Compatibility of integrated management (chemical x biological, and botanical x biological) strategies deployed against Athelia rolfsii, causing Sclerotium rots

Elias Mjaika Ndifon

bg | en

Help

English

Български

Compatibility of integrated management (chemical x biological, and botanical x biological) strategies deployed against Athelia rolfsii, causing Sclerotium rots

Elias Mjaika Ndifon

Abstract: Athelia rolfsii induces severe Sclerotium rots on 500 plant species, thus efficient field and post-harvest management strategies for this disease exist. A completely randomized design with three replications was used to set up two sub-trials. Sub-trial 1: Interaction of Mancozeb (all concentrations) x Trichoderma species caused 29.3-100% inhibition and all Ketoconazole x Trichoderma species caused 95.8-100% inhibition of A. rolfsii. Ketoconazole and Mancozeb (main effects) ranged between 23.3-100% inhibition of A. rolfsii. T. virens, T. har¬zianum, and T. viride (main effects) ranged from 60.3-96.7% inhibition of A. rolfsii. Unfortunately, Ketoconazole inhibited Trichoderma species more than Mancozeb. The chemical fungicides and Trichoderma species were highly positively correlated (0.522**, P≤0.05). Sub-trial 2: The Plant extracts (Ricinus and Eucalyptus spe¬cies: 100% concentration) x Trichoderma species interactions caused 95-100% inhibition of A. rolfsii. Botani¬cals (50% concentration) x Trichoderma species caused above 80% inhibition of A. rolfsii. Trichoderma species (main effects) (in environs of 50% botanicals) caused 57-84% inhibition. The results revealed that at 100% con¬centration, plant extracts completely inhibited A. rolfsii.

Keywords: aubergine; brinjal; pesticides; Trichoderma species; white mould

Citation: Ndifon, E. M. (2024). Compatibility of integrated management (chemical x biological, and botanical x biological) strategies deployed against Athelia rolfsii, causing Sclerotium rots. Bulgarian Journal of Crop Science, 61(3) 109-115

References: (click to open/close)

Arain, U., Dars, M. J., Ujjan, A.A., Bozdar, H. B., Rajput, A.Q., & Shahzad, S. (2022). Compatibility of myco-fungicide isolate (Trichoderma harzianum Rifai) with fungicides and their in-vitro synergism as¬sessment. Pakistan Journal of Phytopathology, 34(2), 147-155. DOI: 10.33866/phytopathol.034.02.0763
Dilbo, C., Alemu, M., Lencho, A., & Hunduma, T. (2015). Integrated management of garlic white rot (Sclerotium cepivorum Berk) using some fungicides and antifungal Trichoderma species. Journal of Plant Pathology and Microbiology, 6, 251. Doi:10.4172/2157- 7471.1000251
Kumar, A., Bansal, R.D., & Chelak, Y.K. (2019). Com¬patibility of Trichoderma viride with Fungicides for Plant Disease Management. International Journal of Pure Applied Bioscience, 7(3), 44-51. doi: http://dx.doi. org/10.18782/2320-7051.7333
Maheshwary, N. P., Gangadhara, N. B., Amoghavar¬sha, C., Naik, M. K., Satish, K. M., & Nandish, M. S. (2020). Compatibility of Trichoderma asperellum with fungicides. The Pharma Innovation Journal, 9(8), 136-140. http://www.thepharmajournal.com
Ndifon, E. M. (2022). Inhibitory efficacy of microbial, botanical and synthetic fungicides against Athelia rolf¬sii (Sclerotium stem rot) of groundnut and Bambara groundnut. Tropical Agricultural Research and Ex¬tension, 25(1), 14-22. http://doi.org/10.4038/tare. v25i1.5563
Ndifon, E. M. (2023). Inhibitory efficacy of selected botanical, microbial and synthetic pesticides against Colletotrichum alatae, causing water yam anthracnose disease. Cell Biology and Development, 7(1), 41-46. DOI: 10.13057/Cellbioldev/v070106
Parraguirre, L. C., Romero-Arenas, O., Valencia de Ita, M. D. L. A., Rivera, A., Sangerman, J. D. M., & Huerta-Lara, M. (2023). In vitro study of the compat¬ibility of four species of Trichoderma with three fungi¬cides and their antagonistic activity against Fusarium solani. Horticulturae 9, 905. https://doi.org/10.3390/ horticulturae9080905
Sneha, S., Maurya, S., & Choudhary, A. K. (2016). Antifungal efficacy of garlic and ginger against Scle¬rotium rolfsii. International Journal of Agricultural Science and Research, 6(6), 419-424. ISSN (P):2250- 0057; ISSN(E):2321-0087. www.tjprc.org.
Sudeep, P., Lok, B.P., Rajan, P., Subash, T. (2023). In-vitro compatibility assessment of Trichoderma harzia¬num with chemical fungicides and botanical extracts. Journal of Institute of Agriculture and Animal Science, 37, 121-131. https://doi.org/10.3126/jiaas.v37i1.56993
Ünal, F., Aşkın, A., Koca, E., Yıldırır, M., & Bingöl, M. Ü. (2019). Mycelial compatibility groups, pathogenic diversity and biological control of Sclerotium rolfsii on turfgrass. Egyptian Journal of Biological Pest Control, 29(Article No: 44).

DOI: https://doi.org/10.61308/MMCO3405

Date published: 2024-06-26

Download full text