<i>In vitro</i> assessment of bacterial endophytes for antagonistic activity against <i>Magnaporthe oryzae</i> and <i>Cochliobolus miyabeanus</i> in rice

Q4 Agricultural and Biological Sciences Journal of Biological Control Pub Date : 2023-10-10 DOI:10.18311/jbc/2023/34946
ADITYA KUKRETI, B. S. CHETHANA, M. K. PRASANNAKUMAR, C. MANJUNATHA, NAMBURI KARUNAKAR REDDY, M. E. PUNEETH, PARTH GULATI
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Abstract

Rice is the global staple food, contributing over half of the world’s agricultural production. Excessive fungicide use in rice farming poses environmental, fungicide resistance, and beneficial microbial disruption concerns, making biocontrol, particularly bacteria, a promising biocontrol agent due to their rapid growth, ease of handling, and robust colonization attributes. Endophytes are endosymbionts residing within host plants, playing a pivotal role in plant health without inciting any pathogenic effects. In this study, we investigated the antagonistic potential of four characterized bacterial endophytic strains, viz., Bacillus velezensis strains A6 and P42, B. pseudomycoides HP3d and Paenibacillus polymyxa PGSS-1 against major foliar rice pathogens viz., Magnaporthe oryzae and Cochliobolus miyabeanus. Against M. oryzae, all the endophytic strains exhibited significant per cent inhibition (50.00-66.67%) and the highest inhibition of 66.67% was achieved by B. pseudomycoides strain HP3d, while the lowest inhibition of 50 and 51.11% was by B. velezensis strain A6, P42, and P. polymyxa PGSS1, respectively. These endophytes outperformed the positive control, P. fluorescens which showed 44.44% inhibition. Similarly, against C. miyabeanus, 31.25-43.75% inhibition was recorded, of which B. velezensis strain A6 exhibited the highest inhibition (43.75%), while B. velezensis strain P42 showed the lowest (31.25%). Furthermore, a double Petri dish assay was conducted to evaluate the volatile compounds produced by these endophytes against the two rice pathogens. It was observed that the volatile compounds produced by B. pseudomycoides strain HP3d and P. polymyxa strain PGSS1 significantly and effectively inhibited the growth of M. oryzae by 88.89% when compared to P. fluorescens (50.00%), whereas B. velezensis strain A6 showed the lowest inhibition (33.33%). Against the brown spot pathogen, C. miyabeanus, the endophytes demonstrated inhibition ranging from 56.25-87.50%, with B. pseudomycoides strain HP3d and P. fluorescens achieving the highest inhibition (87.50%) and B. velezensis strain P42 showing the lowest (56.25%). These results highlight the significant and varied inhibitory effects of volatile compounds released by these endophytes against fungal pathogens of rice. Overall, our findings highlight the promising biocontrol potential of these endophytic strains under in vitro conditions with B. pseudomycoides strain HP3d and P. polymyxa PGSS1 showing exceptional efficacy and they can be deployed in the field for the management of foliar fungal pathogens in rice.
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& lt; i> vitro< / i>细菌内生菌对稻瘟病菌拮抗活性的评估<和<i>米氏松鸡</i>在水稻
大米是全球的主食,占世界农业产量的一半以上。水稻种植中过量使用杀菌剂会引起环境、杀菌剂耐药性和有益微生物破坏问题,使生物防治,特别是细菌,由于其快速生长、易于处理和强大的定植特性而成为一种有前途的生物防治剂。内生菌是寄生在寄主植物体内的内共生生物,在植物健康中起着关键作用,但不引起任何致病作用。在本研究中,我们研究了四种特征内生细菌菌株,即velezensis芽孢杆菌菌株A6和P42,假omycoides芽孢杆菌HP3d和多粘类芽孢杆菌PGSS-1对水稻叶面主要病原菌稻瘟病菌(Magnaporthe oryzae)和miyabeus。所有内生菌株对M. oryzae的抑制率均为50.00 ~ 66.67%,其中假omycoides菌株HP3d对M. oryzae的抑制率最高,为66.67%,而B. velezensis菌株A6、P42和P. polymyxa PGSS1的抑制率最低,分别为50%和51.11%。这些内生菌的抑菌效果优于阳性对照荧光假单胞菌(P. fluorescens),其抑菌效果为44.44%。对miyabeanus的抑制率为31.25 ~ 43.75%,其中velezensis菌株A6的抑制率最高(43.75%),velezensis菌株P42的抑制率最低(31.25%)。此外,通过双培养皿实验评价了这些内生菌对两种水稻病原菌产生的挥发性化合物。结果表明,假菌双歧杆菌菌株HP3d和多粘双歧杆菌菌株PGSS1产生的挥发性化合物对稻瘟病菌的抑制率为88.89%,对荧光双歧杆菌的抑制率为50.00%,而对白霉双歧杆菌菌株A6的抑制率最低,为33.33%。内生菌对褐斑病原菌miyabeanus的抑菌率为56.25 ~ 87.50%,其中假菌双歧杆菌HP3d和荧光双歧杆菌抑菌率最高(87.50%),褐菌双歧杆菌P42抑菌率最低(56.25%)。这些结果表明,这些内生菌释放的挥发性化合物对水稻真菌病原菌的抑制作用是显著的和不同的。总的来说,我们的研究结果强调了这些内生菌株在体外条件下具有良好的生物防治潜力,其中假酵母菌菌株HP3d和多粘双歧杆菌PGSS1表现出卓越的功效,它们可以在田间用于水稻叶面真菌病原体的管理。
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来源期刊
Journal of Biological Control
Journal of Biological Control Agricultural and Biological Sciences-Insect Science
CiteScore
0.50
自引率
0.00%
发文量
10
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