Predatory protists reduce bacteria wilt disease incidence in tomato plants

S Guo; ZX Jiao; ZG Yan; XY Yan; XH Deng; W Xiong; CY Tao; HJ Liu; R Li; QR Shen; GA Kowalchuk; S Geisen

doi:10.1038/s41467-024-45150-0

Predatory protists reduce bacteria wilt disease incidence in tomato plants

S Guo, ZX Jiao, ZG Yan, XY Yan, XH Deng, W Xiong, CY Tao, HJ Liu, R Li^*, QR Shen, GA Kowalchuk, S Geisen

^*Corresponding author for this work

Nanjing Agricultural University

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

Abstract

Soil organisms are affected by the presence of predatory protists. However, it remains poorly understood how predatory protists can affect plant disease incidence and how fertilization regimes can affect these interactions. Here, we characterise the rhizosphere bacteria, fungi and protists over eleven growing seasons of tomato planting under three fertilization regimes, i.e conventional, organic and bioorganic, and with different bacterial wilt disease incidence levels. We find that predatory protists are negatively associated with disease incidence, especially two ciliophoran Colpoda OTUs, and that bioorganic fertilization enhances the abundance of predatory protists. In glasshouse experiments we find that the predatory protist Colpoda influences disease incidence by directly consuming pathogens and indirectly increasing the presence of pathogen-suppressive microorganisms in the soil. Together, we demonstrate that predatory protists reduce bacterial wilt disease incidence in tomato plants via direct and indirect reductions of pathogens. Our study provides insights on the role that predatory protists play in plant disease, which could be used to design more sustainable agricultural practices.

Original language	English
Article number	829
Number of pages	12
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-45150-0
Publication status	Published - 27 Jan 2024

Bibliographical note

Publisher Copyright:
© 2024, The Author(s).

Funding

This work was supported by the Fundamental Research Funds for the Central Universities (KYT2023001 (to R.L.), QTPY2023003 (to R.L.), XUEKEN2023031 (to H.L.) and XUEKEN2023039 (to Q.S.)), the National Natural Science Foundation of China (42277294 (to R.L.), 42307171 (to S.G.) and 42377294 (to X.D.)), the Postdoctoral Science Foundation of China (2023M731724) (to S.G.), the Excellent Postdoctoral Program of Jiangsu Province, China (2023ZB706) (to S.G.), the Guidance Foundation, the Hainan Institute of Nanjing Agricultural University (NAUSY-MS10) (to R.L.),the Achievement Transformation Fund project of Hainan Research Institute of Nanjing Agricultural University (NAUSY-CG-ZD-01) (to R.L.) and the Natural Science Foundation of Jiangsu Province, China (BK20210390) (to C.T.).

Funders	Funder number
Excellent Postdoctoral Program of Jiangsu Province	2023ZB706
Guidance Foundation
Hainan Institute of Nanjing Agricultural University	NAUSY-MS10
Hainan Research Institute of Nanjing Agricultural University	NAUSY-CG-ZD-01
National Natural Science Foundation of China	42377294, 42307171, 42277294
China Postdoctoral Science Foundation	2023M731724
Natural Science Foundation of Jiangsu Province	BK20210390
Fundamental Research Funds for the Central Universities	QTPY2023003, KYT2023001, XUEKEN2023031, XUEKEN2023039

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title = "Predatory protists reduce bacteria wilt disease incidence in tomato plants",

abstract = "Soil organisms are affected by the presence of predatory protists. However, it remains poorly understood how predatory protists can affect plant disease incidence and how fertilization regimes can affect these interactions. Here, we characterise the rhizosphere bacteria, fungi and protists over eleven growing seasons of tomato planting under three fertilization regimes, i.e conventional, organic and bioorganic, and with different bacterial wilt disease incidence levels. We find that predatory protists are negatively associated with disease incidence, especially two ciliophoran Colpoda OTUs, and that bioorganic fertilization enhances the abundance of predatory protists. In glasshouse experiments we find that the predatory protist Colpoda influences disease incidence by directly consuming pathogens and indirectly increasing the presence of pathogen-suppressive microorganisms in the soil. Together, we demonstrate that predatory protists reduce bacterial wilt disease incidence in tomato plants via direct and indirect reductions of pathogens. Our study provides insights on the role that predatory protists play in plant disease, which could be used to design more sustainable agricultural practices.",

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Predatory protists reduce bacteria wilt disease incidence in tomato plants

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