Stable carbon and hydrogen isotope measurements on Black Sea water-column methane

We report measurements of δ 13C-CH 4 and δ 2H-CH 4 at a central station in the Black Sea. We considered the Black Sea as a “biogeochemical bucket” and the single station as a basin-wide integrator of processes affecting methane. Considering the rapid (3.6–18 yr) turnover of methane and the similarit...

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Bibliographic Details
Published in:Deep-sea research. Part II, Topical studies in oceanography Topical studies in oceanography, 2006-08, Vol.53 (17), p.1893-1900
Main Authors: Reeburgh, W.S., Tyler, S.C., Carroll, JoLynn
Format: Article
Language:English
Subjects:
Black Sea
Marine
Methane
Stable isotopes
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Summary:We report measurements of δ 13C-CH 4 and δ 2H-CH 4 at a central station in the Black Sea. We considered the Black Sea as a “biogeochemical bucket” and the single station as a basin-wide integrator of processes affecting methane. Considering the rapid (3.6–18 yr) turnover of methane and the similarity of these stable isotope distributions to the methane concentration and oxidation rate profiles [Reeburgh, Ward, Whalen, Sandbeck, Kilpatrick, Kerkhof, 1991. Black Sea methane geochemistry. Deep-Sea Research 38, S1189–S1210], it appears that methane is being added approximately as fast as it is being oxidized. Methane can be thought of as “running in place” in the Black Sea water column. Recent reports of extensive vents on the northern side of the Black Sea suggest that they might be a methane source capable of effectively balancing the Black Sea methane budget. Unfortunately, we have limited information on basin-wide seep fluxes and cannot identify them with stable isotope measurements. Methane oxidation (and accompanying isotope fractionation) is so extensive that the water-column stable isotope measurements provide little information on methane sources. Future measurements of 14C-CH 4 should permit partitioning Black Sea methane sources into fossil and recent components.
ISSN:0967-0645
1879-0100
DOI:10.1016/j.dsr2.2006.03.018