Abstract
Abiotic production of H{sub 2} from basalt reactions in aqueous solutions is hypothesized to support microbial ecosystems in deep subsurface aquifers, such as those found in the Columbia River Basalt group (CRB). The authors investigated factors controlling this phenomenon, including rock composition, pH, temperature, sterilization method, reducing agents, and product removal. Ferrous silicate minerals were found to be the basalt components responsible for H{sub 2} production from anaerobic water-rock interactions. H{sub 2} evolution was faster at pH < 7 but occurred from pH 5 to pH 11, which covers the pH range (7--10) measured in CRB groundwaters. The onset of H{sub 2} evolution coincided with the appearance of dissolved Fe{sup 2+}, and an apparent alkaline inhibition could be alleviated by the addition of excess FeCl{sub 2}. This may reflect, in part, the low redox conditions needed for H{sub 2} evolution and suggests that H{sub 2} may be controlled by reaction rates of ferrous silicate minerals. Rates were higher at 60 C than at 30 C, suggesting that the geothermal gradient may lead to increased H{sub 2} production at depth. The results were consistent with the hypothesis at depth. The results were consistent with the hypothesis that basalt-redox reactions support primarymore » production by microorganisms in some terrestrial subsurface environments.« less
Published Version
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