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6037767 
Journal Article 
Rapid rates of aerobic methane oxidation at the feather edge of gas hydrate stability in the waters of Hudson Canyon, US Atlantic Margin 
Leonte, M; Kessler, JD; Kellermann, MY; Arrington, EC; Valentine, DL; Sylva, SP 
2017 
Yes 
Geochimica et Cosmochimica Acta
ISSN: 0016-7037 
204 
375-387 
WOS:000402487100022 
Aerobic oxidation is an important methane sink in seawater overlying gas seeps. Recent surveys have identified active methane seeps in the waters of Hudson Canyon, US Atlantic Margin near the updip limit of methane clathrate hydrate stability. The close proximity of these seeps to the upper stability limit of methane hydrates suggests that changing bottom water temperatures may influence the release rate of methane into the overlying water column. In order to assess the significance of aerobic methane oxidation in limiting the atmospheric expression of methane released from Hudson Canyon, the total extent of methane oxidized along with integrated oxidation rates were quantified. These calculations were performed by combining the measurements of the natural levels of methane concentrations, stable carbon isotopes, and water current velocities into kinetic isotope models yielding rates ranging from 22.8±17 to 116±76nM/day with an average of 62.7±37nM/day. Furthermore, an average of 63% of methane released into the water column from an average depth of 515m was oxidized before leaving this relatively small study area (6.5km2). Results from the kinetic isotope model were compared to previously-published but concurrently-sampled ex situ measurements of oxidation potential performed using 13C-labeled methane. Ex situ rates were substantially lower, ranging from 0.1 to 22.5nM/day with an average of 5.6±2.3nM/day, the discrepancy likely due to the inherent differences between these two techniques. Collectively, the results reveal exceptionally-rapid methane oxidation, with turnover times for methane as low as 0.3–3.7days, indicating that methane released to the water column is removed quantitatively within the greater extent of Hudson Canyon. 
Methane clathrate hydrates; Methane oxidation; Stable isotope fractionation; Oxidation rates