Formulations of synergistic microbial consortia for enhanced systemic resistance against Fusarium wilt in cumin.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Devendra Singh, Kuldeep Singh Jadon, Aman Verma, Neelam Geat, Rajneesh Sharma, Kamlesh Kumar Meena, Rajesh Kumar Kakani
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Abstract

The study aimed to understand the dynamic interplay between plants and their associated microbes to develop an efficient microbial consortium for managing Fusarium wilt of cumin. A total of 601 rhizospheric and endophytic bacteria and fungi were screened for antagonistic activity against Fusarium oxysporum f.sp. cumini (Foc). Subsequently, ten bacteria and ten fungi were selected for characterizing their growth promotion traits and ability to withstand abiotic stress. Furthermore, a pot experiment was conducted to evaluate the bioefficacy of promising biocontrol isolates-1F, 16B, 31B, and 223B in mono and consortium mode, focusing on disease severity, plant growth, and defense responses in cumin challenged with Foc. Promising isolates were identified as Trichoderma atrobruneum 15F, Pseudomonas sp. 2B, Bacillus amyloliquefaciens 9B, and Bacillus velezensis 32B. In planta, results revealed that cumin plants treated with consortia of 15F, 2B, 9B, and 32B showed highest percent disease control (76.35%) in pot experiment. Consortia of biocontrol agents significantly enhanced production of secondary metabolites and activation of antioxidant-defense enzymes compared to individual strain. Moreover, consortium treatments effectively reduced electrolyte leakage over the individual strain and positive control. The four-microbe consortium significantly enhanced chlorophyll (~ 2.74-fold), carotenoid content (~ 2.14-fold), plant height (~ 1.8-fold), dry weight (~ 1.96-fold), and seed yield (~ 19-fold) compared to positive control in pot experiment. Similarly, four microbe consortia showed highest percent disease control (72.2%) over the positive control in field trial. Moreover, plant growth, biomass, yield, and yield attributes of cumin were also significantly increased in field trial over the positive control as well as negative control.

Abstract Image

增强小茴香对镰刀菌枯萎病的系统抗性的协同微生物联合体配方。
该研究旨在了解植物与其相关微生物之间的动态相互作用,从而开发出一种高效的微生物联合体来管理小茴香镰刀菌枯萎病。研究人员共筛选了 601 种根瘤菌和内生细菌及真菌,以检测它们对 Fusarium oxysporum f.sp. cumini (Foc) 的拮抗活性。随后,筛选出 10 种细菌和 10 种真菌,以鉴定其促进生长的特性和承受非生物胁迫的能力。此外,还进行了一项盆栽实验,以评估有前景的生物防治分离物-1F、16B、31B 和 223B 在单体和联合体模式下的生物功效,重点关注小茴香受到 Foc 挑战时的病害严重程度、植物生长和防御反应。有希望的分离物被鉴定为毛霉 15F、假单胞菌 2B、淀粉芽孢杆菌 9B 和枯草芽孢杆菌 32B。植物实验结果显示,在盆栽实验中,用 15F、2B、9B 和 32B 复合菌群处理的小茴香植株病害控制率最高(76.35%)。与单个菌株相比,生物控制剂的联合体显著提高了次生代谢物的产量和抗氧化防御酶的活性。此外,与单个菌株和阳性对照相比,联合处理能有效减少电解质渗漏。在盆栽实验中,与阳性对照相比,四种微生物菌群显著提高了叶绿素(约 2.74 倍)、类胡萝卜素含量(约 2.14 倍)、株高(约 1.8 倍)、干重(约 1.96 倍)和种子产量(约 19 倍)。同样,在田间试验中,四种微生物群对病害的控制率(72.2%)比阳性对照最高。此外,在田间试验中,小茴香的植株生长、生物量、产量和产量属性也比阳性对照和阴性对照显著提高。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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