Plant growth-promoting rhizobacteria and Trichoderma shift common vetch (Vicia sativa) physiology and phyllosphere bacteria toward antagonism against anthracnose caused by Colletotrichum spinaciae

Rui Zhu, Wei Yan, Yajie Wang, Yingde Li, Rongchun Zheng, Wanqing Dong, Tuo Yao, Tingyu Duan
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Abstract

Background

Plant phyllosphere microbes are important for the host plant's protection. Plant growth-promoting rhizobacteria (PGPR) and Trichoderma are common biocontrol agents (BCAs) for disease management. Pathogens and BCAs can change the rhizosphere microbial composition; however, the effect of PGPR or Trichoderma on plant phyllosphere microbes, particularly for mesocosms involving the interaction between pathogens and BCAs, is not well known.

Methods

High-throughput sequencing was used to identify the phyllosphere bacterial community of common vetch interacting with Colletotrichum spinaciae, two PGPRs (Bacillus subtilis and Bacillus licheniformis), and Trichoderma longibrachiatum. We evaluated anthracnose severity, phyllosphere bacteria diversity and composition, and the relationship between the activities of plant defense enzymes and hormonal molecules in plants treated with individual and combined inoculations of PGPRs, Trichoderma, and C. spinaciae.

Results

PGPR or Trichoderma alone reduced disease severity. Trichoderma reduced the salicylic acid content, PGPR increased the catalase activity in plants, and co-inoculation of PGPR and Trichoderma decreased the salicylic acid content. Inoculation of PGPR and Trichoderma individually or in combination changed the disease-associated phyllosphere bacteria, and this effect was related to plant defense enzymes and hormonal molecules.

Conclusions

We suggest that the plant defense response induced by PGPR and Trichoderma results in the enrichment of a fraction of favorable chloroplastic bacteria, which facilitates plant defense against diseases.

Abstract Image

植物生长促进根瘤菌和毛霉菌改变普通野豌豆(Vicia sativa)的生理机能和叶球细菌,使其能够拮抗由菠菜黑穗病菌(Colletotrichum spinaciae)引起的炭疽病
植物叶球微生物对寄主植物的保护非常重要。植物生长促进根瘤菌(PGPR)和毛霉菌是常见的病害防治生物控制剂(BCA)。病原体和生物控制剂可以改变根瘤菌层微生物的组成;然而,PGPR 或毛霉对植物叶球微生物的影响,尤其是对涉及病原体和生物控制剂之间相互作用的中观环境的影响,还不是很清楚。我们利用高通量测序技术鉴定了与 Colletotrichum spinaciae、两种 PGPR(枯草芽孢杆菌和地衣芽孢杆菌)和长苞毛霉相互作用的普通薇菜叶球细菌群落。我们评估了炭疽病的严重程度、叶球细菌的多样性和组成,以及单独或联合接种 PGPRs、毛霉菌和 C. spinaciae 的植物中植物防御酶和激素分子活性之间的关系。毛霉降低了水杨酸含量,PGPR 提高了植物中过氧化氢酶的活性,而 PGPR 和毛霉联合接种降低了水杨酸含量。我们认为,PGPR 和毛霉诱导的植物防御反应会导致一部分有利的叶绿体细菌富集,从而促进植物对病害的防御。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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