posted on 2019-07-12, 21:17authored byTao Wen, Josh Woda, Virginia Marcon, Xianzeng Niu, Zhenhui Li, Susan L. Brantley
Methane
(CH4) enters waters in hydrocarbon-rich basins
because of natural processes and problems related to oil and gas wells.
As a redox-active greenhouse gas, CH4 degrades water or
emits to the atmosphere and contributes to climate change. To detect
if methane migrated from hydrocarbon wells (i.e., anomalous methane),
we examined 20 751 methane-containing groundwaters from the
Upper Appalachian Basin (AB). We looked for concentrations (mg/L)
that indicated AB brine salts (chloride concentrations ([Cl]) >
30;
[Ca]/[Na] < 0.52) to detect natural methane, and we looked for
concentrations of redox-active species ([SO4] ≥
6; [Fe] ≥ 0.3) to detect anomalous methane. These indicators
highlight natural contamination by methane-containing brines or recent
onset of microbial oxidation of methane coupled to iron- or sulfate-reduction.
We hypothesized that only waters recently contaminated by methane
still exhibit high iron and sulfate concentrations. Of the AB samples,
17 (0.08%) from 12 sites indicated potential contamination. All were
located in areas with high densities of shale-gas or conventional
oil/gas wells. In contrast, in southwestern Pennsylvania where brines
are shallow and coal, oil, and gas all have been extracted extensively,
no sites of recent methane migration were detectable. Such indicators
may help screen for contamination in some areas even without predrill
measurements.