含水层沉积物中非凡的系统发育多样性和代谢多功能性。

Extraordinary phylogenetic diversity and metabolic versatility in aquifer sediment.

机构信息

Department of Earth and Planetary Science, University of California, Berkeley, California 94720, USA.

出版信息

Nat Commun. 2013;4:2120. doi: 10.1038/ncomms3120.

DOI:10.1038/ncomms3120

PMID:23979677

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3903129/

Abstract

Microorganisms in the subsurface represent a substantial but poorly understood component of the Earth's biosphere. Subsurface environments are complex and difficult to characterize; thus, their microbiota have remained as a 'dark matter' of the carbon and other biogeochemical cycles. Here we deeply sequence two sediment-hosted microbial communities from an aquifer adjacent to the Colorado River, CO, USA. No single organism represents more than ~1% of either community. Remarkably, many bacteria and archaea in these communities are novel at the phylum level or belong to phyla lacking a sequenced representative. The dominant organism in deeper sediment, RBG-1, is a member of a new phylum. On the basis of its reconstructed complete genome, RBG-1 is metabolically versatile. Its wide respiration-based repertoire may enable it to respond to the fluctuating redox environment close to the water table. We document extraordinary microbial novelty and the importance of previously unknown lineages in sediment biogeochemical transformations.

摘要

地下微生物代表了地球生物圈中一个重要但尚未被充分了解的组成部分。地下环境复杂且难以描述；因此，它们的微生物群落一直是碳和其他生物地球化学循环的“暗物质”。在这里，我们对美国科罗拉多河附近含水层中的两个沉积物栖息的微生物群落进行了深度测序。没有任何一种生物在两个群落中都占比超过~1%。值得注意的是，这些群落中的许多细菌和古菌在门水平上是新的，或者属于缺乏测序代表的门。在更深的沉积物中占主导地位的生物体 RBG-1 是一个新门的成员。基于其重建的完整基因组，RBG-1 具有多功能的代谢能力。其广泛的基于呼吸的 repertoire 可能使它能够响应接近地下水位的不断变化的氧化还原环境。我们记录了非凡的微生物新颖性和以前未知谱系在沉积物生物地球化学转化中的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4daa/3903129/c1ba836968de/ncomms3120-f1.jpg

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含水层沉积物中非凡的系统发育多样性和代谢多功能性。

Extraordinary phylogenetic diversity and metabolic versatility in aquifer sediment.

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