超越生物地理模式:塑造长江沿岸土壤和沉积物微生物景观的过程。

IF 4.5 Q1 MICROBIOLOGY
mLife Pub Date : 2023-03-26 eCollection Date: 2023-03-01 DOI:10.1002/mlf2.12062
Wenjie Wan, Geoffrey M Gadd, Ji-Dong Gu, Wenzhi Liu, Peng Chen, Quanfa Zhang, Yuyi Yang
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引用次数: 0

摘要

解密微生物的生物地理格局对于评估微生物多样性的维持情况以及它们所驱动的生态系统功能非常重要。然而,影响微生物在大空间尺度流域分布模式的生态过程在很大程度上仍不为人所知。利用 Illumina 测序和多种统计方法,我们描述了长江沿岸土壤和沉积物中微生物(即古菌、细菌和真菌)的分布模式和维持多样性的特征。结果表明,土壤和沉积物中微生物的分布模式各不相同,随着地理距离的增加,微生物群落相似性显著降低。与地理空间和气候因素相比,物理化学特性对微生物群落组成的影响更大。与沉积物相比,土壤中的古细菌和真菌表现出更强的物种替换能力和更弱的环境限制,而细菌则相反。与沉积物中的古细菌、细菌和真菌相比,土壤中的古细菌、细菌和真菌显示出更宽的环境广度和更强的系统发育信号,表明它们对环境的适应能力更强。随机性主导了土壤和沉积物中古细菌和真菌的群落组合,而确定性主导了细菌群落组合。因此,我们的研究结果突显了土壤和沉积物中不同的微生物分布模式和多样性维持机制,并强调了物种替换、环境适应性和生态组装过程对微生物景观的重要作用。我们的研究结果有助于预测长江流域微生物多样性的丧失,并有助于制定保护脆弱流域的环境政策。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Beyond biogeographic patterns: Processes shaping the microbial landscape in soils and sediments along the Yangtze River.

Deciphering biogeographic patterns of microorganisms is important for evaluating the maintenance of microbial diversity with respect to the ecosystem functions they drives. However, ecological processes shaping distribution patterns of microorganisms across large spatial-scale watersheds remain largely unknown. Using Illumina sequencing and multiple statistical methods, we characterized distribution patterns and maintenance diversity of microorganisms (i.e., archaea, bacteria, and fungi) in soils and sediments along the Yangtze River. Distinct microbial distribution patterns were found between soils and sediments, and microbial community similarity significantly decreased with increasing geographical distance. Physicochemical properties showed a larger effect on microbial community composition than geospatial and climatic factors. Archaea and fungi displayed stronger species replacements and weaker environmental constraints in soils than that in sediments, but opposite for bacteria. Archaea, bacteria, and fungi in soils showed broader environmental breadths and stronger phylogenetic signals compared to those in sediments, suggesting stronger environmental adaptation. Stochasticity dominated community assemblies of archaea and fungi in soils and sediments, whereas determinism dominated bacterial community assembly. Our results have therefore highlighted distinct microbial distribution patterns and diversity maintenance mechanisms between soils and sediments, and emphasized important roles of species replacement, environmental adaptability, and ecological assembly processes on microbial landscape. Our findings are helpful in predicting loss of microbial diversity in the Yangtze River Basin, and might assist the establishment of environmental policies for protecting fragile watersheds.

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CiteScore
2.30
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