殖民地化
生物
树(集合论)
利基
菌根真菌
农学
丛枝菌根真菌
生态学
生态位
丛枝菌根
生态系统服务
群落结构
微生物种群生物学
农林复合经营
共生
互惠主义(生物学)
森林生态学
干旱
球囊菌门
气候变化
土壤生态学
丛枝菌根
生态系统
栖息地
小气候
殖民地化
菌根
外生菌根
土壤微生物学
土壤生物学
作者
Haiyun Zi,Zhe Hua,Yun Wang,Yangwenke Liao,Shuikuan Bei,Fuliang Cao,Manuel Delgado‐Baquerizo,Xiaogang Li
标识
DOI:10.1038/s41467-025-67797-z
摘要
Mycorrhizal fungi serve as fundamental agents in forest establishment and progression, underpinning critical ecosystem functions through symbiotic root associations. Drylands, which cover nearly half of Earth's land, have limited forest establishment, and factors influencing mycorrhization in these stressful environments remain unclear. Here, we integrate large-scale field surveys along aridity gradients with greenhouse experiments and over 33,000 microscopic mycorrhizal observations, revealing that aridity significantly enhances mycorrhization. Mycorrhizal fungi undergo niche modification, whereby facilitative microbial interactions promote mycorrhization under aridity stress. We identify a core synthetic microbial community linked to mycorrhization and provide mechanistic evidence that this community facilitates mycorrhization through physical attachment to fungal hyphae and by alleviating soil metabolite inhibition that otherwise suppresses mycorrhization under arid conditions. In this work, our findings highlight the role of microbial interkingdom interactions in driving tree mycorrhizal colonization in arid regions, offering critical insights for guiding tree planting and restoration efforts in drylands.
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