2014
DOI: 10.3389/fmicb.2014.00209
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Changes in the deep subsurface microbial biosphere resulting from a field-scale CO2 geosequestration experiment

Abstract: Subsurface microorganisms may respond to increased CO2 levels in ways that significantly affect pore fluid chemistry. Changes in CO2 concentration or speciation may result from the injection of supercritical CO2 (scCO2) into deep aquifers. Therefore, understanding subsurface microbial responses to scCO2, or unnaturally high levels of dissolved CO2, will help to evaluate the use of geosequestration to reduce atmospheric CO2 emissions. This study characterized microbial community changes at the 16S rRNA gene lev… Show more

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Cited by 46 publications
(64 citation statements)
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References 59 publications
(66 reference statements)
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“…Indeed, the King Island core, which yielded the highest number of scCO 2 -tolerant isolates, was unconsolidated sandstone and fully penetrated by drilling fluid based on tracer data. Notably, drilling fluid characterized by Mu et al (22) was dominated by sequences of Bacilli.…”
Section: Discussionmentioning
confidence: 99%
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“…Indeed, the King Island core, which yielded the highest number of scCO 2 -tolerant isolates, was unconsolidated sandstone and fully penetrated by drilling fluid based on tracer data. Notably, drilling fluid characterized by Mu et al (22) was dominated by sequences of Bacilli.…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, high-pressure incubations to simulate reservoir conditions with elevated (but not supercritical) CO 2 have demonstrated activity of acetoclastic methanogens (under 49.3-atm pressure with 86.4 mM CO 2 ) (19) and homoacetogens (under 395-atm total pressure with 126 mM CO 2 ) (20). Recently, field studies at the Ketzin CO 2 sequestration site in Germany and the Otway Basin site in Australia provided evidence that changes in microbial community composition occur following CO 2 injection, suggesting that a combination of processes, including differential survival and possibly growth, occurs in the subsurface after exposure to near-and supercritical levels of CO 2 (21,22).…”
mentioning
confidence: 99%
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“…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: 48%
“…Other field studies have also been performed at CO 2 injection sites, all examining microbial community profiles using molecular techniques (Morozova et al, 2011;Mu et al, 2014;Mu and Moreau, 2015) and showing that microbial community changes will occur as a result of CO 2 perturbation into the subsurface sytem.…”
Section: Introductionmentioning
confidence: 99%