Liu Qi, Kämpf Horst, Bussert Robert, Krauze Patryk, Horn Fabian, Nickschick Tobias, Plessen Birgit, Wagner Dirk, Alawi Mashal
GFZ German Research Centre for Geosciences, Section Geomicrobiology, Potsdam, Germany.
GFZ German Research Centre for Geosciences, Section Organic Geochemistry, Potsdam, Germany.
Front Microbiol. 2018 Nov 21;9:2787. doi: 10.3389/fmicb.2018.02787. eCollection 2018.
The Cheb Basin (CZ) is a shallow Neogene intracontinental basin filled with fluvial and lacustrine sediments that is located in the western part of the Eger Rift. The basin is situated in a seismically active area and is characterized by diffuse degassing of mantle-derived CO in mofette fields. The Hartoušov mofette field shows a daily CO flux of 23-97 tons of CO released over an area of 0.35 km and a soil gas concentration of up to 100% CO. The present study aims to explore the geo-bio interactions provoked by the influence of elevated CO concentrations on the geochemistry and microbial community of soils and sediments. To sample the strata, two 3-m cores were recovered. One core stems from the center of the degassing structure, whereas the other core was taken 8 m from the ENE and served as an undisturbed reference site. The sites were compared regarding their geochemical features, microbial abundances, and microbial community structures. The mofette site is characterized by a low pH and high TOC/sulfate contents. Striking differences in the microbial community highlight the substantial impact of elevated CO concentrations and their associated side effects on microbial processes. The abundance of microbes did not show a typical decrease with depth, indicating that the uprising CO-rich fluid provides sufficient substrate for chemolithoautotrophic anaerobic microorganisms. Illumina MiSeq sequencing of the 16S rRNA genes and multivariate statistics reveals that the pH strongly influences microbial composition and explains around 38.7% of the variance at the mofette site and 22.4% of the variance between the mofette site and the undisturbed reference site. Accordingly, acidophilic microorganisms (e.g., OTUs assigned to and ) displayed a much higher relative abundance at the mofette site than at the reference site. The microbial community at the mofette site is characterized by a high relative abundance of methanogens and taxa involved in sulfur cycling. The present study provides intriguing insights into microbial life and geo-bio interactions in an active seismic region dominated by emanating mantle-derived CO-rich fluids, and thereby builds the basis for further studies, e.g., focusing on the functional repertoire of the communities. However, it remains open if the observed patterns can be generalized for different time-points or sites.
切布盆地(捷克共和国)是一个浅的新近纪陆内盆地,充填有河流和湖泊沉积物,位于埃格尔裂谷的西部。该盆地位于一个地震活跃区,其特征是在碳酸喷气田中有来自地幔的一氧化碳的扩散脱气。哈图绍夫碳酸喷气田显示,在面积为0.35平方千米的区域内,每日一氧化碳通量为23 - 97吨,土壤气体中一氧化碳浓度高达100%。本研究旨在探索高浓度一氧化碳对土壤和沉积物地球化学及微生物群落的影响所引发的地质 - 生物相互作用。为了采集地层样本,获取了两根3米长的岩芯。一根岩芯取自脱气结构的中心,而另一根岩芯取自东北偏东方向8米处,作为未受干扰的参考点。对这两个地点的地球化学特征、微生物丰度和微生物群落结构进行了比较。碳酸喷气田地点的特点是pH值低,总有机碳/硫酸盐含量高。微生物群落的显著差异突出了高浓度一氧化碳及其相关副作用对微生物过程的重大影响。微生物丰度并未随深度呈现典型的下降趋势,这表明上升的富含一氧化碳的流体为化能自养厌氧微生物提供了足够的底物。对16S rRNA基因进行的Illumina MiSeq测序和多变量统计表明,pH值强烈影响微生物组成,在碳酸喷气田地点解释了约38.7%的变异,在碳酸喷气田地点与未受干扰的参考点之间的差异中解释了22.4%的变异。因此,嗜酸微生物(例如,归类于 和 的操作分类单元)在碳酸喷气田地点的相对丰度远高于参考点。碳酸喷气田地点的微生物群落的特点是产甲烷菌和参与硫循环的分类群的相对丰度较高。本研究为活跃地震区以地幔衍生的富含一氧化碳流体逸出为主导的微生物生命和地质 - 生物相互作用提供了有趣的见解,从而为进一步研究(例如,关注群落的功能库)奠定了基础。然而,对于不同时间点或地点,所观察到的模式是否能够普遍适用仍有待探讨。
