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2020, vol. 48, iss. 2, pp. 48-56
Effects of cyflufenamid in the control of apple powdery mildew (Podosphaera leucotricha)
University of Belgrade, Faculty of Agriculture

emailstevicm@agrif.bg.ac.rs
Keywords: apple; Podosphaera leucotricha; cyflufenamid; efficacy
Abstract
During 2019, the examination of cyflufenamid efficacy in apple protection from powdery mildew, caused by fungus Podosphaera leucotricha, was performed. The experiments were conducted in the orchards at the following locations: OŠD Radmilovac, Vinča (Topola), Kukujevci (Šid) and Donja Kravarica (Lučani), as a completely randomized block system in four replications (EPPO, 1999). The application of fungicides was performed using motorized mist blower sprayer type Solo 423, with water consumption of 1000 l ha-1. Starting from the growth stage "half-inch green" (BBCH 56-57) to the growth stage "beginning of fruit development" (BBCH 70-73), a total of five treatments were done. Cyflamid has shown high efficacy in the control of P. leucotricha. Effective protection of apple was achieved in the orchards at all four localities. At the locality Radmilovac, the efficacy was 98.8%, at the locality Vinča 96.2%. At the localites Kukujevci and Donja Kravarica, the efficacy was 96.7 and 98.8%, respectively.
References
Balaž, J., Ognjanov, V., Keserović, Z., Šućur, A., Janse, J., Popović, T. (2017) Evaluation of reactions of commercial and autochthonous apple cultivars to common diseases in Serbia under natural infection. Pesticidi i fitomedicina, vol. 32, br. 3-4, str. 157-172
Capriotti, M., Querzola, P., Bellotto, D., Guastamacchia, F., Capella, A. (2012) Held trials with Rebel®, fungicide containing cyflufenamid for grape and apple powdery mildew control. in: Giornate Fitopatologiche 2012, Milano Marittima (RA), 13-16 marzo 2012, 333-338
Cortesi, P., Querzola, P., Capella, A., Rubboli, V., Serrati, A., Myrta, A. (2012) Cyflufenamid: Nuova molecola fungicida per il contenimento dell'oidio della vite, del melo e di cucurbitacee e solanacea. ATTI Giornate Fitopatologiche, 2, 195-200
EPPO (1999) Guidelines for the efficacy evaluation of plant protection products: Podoshaera leucotricha -PP 1/69(3). EPPO Bulletin, 29, 285-289
Haramoto, M., Yamanaka, H., Hosokawa, H., Sano, H., Sano, S., Otani, H. (2006) Control efficacy of cyflufenamid in the field and its fungicidal properties. Journal of Pesticide Science, 31(2), 116-122
Hickey, K.D., Yoder, K.S. (1990) Powdery mildew. in: Jones A., Aldwinckle H.S. [ed.] Compendium of Apple and Pear Diseases, St. Paul, MN: APS, 9-10
Holb, I. (2013) Apple powdery mildew caused by Podosphaera leucotricha: Some aspects of biology. International Journal of Horticultural Science, 19(3-4), 19-23
Holb, I.J. (2014) Apple powdery mildew caused by Podosphaera leucotricha: Some aspects of disease management. International Journal of Horticultural Science, 20(1-2), 29-33
Ivanović, M.S., Ivanović, D.M. (2001) Mikoze i pseudomikoze biljaka. Beograd: De-eM-Ve, 152-158
Koch, A., Felsenstein, F., Stammler, G. (2015) No evidence of QoI resistance in apple powdery mildew (Podosphaera leucotricha). Journal of Phytopathology, 163(3), 178-184
Krieghoff, O. (1995) Entwicklung einer Methode zur in-vitro-Selektion auf Resistenz gegen Apfelmehltau Podosphaera leucotricha unter besonderer Berücksichtigung der Rassenproblematik. Dissertation
Kuck, K.H., Russell, P.E. (2006) FRAC: combined resistance risk assessment. Aspects of applied biology, 78, 3-10
Reuveni, M. (2000) Efficacy of trifloxystrobin (Flint), a new strobilurin fungicide, in controlling powdery mildews on apple, mango and nectarine, and rust on prune trees. Crop Protection, 19(5), 335-341
Romero, D., de Vicente, A., Zeriouh, H., Cazorla, F.M., Fernández-Ortuño, D., Torés, J.A., Pérez-García, A. (2007) Evaluation of biological control agents for managing cucurbit powdery mildew on greenhouse-grown melon. Plant Pathology, 56(6), 976-986, SAS Institute
Rubboli, V., Valente, M., Serrati, L. (2012) Cidely®, new cyflufenamid based powdery mildew fungicide: Field experience against powdery mildew of grape and apple. in: Giornate Fitopatologiche 2012, Milano Marittima (RA), 13-16 marzo 2012, 323-332
Rusevski, R., Kuzmanovska, B., Petkovski, E., Oreskovic, K.B. (2018) New opportunities for chemical control of Venturia inaequalis and Podosphaera leucotricha in apple orchards in Macedonia. Journal of Agricultural, Food and Environmental Sciences, 72(3), 12-15
Stević, M., Vukša, P., Elezović, I. (2010) Resistance of Venturia inaequalis to demethylation inhibiting (DMI) fungicides. Agriculture, 65-72
Stević, M., Tamaš, N., Miletić, N., Vukša, P. (2015) Different toxicity of the strobilurin fungicides kresoxim-methyl and trifloxistrobin to Venturia inaequalis isolates from Serbia. Journal of Environmental Science and Health, Part B, 50(9), 633-637
Yoder, K.S. (2000) Effect of powdery mildew on apple yield and economic benefits of its management in Virginia. Plant Disease, 84(11), 1171-1176
Yoder, K.S. (1992) Powdery mildew of apple. in: Kumar J., Chaube H.S., Sing U.S., Mukhopadhyay A.N. [ed.] Plant diseases of international importance. Volume III. Diseases of fruit crops, Englewood Cliffs, USA: Prentice Hall, Pp. 66-89
 

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article language: Serbian
document type: unclassified
DOI: 10.5937/BiljLek2002048V
published in SCIndeks: 14/07/2020

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