Growth Potential of Different Fungicide Resistant Alternaria solani Isolates of Tomato Leaf Blight Pathogen, under In Vitro, in the Presence of Different Fungicide, Growth Temperature and pH Ion Concentration

Chavan, Visvas Anandrao; Borkar, S. G.; Kadam, Nivedita A

doi:10.24018/ejfood.2020.2.5.110

Cited by 2 publications

(1 citation statement)

References 7 publications

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“…The most common devastating EB tomato disease (A. solani), mainly showed utmost symptoms on the stem, foliage, and fruits, leading to the severity of defoliation, affecting the photosynthetic rate, stunted growth, and loss of yield production, respectively 11,12 . In order to, overcome this problem chemical techniques have been used, mainly expensive fungicides, not considered a long-lasting solution, and the most important concern is not appropriate for environmental and public health as well as responsible for fungicide resistance development in A. solani 4,13,14 . In contrast, researchers found alternative modi ed modern biocontrol methods to suppress the activity of pathogens.…”

Section: Introductionmentioning

confidence: 99%

Use of Botanical Extracts and Bacterial Inoculants for the Suppression of Alternaria Solani Causing Early Blight Disease in Tomato

Hyder¹,

Gondal

Rizvi³

et al. 2023

Preprint

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Section: Introductionmentioning

confidence: 99%

Use of Botanical Extracts and Bacterial Inoculants for the Suppression of Alternaria Solani Causing Early Blight Disease in Tomato

Hyder¹,

Gondal

Rizvi³

et al. 2023

Preprint

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Use of botanical extracts and bacterial inoculants for the suppression of Alternaria solani causing Early Blight disease in Tomato

Hyder,

Gondal,

Khan

et al. 2023

Preprint

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Early blight-EB, caused by Alternaria solani, is a serious problem in tomato production. Plant growth-promoting rhizobacteria promote plant growth and inhibit plant disease. The present study explored the bio-efficacy of antagonistic rhizobacterial isolates and ginger powder extract against tomato EB disease, singly and in combination. Six fungal isolates from symptomatic tomato plants were identified as A. solani on the basis of morphological features i.e., horizontal septation (6.96 to 7.93 µm), vertical septation (1.50 to 2.22 µm), conidia length (174.2 to 187.6 µm), conidial width (14.09 to 16.52 µm), beak length (93.06 to 102.26 µm), and sporulation. Five of the twenty-three bacterial isolates recovered from tomato rhizosphere soil were nonpathogenic to tomato seedlings and were compatible with each other and with ginger powder extracts. Out of five isolates tested individually, three isolates (St-149D, Hyd-13Z, and Gb-T23) showed maximum inhibition (56.3%, 48.3%, and 42.0% respectively) against mycelial growth inhibition of A. solani. Among combinations, St-149D + ginger powder extract (GPE) had the highest mycelial growth inhibition (76.9%) over the untreated control. Bacterial strains molecularly characterized as Pseudomonas putida, Bacillus subtilis, and Bacillus cereus and were further tested in pot trials through seed bacterization for disease control. Seeds treated with bacterial consortia + ginger plant extract-GPE had the highest disease suppression percentage (78.1%), followed by St-149D + GPE (72.2%) and Hyd-13Z + GPE (67.5%). Maximum seed germination was obtained in the bacterial consortia + GPE (95.0 ± 2.04) followed by St-149D + GPE (92.5 ± 1.44) and Hyd-13Z + GPE (90.0 ± 2.04) over control (73.8 ± 2.39) and chemical control as standard treatment (90.0 ± 2). Ginger powder extracts also induce the activation of defence-related enzymes (TPC, PO, PPO, PAL, and CAT) activity in tomato plants. These were highly significant in the testing bacterial inoculants against A. solani infection in tomato crops.

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Growth Potential of Different Fungicide Resistant Alternaria solani Isolates of Tomato Leaf Blight Pathogen, under In Vitro, in the Presence of Different Fungicide, Growth Temperature and pH Ion Concentration

Cited by 2 publications

References 7 publications

Use of Botanical Extracts and Bacterial Inoculants for the Suppression of Alternaria Solani Causing Early Blight Disease in Tomato

Use of Botanical Extracts and Bacterial Inoculants for the Suppression of Alternaria Solani Causing Early Blight Disease in Tomato

Use of botanical extracts and bacterial inoculants for the suppression of Alternaria solani causing Early Blight disease in Tomato

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