Aggressiveness of Ilyonectria spp. and “Cylindrocarpon” pauciseptatum associated with black foot disease of grapevine

Santos, R. F.; Durigon, Miria Rosa; Blume, Elena

doi:10.5039/agraria.v10i1a4701

Cited by 2 publications

(2 citation statements)

References 20 publications

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“…Antagonistic bacteria often act mainly by antibiosis mechanism and occasionally by parasitism and competition. Microorganisms of the former group usually have a broad spectrum of action, being the production of toxic substances more effective than other mechanisms involved in inhibition of pathogen growth (Santos et al 2015). Studies have shown the efficacy of B. subtilis in the control of vine fungal pathogen including Eutypa lata (Ferreira et al 1991;Kotze et al 2011), Botrytis cinerea and Colletotrichum gloeosporioides (Furuya et al 2011;Boubakri et al 2015), Phaeomoniella chlamydospora, Phomopsis viticola, Diplodia seriata, Lasiodiplodia theobromae, Neofusicoccum australe and N. parvum (Kotze et al 2011;Rezgui et al 2016), Plasmopara viticola (Furuya et al 2011;Boubakri et al 2015) and Dactylonectria macrodidyma (Santos et al 2016).…”

Section: Electronic Supplementary Materialsmentioning

confidence: 99%

Biocontrol of black foot disease on grapevine rootstocks using Bacillus subtilis strain F62

Russi

Almança

Grohs

et al. 2020

Trop. plant pathol.

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Decline and death of young vines is a worldwide problem for viticulture that may lead to economic loss. Fungal pathogens have been associated with trunk and root diseases, including the black foot disease that affects the performance of the vineyards. Fungicides have not worked efficiently to control the disease and alternative methods should be investigated. We evaluated the potential of Bacillus subtilis strain F62 for controlling the disease caused by different strains in grapevine rootstocks 1103P (Vitis berlandieri × V. rupestris) and SO4 (V. berlandieri × V. riparia). The in vitro antagonism of B. subtilis F62 was evaluated on mycelial growth, by diffusible and volatile compounds, and conidia germination, by bacterial suspension and cell-free filtrate. In the in vivo assay, cuttings and micropropagated rootstocks were submitted to four different treatments: control, Bac (B. subtilis inoculation), Pat (pathogen inoculation) and Bac + Pat. According to our results, the bioagent was able to inhibit the mycelial growth of all the three fungal isolates by diffusible compounds and conidial germination by bacterial suspension and cell-free filtrate. In the in vivo assay, cuttings of SO4 treated with B. subtilis F62 showed higher shoot nodes and length of primary shoot, while cuttings of 1103P had a longer primary shoot. In micropropagated plants, B. subtilis F62 promoted plant growth in both rootstocks and reduced the frequency of D. macrodidyma re-isolation to 24.6% in SO4 and 29.5% in 1103P. The results demonstrated the potential of B. subtilis F62 on plant growth promotion and in the biocontrol of black foot disease on micropropagated plants and cuttings of grapevine rootstocks 1103P and SO4.

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Section: Electronic Supplementary Materialsmentioning

confidence: 99%

Biocontrol of black foot disease on grapevine rootstocks using Bacillus subtilis strain F62

Russi

Almança

Grohs

et al. 2020

Trop. plant pathol.

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“…The most commonly used and recommended biological control agents in the management of black foot disease were reported as Trichoderma Pers. species (Santos et al 2015). It has been found that Trichoderma members promote root growth of the plants which were predisposed to black foot disease and make them less vulnarable (Fourie & Halleen 2001).…”

Section: Introductionmentioning

confidence: 99%

Molecular Characterization of Black Foot Disease Pathogens in Grapevine Nurseries and Evaluation of Some Fungicides for Control of the Most Virulent Isolates

Yildiz

TOSUN

2022

Trakya University Journal of Natural Sciences

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Black foot disease, which is mainly caused by Ilyonectria Chaverri & Salgado and Dactylonectria L. Lombard & Crous species, causes serious destruction in most of the wine and grape producing regions of the world, particularly in nurseries and young vineyards. The aim of this research was to evaluate the present situation of black foot disease in grapevine nurseries (Vitis Vinifera L.), to identify its potential agents at morphological and molecular levels and to develop a control strategy against isolates found as the major virulent ones in pathogenicity tests. This study also represents the first attempt to control black foot disease in grapevine saplings in Turkey. Preliminary surveys were carried out in 21 grapevine nurseries in the Aegean Region during 2019 growing season. Black foot species obtained from vine saplings were identified as Ilyonectria liriodendri (Halleen, Rego & Crous), Dactylonectria macrodidyma (Halleen, Schroers & Crous) and D. torresensis (A. Cabral, Rego & Crous), using morphological and molecular methods. The pathogenicity studies revealed that the most virulent isolates belonged to I. liriodendri. Twelve chemical and one biological fungicides were screened in vitro for mycelial inhibition of I. liriodendri isolates. The experiments were performed in three replicates for each of the chemical fungicides. Sterile distilled water, instead of fungicide solution, was used for control trials. Mixtures of cyprodinil + fludioxonil, thiabendazole + fludioxonil + metalaxyl-m + azoxystrobin and azoxystrobin + metalaxyl-m + fludioxonil were the most effective chemical fungicides tested in mycelial inhibition of I. liriodendri isolates. Chemical fungicides mixtures of boscalid + kresoxim-methyl, promocarb hydrochloride (HCL) + fosetyl-al, azoxystrobin + difenoconazole, fludioxonil + metalaxyl-m and individual fungicides; cyprodinil, fluoxapyroxad, hymexazole, fenhexamid and 8-hydroxyquinoline sulphate were not effective on mycelial inhibition. Biocontrol activity of Trichoderma harzianum Rifai KRL-AG2 strain against I. liriodendri was evaluated. The experiment was performed in four replicates for each isolate. Petri dishes with only I. liriodendri mycelial discs used as controls. Treatment with Trichoderma harzianum Rifai KRL-AG2 strain provided 60.1% to 80.6% inhibition against I. liriodendri isolates. The most effective fungicides tested in vitro were evaluated in 2020 and 2021 under controlled conditions against possible infections of I. liriodendri during the rooting process of 1103 Paulsen grapevine rootstocks. Mixtures of thiabendazol + fludioxonil + metalaxyl-m + azoxystrobin and cyprodinil + fludioxonil were the most effective fungicides in the experiments conducted in 2020 and 2021, followed by azoxystrobin + metalaxyl-m + fludioxonil and Trichoderma harzianum Rifai KRL-AG2 strain. Özet: Esas olarak Ilyonectria Chaverri & Salgado ve Dactylonectria L. Lombard & Crous türlerinin neden olduğu karabacak hastalığı, dünyanın şarap ve üzüm üreten bölgelerinin çoğunda, özellikle fidanlıklarda ve gen...

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Aggressiveness of Ilyonectria spp. and “Cylindrocarpon” pauciseptatum associated with black foot disease of grapevine

Cited by 2 publications

References 20 publications

Biocontrol of black foot disease on grapevine rootstocks using Bacillus subtilis strain F62

Biocontrol of black foot disease on grapevine rootstocks using Bacillus subtilis strain F62

Molecular Characterization of Black Foot Disease Pathogens in Grapevine Nurseries and Evaluation of Some Fungicides for Control of the Most Virulent Isolates

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