Evaluation of oxathiapiprolin (3%) + mandipropamid (25%) w/v (280 SC) against downy mildew of grapes and its compatibility with biocontrol agents

Authors

  • Sujoy saha ICAR-National Research Centre for Grapes, Pune 412307, Maharashtra, India
  • Sumant Kabade ICAR-National Research Centre for Grapes, Pune 412307, Maharashtra, India
  • Shital Sagar Pharate ICAR-National Research Centre for Grapes, Pune 412307, Maharashtra, India
  • Sneha Bhosale ICAR-National Research Centre for Grapes, Pune 412307, Maharashtra, India

DOI:

https://doi.org/10.48165/jefa.2024.19.02.31

Keywords:

Bioefficacy, Compatibility, , Downy mildew, Grape, Mandipropamid, Oxathiapiprolin.

Abstract

 

The study conducted with three concentrations (650, 700 and 750 ml ha–1) of combination fungicide i.e. oxathiapiprolin 3 per cent + mandipropamid 25 per cent w/v (280 SC) evaluated against downy mildew of grapes in 2017-18 and 2018-19 under field conditions at Maharashtra revealed that oxathiapiprolin 3 per cent + mandipropamid 25 per cent w/v (280 SC) @ 750 ml ha–1 manifested lowest PDI of 7.84 with a corresponding yield of 23.98 t ha–1 and it was at par with 700 ml ha–1 with a PDI of 8.65 and yield of 23.01 t ha–1. Hence, it may be recommended for the control of downy mildew of grapes. The compatibility of the test fungicide evaluated with fungal and bacterial bio control agents in in-vitro conditions showed that the fungicide was highly compatible with Bacillus subtilis and Pseudomonas fluorescens

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References

Aislabie, J. and Jones, L.G. 1995. A review of bacterial degradation of pesticides. Aust. J. Soil Res., 33: 925- 942

Akbar S, Freed S, Hameed A, Gul HT, Akmal M, Malik MN, Khan MB. 2012. Compatibility of Metarhizium anisopliae with different insecticides and fungicides. Afr J Microbiol Res. 6: 3956-3962.

Ali Sabra, Thomas Netticadan, Champa Wijekoon, Grape bioactive molecules, and the potential health benefits in reducing the risk of heart diseases,Food Chemistry: X,Volume 12,2021,100149,ISSN 2590-1575,https://doi.org/10.1016/j.fochx.2021.100149.

Anderson, T.E. & D.W. Roberts. 1983. Compatibility of Beauveria bassiana isolate with insecticide formulations used in Colorado potato beetle (Coleotera: Crysomelidae) Control. J. Econ. Entomol. 76: 1437-1441.

Anonymous, 2020 Horticulture statistics division DAC & FW

Chadha, K. L. AND Shikhamany, S. D. 1999. The Grape, Improvement, Production and Post- harvest management. Malhotra Publishing House, New Delhi, pp.579gisi

Cohen Y. 2015. The novel oomycide Oxathiapiprolin inhibits all stages in the asexual life cycle of Pseudoperonospora cubensis- Causal agent of cucurbit downy mildew. PLoS ONE 10(10): e0140015.https://doi.org/10.1371/journal.pone.0140015 PMID: 26452052

Cohen Y., Rubin A.E. and Galperin M. 2018b. Control of cucumber downy mildew with novel fungicidal mixtures of Oxathiapiprolin. Phytoparasitica. 46: 689–704.

Deore, P., Hingmire, S., Shinde, D., Pudale, A., Shabeer, T. P., Banerjee, K and Saha, S. 2021. Field bio-efficacy and residue dynamics of the fungicide polyoxin D zinc salt 5% SC in grape (Vitis vinifera). International Journal of Bio-resource and Stress Management, 12(6), 603-610.

Depieri RA, Martinez SS, Ayres O, Menezes JR. 2005. Compatibility of the fungus Beauveria bassiana (Bals.) Vuill. (Deuteromycetes) with extracts of neem seeds and leaves and the emulsible oil. Neotrop Entomol. 34: 601-606. https://doi.org/10.1590/S1519-566X2005000400010

Faraji S, Shadmehri AD, Mehrvar A. 2016. Compatibility of entomopathogenic fungi Beauveria bassiana and Metarhizium anisopliae with some pesticides. J Entomol Soc Iran 36: 137-146.

Gisi U, Cohen Y. Resistance to phenylamide fungicides 1996: A case study with Phytophthora infestans involving mating type and race structure. Ann Rev Phytopathology. 34:549–572.

Gisi U., 2002. Chemical control of downy mildews. In: Spencer-Phillips P.T.N., Gisi U., Lebeda A. (eds). Advances in Downy Mildew Research, pp. 119-159. Kluwer Academic, Dordrecht, the Netherlands.

Kassemeyer, H.-H., Gadourym, D. M., and Hill, G. 2015. “Downy Mildew,” in Compendium of Grape Diseases, Disorders, and Pests. 2nd Edn., eds W. Wilcox, W. D. Gubler, and K. J. Uyemoto (St. Paul: APS Press), 46–52.

Keshgond, R. and Naik, M.K. 2013. Compatibility of Pseudomonas fluorescens (PF 4) with fungicides, insecticides and plant products. Bioinfolet., 10(2b): 620-622

Miao J, Dong X, Chi Y, Lin D, Chen F, Du Y, et al. 2018. Pseudoperonospora cubensis in China: Its sensitivity to and control by oxathiapiprolin. Pesticide Biochem Physiol. in press.

Mohiddin, F.A. and Khan, M.P. 2013. Tolerance of fungal and bacterial bio control agents to six pesticides commonly used in the control of soil borne plant pathogens. African J. Agric. Res., 8(43): 5331-5334

Pachamuthe, P., S.T. Kamble & G.Y. Yuen. 1999. Virulence of Metarhizium anisopliae (Deuteromycotina: Hyphomycetes) strains ESC-1 to the germam Cockroach (Dictyoptera: Blattellidae) and its compatibility with insecticides. J. Econ. Entomol. 92: 340-346.

Pasteris RJ, Hanagan MA, Bisaha JJ, Finkelstein BL, Hoffman LE, Gregory V, et al. 2016. Discovery of oxathiapiprolin, a new oomycete fungicide that targets an oxysterol binding protein. Biorg Med Chem. 24(3):354–361. WOS:000368266300004

Pelizza, S. A., Scorsetti, A. C., Fogel, M. N., Pacheco-Marino, S. G., Stenglein, S. A., Cabello, M. N., & Lange, C. E. 2015. Compatibility between entomopathogenic fungi and biorational insecticides in toxicity against Ronderosia bergi under laboratory conditions. BioControl, 60(1), 81-91.

Pertot I., T. Caffi, V. Rossi, L. Mugnai, C. Hoffmann, M.S. Grando, C. Gary, D. Lafond, C. Duso, D. Thiery, V. Mazzoni and G. Anfora, 2017. A critical review of plant protection tools for reducing pesticide use on grapevine and new perspectives for the implementation of IPM in viticulture. Crop Protection 97, 70–84

Savita, Sharma A. 2019. Fungi as Biological Control Agents. In: Giri B., Prasad R., Wu QS., Varma A. (eds) Biofertilizers for Sustainable Agriculture and Environment. Soil Biology, vol 55. Springer, Cham. https://doi.org/10.1007/978-3-030-18933-4_18

Shinde P. V., 2016.An Economics of Grapes under Horticulture in India. Volume III, Issue II, February 2016. https://www.rsisinternational.org/Issue24/69-71.pdf [20].

Silva RA, Quintela ED, Mascarina GM, Barrigossi JAF, Liao LM. 2013. Compatibility of conventional agrochemicals used in rice crops with the entomopathogenic fungus Metarhizium anisopliae. Sci Agri. 70: 152-160. https:// doi.org/10.1590/S0103-90162013000300003

Silva, Micaele & Moura, Karina & Moura, Kamila & Salomão, Denise & Patrício, Flávia. 2018. Compatibility of Trichoderma isolates with pesticides used in lettuce crop. Summa Phytopathologica. 44. 137-142. 10.1590/0100-5405/176873.

Stein JM and Kirk WW 2003. Variations in the sensitivity of Phytophthora infestans isolates from several genetic backgrounds to Dimethomorph. Plant Dis 87: 1283-1289

Van den Bosch, Frank, et al. 2014. "Mixtures as a fungicide resistance management tactic." Phytopathology 104. 12: 1264-1273.

Varsha P. Salunkhe, Indu S. Sawant, Kaushik Banerjee, Yogita R. Rajguru, Pallavi N. Wadkar, Dasharath P. Oulkar, Dattatraya G. Naik, and Sanjay D. Sawant 2015. Biodegradation of Profenofos by Bacillus subtilis Isolated from Grapevines (Vitis vinifera). Journal of Agricultural and Food Chemistry. DOI: 10.1021/acs.jafc.5b03429 J. Agric. Food Chem. 2015, 63, 10736−10746 American Chemical Society

Vincent, J.M., 1947. Distortion of fungal hyphae in the presence of certain inhibitors. Nature 159, 850.

Weber-Boyvat M, Zhong WB, Yan DG, Olkkonen VM. 2013. Oxysterol-binding proteins: Functions in cell regulation beyond lipid metabolism. Biochem Pharmacol.; 86 (1):89–95. WOS: 000321025700011. 10.1016/j.bcp.2013.02.016 [PubMed] [CrossRef] [Google Scholar]

Yigal Cohen ID, Avia E. Rubin. 2020. A new strategy for durable control of late blight in potato by a single soil application of an Oxathiapiprolin mixture in early season

Yigal Cohen, Avia E. Rubin, Mariana Galperin. 2019. Novel synergistic fungicidal mixtures of Oxathiapiprolin protect sunflower seeds from downy mildew caused by Plasmopara halstedii

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Published

2024-07-02

Issue

Vol. 19 No. 2 (2024): Journals Journal of Eco-friendly Agriculture (July)

Section

Articles

How to Cite

Sujoy saha, Sumant Kabade, Shital Sagar Pharate, & Sneha Bhosale. (2024). Evaluation of oxathiapiprolin (3%) + mandipropamid (25%) w/v (280 SC) against downy mildew of grapes and its compatibility with biocontrol agents. Journal of Eco-Friendly Agriculture, 19(2), 424–431. https://doi.org/10.48165/jefa.2024.19.02.31
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