2017
DOI: 10.1111/gbi.12239
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Shifting microbial communities sustain multiyear iron reduction and methanogenesis in ferruginous sediment incubations

Abstract: Reactive Fe(III) minerals can influence methane (CH ) emissions by inhibiting microbial methanogenesis or by stimulating anaerobic CH oxidation. The balance between Fe(III) reduction, methanogenesis, and CH oxidation in ferruginous Archean and Paleoproterozoic oceans would have controlled CH fluxes to the atmosphere, thereby regulating the capacity for CH to warm the early Earth under the Faint Young Sun. We studied CH and Fe cycling in anoxic incubations of ferruginous sediment from the ancient ocean analogue… Show more

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Cited by 27 publications
(19 citation statements)
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“…The overwhelming majority of recovered methanogen sequence reads in both water columns belong to hydrogenotrophic organisms as opposed to acetoclastic organisms, yet the C‐ and H‐isotopic composition of CH 4 implies a mixture of the two (Table S3). Hydrogenotrophic methanogenesis under ferruginous conditions is consistent with prior studies (see Bray et al, ). The persistence of Fe(III) oxides to sediment has also been observed in other seasonally stratified ferruginous lakes (Davison, ).…”
Section: Discussionsupporting
confidence: 91%
“…The overwhelming majority of recovered methanogen sequence reads in both water columns belong to hydrogenotrophic organisms as opposed to acetoclastic organisms, yet the C‐ and H‐isotopic composition of CH 4 implies a mixture of the two (Table S3). Hydrogenotrophic methanogenesis under ferruginous conditions is consistent with prior studies (see Bray et al, ). The persistence of Fe(III) oxides to sediment has also been observed in other seasonally stratified ferruginous lakes (Davison, ).…”
Section: Discussionsupporting
confidence: 91%
“…1b, 4). Enhanced iron reduction with the more reactive lepidocrocite likely resulted in the inhibition of methanogenesis; a phenomenon previously demonstrated when ferrihydrite was provided to ferruginous lake sediments incubations [53]. However, unlike the sediment incubation with lepidocrocite where iron reduction reached a plateau before methanogenesis onset (Fig.…”
Section: Concurrent Iron Reduction and Methanogenesis In Fifth Generamentioning
confidence: 64%
“…Li et al, 2013a), the presence of Fe(II)-bearing minerals in IF (e.g., magnetite, siderite, greenalite -recall section 2.3), and the general lack of microfossils preserved in the Fe-rich layers lacking silicification. Moreover, the reduction of ferric iron may also have been coupled to the anaerobic oxidation of methane , an observation supported by the reaction's likely occurrence in modern marine sediments (Riedinger et al, 2014) and lakes (Crowe et al, 2011), as well as in culture experiments (Ettwig et al, 2016;Bray et al, 2017). …”
Section: Available Reductants and Diagenesis Of Iron Formationsmentioning
confidence: 82%