绘制多王国冰川补给溪流微生物组的宏基因组多样性图谱。

Mapping the metagenomic diversity of the multi-kingdom glacier-fed stream microbiome.

作者信息

Michoud Grégoire, Peter Hannes, Busi Susheel Bhanu, Bourquin Massimo, Kohler Tyler J, Geers Aileen, Ezzat Leila, Battin Tom J

机构信息

River Ecosystems Laboratory, Alpine and Polar Environmental Research Center, ENAC, Ecole Polytechnique Fédérale de Lausanne, Sion, Switzerland.

UK Centre for Ecology and Hydrology, Wallingford, UK.

出版信息

Nat Microbiol. 2025 Jan;10(1):217-230. doi: 10.1038/s41564-024-01874-9. Epub 2025 Jan 2.

DOI:10.1038/s41564-024-01874-9

PMID:39747693

Abstract

Glacier-fed streams (GFS) feature among Earth's most extreme aquatic ecosystems marked by pronounced oligotrophy and environmental fluctuations. Microorganisms mainly organize in biofilms within them, but how they cope with such conditions is unknown. Here, leveraging 156 metagenomes from the Vanishing Glaciers project obtained from sediment samples in GFS from 9 mountains ranges, we report thousands of metagenome-assembled genomes (MAGs) encompassing prokaryotes, algae, fungi and viruses, that shed light on biotic interactions within glacier-fed stream biofilms. A total of 2,855 bacterial MAGs were characterized by diverse strategies to exploit inorganic and organic energy sources, in part via functional redundancy and mixotrophy. We show that biofilms probably become more complex and switch from chemoautotrophy to heterotrophy as algal biomass increases in GFS owing to glacier shrinkage. Our MAG compendium sheds light on the success of microbial life in GFS and provides a resource for future research on a microbiome potentially impacted by climate change.

摘要

冰川补给溪流（GFS）是地球上最极端的水生生态系统之一，其特点是明显的贫营养化和环境波动。微生物主要以生物膜的形式存在于其中，但它们如何应对这些条件尚不清楚。在这里，我们利用从9个山脉的GFS沉积物样本中获得的“消失的冰川”项目的156个宏基因组，报告了数千个宏基因组组装基因组（MAGs），涵盖原核生物、藻类、真菌和病毒，这些基因组揭示了冰川补给溪流生物膜内的生物相互作用。共有2855个细菌MAGs具有多种利用无机和有机能源的策略，部分是通过功能冗余和混合营养。我们表明，由于冰川退缩，随着GFS中藻类生物量的增加，生物膜可能会变得更加复杂，并从化学自养转变为异养。我们的MAG汇编揭示了GFS中微生物生命的成功，并为未来对可能受气候变化影响的微生物群落的研究提供了资源。

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绘制多王国冰川补给溪流微生物组的宏基因组多样性图谱。

Mapping the metagenomic diversity of the multi-kingdom glacier-fed stream microbiome.

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