Drought-driven shifts in Eucommia ulmoides rhizosphere mycobiota and metabolites mediate host tolerance
Chenglong Li, Shuangshuang Hou, Jinling Li, Xueqian Zhang, Qingsong Ran, Yanfeng Han, Zhijie Wang, Chunbo Dong

TL;DR
This study explores how drought affects the fungal communities around Eucommia ulmoides roots and how these changes may help the plant tolerate dry conditions.
Contribution
The study reveals novel insights into how drought alters the rhizosphere mycobiota and its interactions with plant physiology and root metabolites in Eucommia ulmoides.
Findings
Drought stress alters the diversity and composition of the E. ulmoides rhizosphere mycobiota.
Core fungal taxa like Sordariomycetes correlate with plant physiological indicators like soluble sugar.
Root metabolites such as phosphatidylcholines and 8-demethyltetracenomycin C are linked to fungal community changes under drought.
Abstract
Drought poses considerable challenges to the sustainable development of crops, highlighting the urgent need to improve plant resistance to drought stress. Rhizosphere mycobiota roles in Eucommia ulmoides drought adaptation remain uncharacterized. This study examines E. ulmoides’ rhizosphere mycobiota diversity, its changes, and interactions with plant physiology and metabolites under drought stress using amplicon sequencing, plant physiological assessments, and non-targeted root metabolomics. Our data indicate that drought stress considerably altered the species richness and community composition of the E. ulmoides seedling rhizosphere mycobiota, affecting the co-occurrence patterns and the composition of core fungal taxa within the mycobiota. Additionally, Sordariomycetes were notably enriched in the rhizosphere of E. ulmoides under drought stress and showed a notable positive…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Mycorrhizal Fungi and Plant Interactions · Nematode management and characterization studies
