地质过程介导了深层生物圈中的微生物扩散循环。

Geological processes mediate a microbial dispersal loop in the deep biosphere.

作者信息

Gittins Daniel A, Desiage Pierre-Arnaud, Morrison Natasha, Rattray Jayne E, Bhatnagar Srijak, Chakraborty Anirban, Zorz Jackie, Li Carmen, Horanszky Oliver, Cramm Margaret A, Bisiach Francesco, Bennett Robbie, Webb Jamie, MacDonald Adam, Fowler Martin, Campbell D Calvin, Hubert Casey R J

机构信息

Geomicrobiology Group, Department of Biological Sciences, University of Calgary, Calgary, Canada.

Natural Resources Canada, Geological Survey of Canada-Atlantic, Dartmouth, Canada.

出版信息

Sci Adv. 2022 Aug 26;8(34):eabn3485. doi: 10.1126/sciadv.abn3485.

DOI:10.1126/sciadv.abn3485

PMID:36026445

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9417182/

Abstract

The deep biosphere is the largest microbial habitat on Earth and features abundant bacterial endospores. Whereas dormancy and survival at theoretical energy minima are hallmarks of microbial physiology in the subsurface, ecological processes such as dispersal and selection in the deep biosphere remain poorly understood. We investigated the biogeography of dispersing bacteria in the deep sea where upward hydrocarbon seepage was confirmed by acoustic imagery and geochemistry. Thermophilic endospores in the permanently cold seabed correlated with underlying seep conduits reveal geofluid-facilitated cell migration pathways originating in deep petroleum-bearing sediments. Endospore genomes highlight adaptations to life in anoxic petroleum systems and bear close resemblance to oil reservoir microbiomes globally. Upon transport out of the subsurface, viable thermophilic endospores reenter the geosphere by sediment burial, enabling germination and environmental selection at depth where new petroleum systems establish. This microbial dispersal loop circulates living biomass in and out of the deep biosphere.

摘要

深海生物圈是地球上最大的微生物栖息地，拥有大量的细菌内生孢子。理论能量最小值下的休眠和存活是地下微生物生理学的标志，而深海生物圈中的扩散和选择等生态过程仍知之甚少。我们调查了深海中扩散细菌的生物地理学，声学图像和地球化学证实了那里存在向上的碳氢化合物渗漏现象。在永久寒冷的海床中，与潜在渗流管道相关的嗜热内生孢子揭示了源自深部含油沉积物的地热流体促进的细胞迁移途径。内生孢子基因组突出了对缺氧石油系统中生命的适应性，并且与全球油藏微生物群落极为相似。从地下运出后，有活力的嗜热内生孢子通过沉积物掩埋重新进入地球圈层，从而在新的石油系统形成的深度实现萌发和环境选择。这种微生物扩散循环使生物量在深海生物圈内外循环。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5560/9417182/c9e0304b5d76/sciadv.abn3485-f1.jpg

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地质过程介导了深层生物圈中的微生物扩散循环。

Geological processes mediate a microbial dispersal loop in the deep biosphere.

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