2015
DOI: 10.1111/1462-2920.12817
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Metagenomic analysis of a high carbon dioxide subsurface microbial community populated by chemolithoautotrophs and bacteria and archaea from candidate phyla

Abstract: Research on geologic carbon sequestration raises questions about potential impacts of subsurface microbiota on carbon cycling and biogeochemistry. Subsurface, high-CO2 systems are poorly biologically characterized, partly because of difficulty accessing high-volume, uncontaminated samples. CO2 -driven Crystal Geyser (CG, Utah, USA), an established geologic carbon sequestration analogue, provides high volumes of deep (∼ 200-500 m) subsurface fluids. We explored microbial diversity and metabolic potential in thi… Show more

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Cited by 94 publications
(119 citation statements)
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“…For the Rifle data, DNA extraction, sequencing, assembly, and genome reconstruction were described by Anantharaman et al (2016) 26 and Brown et al (2015) 6 . For samples from Crystal Geyser, methods follow those described by Probst et al (2016) 38 and Emerson et al (2016) 39 . Rifle metatranscriptomic data was used from the data reported by Brown et al (2015) 6 .…”
mentioning
confidence: 99%
“…For the Rifle data, DNA extraction, sequencing, assembly, and genome reconstruction were described by Anantharaman et al (2016) 26 and Brown et al (2015) 6 . For samples from Crystal Geyser, methods follow those described by Probst et al (2016) 38 and Emerson et al (2016) 39 . Rifle metatranscriptomic data was used from the data reported by Brown et al (2015) 6 .…”
mentioning
confidence: 99%
“…Approximately 9.7 m of silicone tubing (Masterflex, Vernon Hills, IL) was lowered into the Crystal Geyser outlet and water pumped at a rate of 200 ml/min into a sterile container to allow for excess CO 2 to exsolve. We chose this method in comparison to Emerson et al (2015) in order to reduce the amount of oxidized Fe passing through filters so that clogging would not occur as quickly. Water was then filtered through a 90 mm, 0.1 µm sterile polycarbonate filter (Millipore, Billerica, MA) in a sterile stainless steel filter apparatus.…”
Section: Field Samplingmentioning
confidence: 99%
“…The source of water coming from Crystal Geyser is a combination of deeply sourced saline water as well as recharge from the nearby San Rafael swell (Baer and Rigby, 1978;Heath et al, 2009;McPherson and Heath, 2009;Burnside et al, 2013). Because recharge to Crystal Geyser may be seasonal, the microbial community of the site is likely dynamic and this could explain why CG-1 was not detected by Emerson et al (2015). Nevertheless, the detection and cultivation of CG-1 validates the findings of Morozova et al (2011), Mu et al (2014, Emerson et al (2015), Mu and Moreau (2015) showing that organisms present in CO 2 environments are viable and can potentially impact geochemistry.…”
Section: Isolate Growth and Metabolismmentioning
confidence: 99%
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“…The Peregrinibacteria are a lineage within the bacterial CPR (Wrighton et al, 2012;Brown et al, 2015), a monophyletic radiation primarily of candidate phyla. Members of the Peregrinibacteria phylum have been genomically sampled from a contaminated sediment-hosted aquifer (Wrighton et al, 2012;Brown et al, 2015) and a deep subsurface high CO 2 environment (Emerson et al, 2015). However, ribosomal proteins and 16S rRNA gene sequences from this group have been detected in a variety of environments, including sediments and soil .…”
Section: Introductionmentioning
confidence: 99%