study were to determine the optimal temperature for carpogenic germination of S. sclerotiorum populations sampled from canola and lupin fields in southwestern Australia and characterize diversity using mycelial compatibility groupings (MCGs). Sclerotia were collected from four diseased canola and one diseased lupin field from across southwestern Australia. Forty sclerotia from each population were incubated at four alternating temperatures of 30/15, 20/15, 20/4, and 15/4°C (12-h/12-h light/dark cycle) and assessed every 2 to 3 days for a 180-day period. MCG groupings for populations were characterized using 12 reference isolates. Results indicated the time to initial carpogenic germination decreased as diurnal temperature fluctuations decreased, with a fluctuation of 5°C (20/15°C) having the most rapid initial germination followed by 11°C (15/4°C) followed by 16°C (20/4°C). Optimal germination temperature for all five populations was 20/15°C; however, population responses to other diurnal temperature regimes varied considerably. No germination was observed at 30/15°C. MCG results indicate extensive diversity within and between populations, with at least 40% of sclerotia within each population unable to be characterized. We suggest that this diversity has enabled S. sclerotiorum populations to adapt to varying environmental conditions within southwestern Australia.

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Sensitivity of Ulocladium atrum, Coniothyrium minitans, and Sclerotinia sclerotiorum to benomyl and vinclozolin

Canadian Journal of Botany ◽

10.1139/b02-077 ◽

2002 ◽

Vol 80 (8) ◽

pp. 892-898 ◽

Cited By ~ 10

Author(s):

G Q Li ◽

H C Huang ◽

S N Acharya

Keyword(s):

Growth Inhibition ◽

Sclerotinia Sclerotiorum ◽

Spore Germination ◽

Mycelial Growth ◽

Germination Rate ◽

Effective Concentration ◽

Coniothyrium Minitans ◽

Inhibition Concentration ◽

Maximum Inhibition ◽

Germ Tubes

Assays on mycelial growth and spore germination were carried out to determine the sensitivity of the biocontrol agents Ulocladium atrum and Coniothyrium minitans and the plant pathogen Sclerotinia sclerotiorum to benomyl and vinclozolin. Ulocladium atrum was more tolerant to these fungicides than C. minitans and S. sclerotiorum. The 50% effective concentration (EC50) of U. atrum based on the mycelial growth inhibition was 1467.3 µg active ingredient (a.i.)/mL for benomyl and 12.6 µg a.i./mL for vinclozolin, and the maximum inhibition concentration was higher than 4000 µg a.i./mL for both fungicides. For C. minitans and S. sclerotiorum, however, the EC50 based on mycelial growth inhibition was lower than 1 µg a.i./mL. After incubation for 24 h at 20°C, the germination rate of U. atrum conidia was 9099% on potato dextrose agar (PDA) amended with benomyl at 100500 µg a.i./mL or vinclozolin at 10500 µg a.i./mL. At these concentrations, germ tubes of U. atrum developed into long, branched hyphae in benomyl treatments, but they remained short and clustered in vinclozolin treatments. Pycnidiospores of C. minitans and ascospores of S. sclerotiorum germinated on PDA amended with benomyl at 100500 µg a.i./mL, but the germ tubes did not grow further. Spore germination of C. minitans and S. sclerotiorum was less than 3.2% on PDA amended with vinclozolin at 10500 µg a.i./mL after 24 h. This is the first report on the sensitivity of U. atrum and C. minitans to benomyl and vinclozolin. The results suggest that it is possible to control S. sclerotiorum using a combination of U. atrum and benomyl or vinclozolin.Key words: fungicides, mycelial growth, spore germination, integrated pest management.

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Chemical composition and in vitro inhibitory effects of essential oils from fruit peel of three Citrus species and limonene on mycelial growth of Sclerotinia sclerotiorum

Brazilian Journal of Biology ◽

10.1590/1519-6984.216848 ◽

2020 ◽

Vol 80 (2) ◽

pp. 460-464 ◽

Cited By ~ 7

Author(s):

A. L. B. Dias ◽

W. C. Sousa ◽

H. R. F. Batista ◽

C. C. F. Alves ◽

E. L. Souchie ◽

...

Keyword(s):

Essential Oils ◽

Sclerotinia Sclerotiorum ◽

Mycelial Growth ◽

Major Constituent ◽

Citrus Species ◽

Fruit Peel ◽

Diverse Range ◽

Citrus Peel ◽

Fungus Growth

Abstract Essential oils (EO) from aromatic and medicinal plants generally perform a diverse range of biological activities because they have several active constituents that work in different mechanisms of action. EO from Citrus peel have an impressive range of food and medicinal uses, besides other applications. EO from Citrus reticulata, C. sinensis and C. deliciosa were extracted from fruit peel and analyzed by GC-MS. The major constituent of EO under evaluation was limonene, whose concentrations were 98.54%, 91.65% and 91.27% for C. sinensis, C. reticulata and C. deliciosa, respectively. The highest potential of inhibition of mycelial growth was observed when the oil dose was 300 μL. Citrus oils inhibited fungus growth in 82.91% (C. deliciosa), 65.82% (C. sinensis) and 63.46% (C. reticulata). Anti-Sclerotinia sclerotiorum activity of 90% pure limonene and at different doses (20, 50, 100, 200 and 300 μL) was also investigated. This monoterpene showed to be highly active by inhibiting 100% fungus growth even at 200 and 300 μL doses. This is the first report of the in vitro inhibitory effect of natural products from these three Citrus species and its results show that there is good prospect of using them experimentally to control S. sclerotiorum, in both greenhouse and field conditions.

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Effects of SHAM on the Sensitivity of Sclerotinia sclerotiorum and Botrytis cinerea to QoI Fungicides

Plant Disease ◽

10.1094/pdis-12-18-2142-re ◽

2019 ◽

Vol 103 (8) ◽

pp. 1884-1888 ◽

Cited By ~ 1

Author(s):

Hongjie Liang ◽

Jinli Li ◽

Chaoxi Luo ◽

Jianhong Li ◽

Fu-Xing Zhu

Keyword(s):

Botrytis Cinerea ◽

Sclerotinia Sclerotiorum ◽

Mycelial Growth ◽

Control Efficacy ◽

Vitro Assay ◽

Qoi Fungicides ◽

Quinone Outside Inhibitor ◽

Fungal Phytopathogens ◽

The Ideal

It is a common practice to add salicylhydroxamic acid (SHAM) into artificial medium in the in vitro sensitivity assay of fungal phytopathogens to the quinone outside inhibitor (QoI) fungicides. The rationale for adding SHAM is to inhibit fungal alternative oxidase, which is presumed to be inhibited by secondary metabolites of plants. Therefore, the ideal characteristics of SHAM should be almost nontoxic to phytopathogens and have no significant effect on control efficacy of fungicides. However, this study showed that the average effective concentration for 50% inhibition (EC50) of mycelial growth values of SHAM were 97.5 and 401.4 μg/ml for Sclerotinia sclerotiorum and Botrytis cinerea, respectively. EC50 values of the three QoI fungicides azoxystrobin, kresoxim-methyl, and trifloxystrobin in the presence of SHAM at 20 and 80 μg/ml for S. sclerotiorum and B. cinerea, respectively, declined by 52.7 to 78.1% compared with those without SHAM. For the dicarboximide fungicide dimethachlone, the average EC50 values in the presence of SHAM declined by 18.2% (P = 0.008) for S. sclerotiorum and 35.9% (P = 0.012) for B. cinerea. Pot experiments showed that SHAM increased control efficacy of the three QoI fungicides against the two pathogens by 43 to 83%. For dimethachlone, SHAM increased control efficacy by 134% for S. sclerotiorum and 86% for B. cinerea. Biochemical studies showed that SHAM significantly inhibited peroxidase activity (P = 0.024) of B. cinerea and esterase activity (P = 0.015) of S. sclerotiorum. The strong inhibitions of SHAM per se on mycelial growth of B. cinerea and S. sclerotiorum and significant influences on the sensitivity of the two pathogens to both the QoI fungicides and dimethachlone as well as inhibitions on peroxidase and esterase indicate that SHAM should not be added in the in vitro assay of sensitivity to the QoI fungicides.

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Effects of post-emergent herbicides on Trichoderma harzianum , a potential biocontrol agent against Sclerotinia sclerotiorum in soybean cropping

Acta Agronomica Hungarica ◽

10.1556/aagr.55.2007.3.12 ◽

2007 ◽

Vol 55 (3) ◽

pp. 355-362

Author(s):

M. Rollán ◽

C. Mónaco ◽

G. Lampugnani ◽

N. Arteta ◽

D. Bayo ◽

...

Keyword(s):

Sclerotinia Sclerotiorum ◽

Trichoderma Harzianum ◽

Mycelial Growth ◽

Detrimental Effect ◽

Biocontrol Agent ◽

Selective Medium ◽

Potential Biocontrol Agent ◽

Colony Forming Units ◽

Soil Dilution

Trichoderma harzianum is a potential biocontrol agent against Sclerotinia sclerotiorum in soybean. Information is needed on the compatibility of this biocontrol agent and the post-emergent herbicides used in soybean cropping.Haloxyfop R Methyl (EC 10.4%), Glyphosate (SL 48%), Imazamox (WG 70%) and Imazethapyr (SL 10%) were evaluated for their effects on the mycelial growth of T. harzianum on in vitro agar plates. Glyphosate (2000 ppm), Imazethapyr (500 and 250 ppm) and Haloxyfop R Methyl (1000, 500 and 100 ppm) reduced the mycelial growth of T. harzianum . Imazamox had no effect at any concentration.Subsequently, all the herbicides were assessed for their effect on soil populations of T. harzianum . Greenhouse assays conducted with non-sterile soil inoculated with T. harzianum and a specific herbicide were sampled before pesticide application and after 30 days. The number of colony forming units per gram of soil (c.f.u./g of soil) was evaluated with a soil dilution technique using Trichoderma selective medium (TSM). No detrimental effect was revealed.

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Efficacy of Antagonists on mycelium growth and carpogenic germination of sclerotia of Sclerotinia sclerotiorum on Indian mustard

International Journal of Agricultural Invention ◽

10.46492/ijai/2016.1.2.12 ◽

2016 ◽

Vol 1 (02) ◽

pp. 190-193

Author(s):

Jhilmil Gupta

Keyword(s):

Sclerotinia Sclerotiorum ◽

Trichoderma Harzianum ◽

Plant Pathogens ◽

Foliar Spray ◽

Indian Mustard ◽

Plant Diseases ◽

Stem Rot ◽

Pseudomonas Chlororaphis ◽

Coniothyrium Minitans ◽

Carpogenic Germination

Sclerotinia sclerotiorum (Lib.) de Bary is a soil borne pathogen capable of infecting more than 400 host plants worldwide. It is a major pathogen that plays a crucial role in reducing the yield in economically important crops. The capability of sclerotia to survive for more than 4 years becomes very difficult to manage the crop from the infection of Sclerotinia rot fungus. Stem rot of indian mustard [Brassica juncea (L.) Czern and Cross] caused by Sclerotinia sclerotiorum is potentially a serious threat in many mustard growing areas in India. Treatments of seeds and foliar spray with of fungicides applied at regular intervals are effective in reducing infection, but uses of chemicals are hazardous, harmful for beneficial micro-organisms. Biological control of plant pathogens offers an exciting opportunity to manage plant diseases. In the present study, the efficacy of four bio-agents, viz., Coniothyrium minitans, Aspergilus nidulans, Trichoderma harzianum, and Pseudomonas chlororaphis were evaluated for the control of stem rot of Indian mustard. Results on bio-efficacy of different bioagents, when evaluated under glass house condition, the Coniothyrium minitans was the most effective agent and caused highest reduction (64.7 %) in carpogenic germination of sclerotia followed by Aspergilus nidulans (52.5 %) and Trichoderma harzianum (48.8 %), over control while Pseudomonas chlororaphis (48.3 %) was at par with T. harzianum. All the bioagents showed significant reduction effective in controlling the disease. Similar results were achieved when bioagents tested on dual inoculated plates.

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