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Deep-biosphere methane production stimulated by geofluids in the Nankai accretionary complex.

Akira IjiriFumio InagakiYusuke KuboRishi R AdhikariShohei HattoriTatsuhiko HoshinoHiroyuki ImachiShinsuke KawagucciYuki MoronoYoko OhtomoShuhei OnoSanae SakaiKen TakaiTomohiro TokiDavid T WangMarcos Yukio YoshinagaGail L ArnoldJuichiro AshiDavid H CaseTomas FesekerKai-Uwe HinrichsYojiro IkegawaMinoru IkeharaJens KallmeyerHidenori KumagaiMark A LeverSumito MoritaKo-Ichi NakamuraYuki NakamuraManabu NishizawaVictoria J OrphanHans RøyFrauke SchmidtAtsushi TaniWataru TanikawaTakeshi TeradaHitoshi TomaruTakeshi TsujiUrumu TsunogaiYasuhiko T YamaguchiNaohiro Yoshida
Published in: Science advances (2018)
Microbial life inhabiting subseafloor sediments plays an important role in Earth's carbon cycle. However, the impact of geodynamic processes on the distributions and carbon-cycling activities of subseafloor life remains poorly constrained. We explore a submarine mud volcano of the Nankai accretionary complex by drilling down to 200 m below the summit. Stable isotopic compositions of water and carbon compounds, including clumped methane isotopologues, suggest that ~90% of methane is microbially produced at 16° to 30°C and 300 to 900 m below seafloor, corresponding to the basin bottom, where fluids in the accretionary prism are supplied via megasplay faults. Radiotracer experiments showed that relatively small microbial populations in deep mud volcano sediments (102 to 103 cells cm-3) include highly active hydrogenotrophic methanogens and acetogens. Our findings indicate that subduction-associated fluid migration has stimulated microbial activity in the mud reservoir and that mud volcanoes may contribute more substantially to the methane budget than previously estimated.
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