Linking soil fungi to bacterial community assembly in arid ecosystems

IF 23.7 Q1 MICROBIOLOGY

iMeta Pub Date : 2022-02-24 DOI:10.1002/imt2.2

Shuo Jiao, Haiyan Chu, Baogang Zhang, Xiaorong Wei, Weimin Chen, Gehong Wei

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引用次数: 52

Abstract

Revealing the roles of biotic factors in driving community assembly, which is crucial for the understanding of biodiversity and ecosystem functions, is a fundamental but infrequently investigated subject in microbial ecology. Here, combining a cross-biome observational study with an experimental microcosm study, we provided evidence to reveal the major roles of biotic factors (i.e., soil fungi and cross-kingdom species associations) in determining soil bacterial biogeography and community assembly in complex terrestrial ecosystems of the arid regions of northwest China. The results showed that the soil fungal richness mediates the balance of assembly processes of bacterial communities, and stochastic assembly processes decreased with increasing fungal richness. Our results further suggest that the predicted increase in aridity conditions due to climate change will reduce bacterial α-diversity, particularly in desert soils and subsurface layer, and induce more negative species associations. Together, our study represents a significant advance in linking soil fungi to the mechanisms underlying bacterial biogeographic patterns and community assembly in arid ecosystems under climate aridity and land-use change scenarios.

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干旱生态系统中土壤真菌与细菌群落聚集的联系

揭示生物因子在驱动群落聚集中的作用是微生物生态学的一个基本但很少研究的课题，这对理解生物多样性和生态系统功能至关重要。本研究通过交叉生物群系观测研究和实验微观研究相结合，揭示了生物因子(即土壤真菌和跨界物种关联)在决定西北干旱区复杂陆地生态系统土壤细菌生物地理和群落聚集中的主要作用。结果表明，土壤真菌丰富度调节细菌群落组装过程的平衡，随机组装过程随着真菌丰富度的增加而减少。我们的研究结果进一步表明，气候变化导致的干旱条件的增加将减少细菌α-多样性，特别是在沙漠土壤和次表层，并导致更多的负物种关联。总之，我们的研究表明，在气候干旱和土地利用变化情景下，土壤真菌与干旱生态系统中细菌生物地理模式和群落聚集机制的联系取得了重大进展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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iMeta

CiteScore

10.80

自引率

0.00%

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