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A new constraint on the antiquity of anaerobic oxidation of methane: late Pennsylvanian seep limestones from southern Namibia

Authors :
Birgel, Daniel
Himmler, Tobias
Freiwald, Andre
Peckmann, Jorn
Source :
Geology. July, 2008, Vol. 36 Issue 7, p543, 4 p.
Publication Year :
2008

Abstract

Late Pennsylvanian seep limestones (ca. 300 Ma) enclosed in the Ganigobis shales in southern Namibia formed by microbial activity. The process that induced carbonate precipitation was the anaerobic oxidation of methane. The presence of [sup.13]C-depleted pentamethylicosane (PMI)(-113[per thousand]) and a mixture of crocetane and phytane (-112[per thousand]) in concert with similarly [sup.13]C-depleted pseudohomologous series of regular isoprenoids reveals that methanotrophic archaea oxidized methane anaerobically at the ancient seep site. Biphytane and a [C.sub.39] pseudohomologue are other archaeal molecular fossils with [delta][sup.13]C values of -99[per thousand] and -97[per thousand], respectively. The former presence of sulfate-reducing bacteria as the syntrophic partners of methanotrophic archaea in the anaerobic oxidation of methane is indicated by isotopically depleted iso- and anteiso-alkanes. These compounds most probably derive from non-isoprenoidal monoethers and diethers, synthates of sulfate-reducing bacteria. These findings show that anaerobic oxidation of methane is at least 300 m.y. old, extending the record of this process for ~140 m.y. As the molecular fossils of archaea and bacteria are preserved in a product of their own metabolic activity (i.e., methane-derived carbonates with [delta][sup.13]C values as low as -51[per thousand]), the syngenicity of molecular fossils and enclosing deposits is unambiguous. This reveals that microbially formed rocks can represent excellent archives for studying past biogeochemical processes. Keywords: anaerobic oxidation, methane, archaea, sulfate-reducing bacteria, seeps, isoprenoids, limestones.

Details

Language :
English
ISSN :
00917613
Volume :
36
Issue :
7
Database :
Gale General OneFile
Journal :
Geology
Publication Type :
Academic Journal
Accession number :
edsgcl.181406588