A functional microbiome catalogue crowdsourced from North American rivers

IF 50.5 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Nature Pub Date : 2024-11-20 DOI:10.1038/s41586-024-08240-z
Mikayla A. Borton, Bridget B. McGivern, Kathryn R. Willi, Ben J. Woodcroft, Annika C. Mosier, Derick M. Singleton, Ted Bambakidis, Aaron Pelly, Rebecca A. Daly, Filipe Liu, Andrew Freiburger, Janaka N. Edirisinghe, José P. Faria, Robert Danczak, Ikaia Leleiwi, Amy E. Goldman, Michael J. Wilkins, Ed K. Hall, Christa Pennacchio, Simon Roux, Emiley A. Eloe-Fadrosh, Stephen P. Good, Matthew B. Sullivan, Elisha M. Wood-Charlson, Christopher S. Miller, Matthew R. V. Ross, Christopher S. Henry, Byron C. Crump, James C. Stegen, Kelly C. Wrighton
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Abstract

Predicting elemental cycles and maintaining water quality under increasing anthropogenic influence requires knowledge of the spatial drivers of river microbiomes. However, understanding of the core microbial processes governing river biogeochemistry is hindered by a lack of genome-resolved functional insights and sampling across multiple rivers. Here we used a community science effort to accelerate the sampling, sequencing and genome-resolved analyses of river microbiomes to create the Genome Resolved Open Watersheds database (GROWdb). GROWdb profiles the identity, distribution, function and expression of microbial genomes across river surface waters covering 90% of United States watersheds. Specifically, GROWdb encompasses microbial lineages from 27 phyla, including novel members from 10 families and 128 genera, and defines the core river microbiome at the genome level. GROWdb analyses coupled to extensive geospatial information reveals local and regional drivers of microbial community structuring, while also presenting foundational hypotheses about ecosystem function. Building on the previously conceived River Continuum Concept1, we layer on microbial functional trait expression, which suggests that the structure and function of river microbiomes is predictable. We make GROWdb available through various collaborative cyberinfrastructures2,3, so that it can be widely accessed across disciplines for watershed predictive modelling and microbiome-based management practices.

Abstract Image

从北美河流中收集的功能微生物组目录
要在人为影响不断增加的情况下预测元素循环和保持水质,就必须了解河流微生物群的空间驱动因素。然而,对河流生物地球化学的核心微生物过程的了解却因缺乏基因组解析功能洞察力和跨多条河流采样而受到阻碍。在这里,我们利用社区科学努力加速河流微生物组的取样、测序和基因组解析分析,创建了基因组解析开放流域数据库(GROWdb)。GROWdb 描述了覆盖美国 90% 流域的河流地表水微生物基因组的特征、分布、功能和表达。具体来说,GROWdb 涵盖了 27 个门的微生物系,包括 10 个科和 128 个属的新成员,并在基因组水平上定义了核心河流微生物组。GROWdb 分析与广泛的地理空间信息相结合,揭示了微生物群落结构的地方和区域驱动因素,同时也提出了有关生态系统功能的基本假设。在之前构想的河流连续性概念1 的基础上,我们对微生物功能性状表达进行了分层,这表明河流微生物群落的结构和功能是可以预测的。我们通过各种合作网络基础设施2,3 提供 GROWdb,以便各学科广泛使用,用于流域预测建模和基于微生物组的管理实践。
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来源期刊
Nature
Nature 综合性期刊-综合性期刊
CiteScore
90.00
自引率
1.20%
发文量
3652
审稿时长
3 months
期刊介绍: Nature is a prestigious international journal that publishes peer-reviewed research in various scientific and technological fields. The selection of articles is based on criteria such as originality, importance, interdisciplinary relevance, timeliness, accessibility, elegance, and surprising conclusions. In addition to showcasing significant scientific advances, Nature delivers rapid, authoritative, insightful news, and interpretation of current and upcoming trends impacting science, scientists, and the broader public. The journal serves a dual purpose: firstly, to promptly share noteworthy scientific advances and foster discussions among scientists, and secondly, to ensure the swift dissemination of scientific results globally, emphasizing their significance for knowledge, culture, and daily life.
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