Impact of an historic underground gas well blowout on the current methane chemistry in a shallow groundwater system.
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ABSTRACT: Blowouts present a small but genuine risk when drilling into the deep subsurface and can have an immediate and significant impact on the surrounding environment. Nevertheless, studies that document their long-term impact are scarce. In 1965, a catastrophic underground blowout occurred during the drilling of a gas well in The Netherlands, which led to the uncontrolled release of large amounts of natural gas from the reservoir to the surface. In this study, the remaining impact on methane chemistry in the overlying aquifers was investigated. Methane concentrations higher than 10 mg/L (n = 12) were all found to have ?13C-CH4 values larger than -30‰, typical of a thermogenic origin. Both ?13C-CH4 and ?D-CH4 correspond to the isotopic composition of the gas reservoir. Based on analysis of local groundwater flow conditions, this methane is not a remnant but most likely the result of ongoing leakage from the reservoir as a result of the blowout. Progressive enrichment of both ?13C-CH4 and ?D-CH4 is observed with increasing distance and decreasing methane concentrations. The calculated isotopic fractionation factors of ?C = 3 and ?D = 54 suggest anaerobic methane oxidation is partly responsible for the observed decrease in concentrations. Elevated dissolved iron and manganese concentrations at the fringe of the methane plume show that oxidation is primarily mediated by the reduction of iron and manganese oxides. Combined, the data reveal the long-term impact that underground gas well blowouts may have on groundwater chemistry, as well as the important role of anaerobic oxidation in controlling the fate of dissolved methane.
SUBMITTER: Schout G
PROVIDER: S-EPMC5777038 | biostudies-literature | 2018 Jan
REPOSITORIES: biostudies-literature
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