本地生物防治真菌和细菌分离物对青禾本科植物根腐病的生物功效

Microbiology Research Journal International Pub Date : 2024-05-17 DOI:10.9734/mrji/2024/v34i61447

Irfan Ahmad, Mujeebur Rahman Khan

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摘要

就植物性蛋白质、膳食纤维和各种植物化学物质而言，禾谷类作物是最有价值的豆类作物。虽然青禾秆易受土传真菌 Macrophomina phaseolina (Tassi) Goid 的影响，但它会导致严重的根腐病，使作物产量显著下降。因此，本研究旨在确定本地分离的生物防治真菌和细菌（即：T. asperelloides AMUT）的生物功效、T. asperelloides AMUTASPD-51、T. asperellum AMUTASPM-51、T. asperellum AMUTASPM-52、T. asperellum AMUTASPM-53、T. atroviride AMUTATROV-31、T. harzianum AMUTHZ-71、T.harzianum AMUTHZ-72，T. harzianum AMUTHZ-73，T. harzianum AMUTHZ-74，T. hamatum AMUTHM-31，T. viride AMUTVR-61，T. viride AMUTVR-62，T. virens AMUTVNS-41，T.通过使用双重接种技术，在体外条件下进行为期七天的温育，对相思豆巨酵母菌 AMUMP-2 进行了研究。与对照组相比，所有种类的毛霉都显示出较高的生物防治潜力，能抑制大孢霉菌 AMUMP-2 的径向生长。在生物控制真菌和细菌中，T. viride AMUTVR-61 对 M. phaseolina AMUMP-2 的径向抑制率最高，比对照高出 95.0%。在减少病原体径向生长方面，T. harzianum AMUTHZ-72 的效果次之，比对照高出 94.2%，其次是 T. harzianum AMUTHZ-71 (92.8%)、T. asperellum AMUTASPM-53 (86.1%) 和 T. harzianum AMUTHZ-74 (83.7%)。然而，研究发现枯草芽孢杆菌 AMUBS-80 的效果最差，与对照相比，它对 M. phaseolina AMUMP-2 的径向抑制率降低了 21.7%。本研究表明，T. viride AMUTVR-61 和 T. harzianum AMUTHZ-72 是对 M. phaseolina AMUMP-2 最有效的本地生防真菌。此外，土壤中的病原体会影响植物健康，尤其是禾谷类作物的健康，并对环境和人类造成不利影响。

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Bioefficacy of Indigenous Isolates of Biocontrol Fungi and Bacteria against Macrophomina Phaseolina Causing Root Rot Disease in Green Gram

Green grams are the most valuable pulse crops in terms of plant-based protein, dietary fiber, and various phytochemicals. Although green gram is found susceptible to the soil-borne fungus Macrophomina phaseolina (Tassi) Goid, it leads to severe root-rot disease and causes a significant reduction in crop yield. Thus, the study aims to determine the bioefficacy of indigenous isolates of biocontrol fungi and bacteria viz., T. asperelloides AMUTASPD-51, T. asperellum AMUTASPM-51, T. asperellum AMUTASPM-52, T. asperellum AMUTASPM-53, T. atroviride AMUTATROV-31, T. harzianum AMUTHZ-71, T. harzianum AMUTHZ-72, T. harzianum AMUTHZ-73, T. harzianum AMUTHZ-74, T. hamatum AMUTHM-31, T. viride AMUTVR-61, T. viride AMUTVR-62, T. virens AMUTVNS-41, T. longibrachiatum AMUTLONB-41, Pochonia chlamydosporia AMUPC-31, Purpureocillium lilacinum AMUPL-31, Aspergillus niger AMUAN-41, Bacillus subtilis AMUBS-80 and Pseudomonas fluorescens AMUPF-80 against Macrophomina phaseolina AMUMP-2 by using dual inoculation technique for seven days incubation at a temperature under in-vitro condition. All species of Trichoderma fungus showed high biocontrol potential to suppress the radial growth of M. phaseolina AMUMP-2 over control. Among the biocontrol fungi and bacteria, T. viride AMUTVR-61 resulted in the highest radial inhibition of M. phaseolina AMUMP-2 by 95.0% over control. The T. harzianum AMUTHZ-72 was second most effective in decreasing the radial growth by 94.2% of the pathogens, followed by T. harzianum AMUTHZ-71 (92.8%), T. asperellum AMUTASPM-53 (86.1%), and T. harzianum AMUTHZ-74 (83.7%) over control. However, B. subtilis AMUBS-80 was found to be the least effective, suppressing radial inhibition of M. phaseolina AMUMP-2 by 21.7% over control. The present study indicates that T. viride AMUTVR-61 and T. harzianum AMUTHZ-72 were the most significant indigenous biocontrol fungi against M. phaseolina AMUMP-2. Furthermore, its application led to a substantial decrease in the soil-borne pathogen population that affects plant health, especially green gram, and adverse environmental and human effects.

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Microbiology Research Journal International

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