Plant pathogen resistance is mediated by recruitment of specific rhizosphere fungi

Shanshan Liu; Chengyuan Tao; Lingyin Zhang; Zhe Wang; Wu Xiong; Dandan Xiang; Ou Sheng; Jiabao Wang; Rong Li; Zongzhuan Shen; Chunyu Li; Qirong Shen; George A. Kowalchuk

doi:10.1038/s41396-023-01406-z

Plant pathogen resistance is mediated by recruitment of specific rhizosphere fungi

Shanshan Liu
, Chengyuan Tao
, Lingyin Zhang
, Zhe Wang
, Wu Xiong
, Dandan Xiang
, Ou Sheng
, Jiabao Wang
, Rong Li
, Zongzhuan Shen^*
, Chunyu Li^*
, Qirong Shen
, George A. Kowalchuk

^*Corresponding author for this work

extern

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Beneficial interactions between plants and rhizosphere microorganisms are key determinants of plant health with the potential to enhance the sustainability of agricultural practices. However, pinpointing the mechanisms that determine plant disease protection is often difficult due to the complexity of microbial and plant-microbe interactions and their links with the plant’s own defense systems. Here, we found that the resistance level of different banana varieties was correlated with the plant’s ability to stimulate specific fungal taxa in the rhizosphere that are able to inhibit the Foc TR4 pathogen. These fungal taxa included members of the genera Trichoderma and Penicillium, and their growth was stimulated by plant exudates such as shikimic acid, D-(-)-ribofuranose, and propylene glycol. Furthermore, amending soils with these metabolites enhanced the resistance of a susceptible variety to Foc TR4, with no effect observed for the resistant variety. In total, our findings suggest that the ability to recruit pathogen-suppressive fungal taxa may be an important component in determining the level of pathogen resistance exhibited by plant varieties. This perspective opens up new avenues for improving plant health, in which both plant and associated microbial properties are considered.

Original language	English
Pages (from-to)	931-942
Number of pages	12
Journal	ISME Journal
Volume	17
Issue number	6
DOIs	https://doi.org/10.1038/s41396-023-01406-z
Publication status	Published - Jun 2023

Bibliographical note

Publisher Copyright:
© 2023, The Author(s), under exclusive licence to International Society for Microbial Ecology.

Funding

This research was supported by National Natural Science Foundation of China (31972509, 32102475 and 42090065), the Fundamental Research Funds for the Central Universities (KYQN2022020), the China Postdoctoral Science Foundation (2021TQ0156 and 2021M691613), and the Hainan Provincial Natural Science Foundation of China (322MS092).

Funders	Funder number
National Natural Science Foundation of China	42090065, 32102475, 31972509
China Postdoctoral Science Foundation	2021TQ0156, 2021M691613
Natural Science Foundation of Hainan Province	322MS092
Fundamental Research Funds for the Central Universities	KYQN2022020

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s41396-023-01406-zFinal published version, 1.48 MBLicence: Taverne

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title = "Plant pathogen resistance is mediated by recruitment of specific rhizosphere fungi",

abstract = "Beneficial interactions between plants and rhizosphere microorganisms are key determinants of plant health with the potential to enhance the sustainability of agricultural practices. However, pinpointing the mechanisms that determine plant disease protection is often difficult due to the complexity of microbial and plant-microbe interactions and their links with the plant{\textquoteright}s own defense systems. Here, we found that the resistance level of different banana varieties was correlated with the plant{\textquoteright}s ability to stimulate specific fungal taxa in the rhizosphere that are able to inhibit the Foc TR4 pathogen. These fungal taxa included members of the genera Trichoderma and Penicillium, and their growth was stimulated by plant exudates such as shikimic acid, D-(-)-ribofuranose, and propylene glycol. Furthermore, amending soils with these metabolites enhanced the resistance of a susceptible variety to Foc TR4, with no effect observed for the resistant variety. In total, our findings suggest that the ability to recruit pathogen-suppressive fungal taxa may be an important component in determining the level of pathogen resistance exhibited by plant varieties. This perspective opens up new avenues for improving plant health, in which both plant and associated microbial properties are considered.",

author = "Shanshan Liu and Chengyuan Tao and Lingyin Zhang and Zhe Wang and Wu Xiong and Dandan Xiang and Ou Sheng and Jiabao Wang and Rong Li and Zongzhuan Shen and Chunyu Li and Qirong Shen and Kowalchuk, \{George A.\}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to International Society for Microbial Ecology.",

year = "2023",

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doi = "10.1038/s41396-023-01406-z",

language = "English",

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T1 - Plant pathogen resistance is mediated by recruitment of specific rhizosphere fungi

AU - Liu, Shanshan

AU - Tao, Chengyuan

AU - Zhang, Lingyin

AU - Wang, Zhe

AU - Xiong, Wu

AU - Xiang, Dandan

AU - Sheng, Ou

AU - Wang, Jiabao

AU - Li, Rong

AU - Shen, Zongzhuan

AU - Li, Chunyu

AU - Shen, Qirong

AU - Kowalchuk, George A.

PY - 2023/6

Y1 - 2023/6

N2 - Beneficial interactions between plants and rhizosphere microorganisms are key determinants of plant health with the potential to enhance the sustainability of agricultural practices. However, pinpointing the mechanisms that determine plant disease protection is often difficult due to the complexity of microbial and plant-microbe interactions and their links with the plant’s own defense systems. Here, we found that the resistance level of different banana varieties was correlated with the plant’s ability to stimulate specific fungal taxa in the rhizosphere that are able to inhibit the Foc TR4 pathogen. These fungal taxa included members of the genera Trichoderma and Penicillium, and their growth was stimulated by plant exudates such as shikimic acid, D-(-)-ribofuranose, and propylene glycol. Furthermore, amending soils with these metabolites enhanced the resistance of a susceptible variety to Foc TR4, with no effect observed for the resistant variety. In total, our findings suggest that the ability to recruit pathogen-suppressive fungal taxa may be an important component in determining the level of pathogen resistance exhibited by plant varieties. This perspective opens up new avenues for improving plant health, in which both plant and associated microbial properties are considered.

AB - Beneficial interactions between plants and rhizosphere microorganisms are key determinants of plant health with the potential to enhance the sustainability of agricultural practices. However, pinpointing the mechanisms that determine plant disease protection is often difficult due to the complexity of microbial and plant-microbe interactions and their links with the plant’s own defense systems. Here, we found that the resistance level of different banana varieties was correlated with the plant’s ability to stimulate specific fungal taxa in the rhizosphere that are able to inhibit the Foc TR4 pathogen. These fungal taxa included members of the genera Trichoderma and Penicillium, and their growth was stimulated by plant exudates such as shikimic acid, D-(-)-ribofuranose, and propylene glycol. Furthermore, amending soils with these metabolites enhanced the resistance of a susceptible variety to Foc TR4, with no effect observed for the resistant variety. In total, our findings suggest that the ability to recruit pathogen-suppressive fungal taxa may be an important component in determining the level of pathogen resistance exhibited by plant varieties. This perspective opens up new avenues for improving plant health, in which both plant and associated microbial properties are considered.

UR - https://www.scopus.com/pages/publications/85152452153

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DO - 10.1038/s41396-023-01406-z

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JO - ISME Journal

JF - ISME Journal

IS - 6

ER -

Plant pathogen resistance is mediated by recruitment of specific rhizosphere fungi

Abstract

Bibliographical note

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