The fungal community outperforms the bacterial community in predicting plant health status
Characterizing the relationship between soil biotic and abiotic properties and plant health status is crucial to understanding the pathogenesis of soil-borne diseases. Here, we compared these properties in the soils of lisianthus with different disease incidence plots and report the cause-effect rel...
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Veröffentlicht in: | Applied microbiology and biotechnology 2021-08, Vol.105 (16-17), p.6499-6513 |
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Sprache: | eng |
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Zusammenfassung: | Characterizing the relationship between soil biotic and abiotic properties and plant health status is crucial to understanding the pathogenesis of soil-borne diseases. Here, we compared these properties in the soils of lisianthus with different disease incidence plots and report the cause-effect relationship between soil properties and plant health status using heat treatment coupled with microbiota self/across re-inoculations. The relative importance of soil bacterial and fungal communities in predicting plant health was also analyzed. Results showed that the soils with low and high disease incidences (LDS and HDS) harbored differential microbial communities and physicochemical properties. The LDS soil had relatively low
Fusarium oxysporum
abundance, electrical conductivity (EC), and NO
3
−
-N content. Soil microbial community was the direct determinant of plant health. The disease-suppressive activity of the microbiome in the LDS soil could be transferred to the HDS soil. Also, the relative importance of the fungal community in predicting plant health status was greater than that of the bacterial community, as reflected by (1) the fungal community could drive more complex networks related to healthy plants and (2) the diversity and core taxa of the fungal community had higher mean predictor importance values for plant health. The relative abundances of core genera
Acremonium
,
Mycothermus
, and
Chryseolinea
were significantly and negatively correlated with the disease incidence and the abundances of pathogens, identifying these genera as potential disease-suppressive agents. Taken together, our results reveal a direct relationship between soil properties and plant health status, in which the fungal community composition is most important for predicting plant health status.
Key points
•
Soil with differing pathological groups harbors distinct microbial communities.
•
Soil microbial communities directly determine the plant’s health status.
•
Fungal community is a better predictor of plant health than the bacterial community. |
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ISSN: | 0175-7598 1432-0614 |
DOI: | 10.1007/s00253-021-11486-6 |