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Microbially induced potassium enrichment in Paleoproterozoic shales and implications for reverse weathering on early Earth.


ABSTRACT: Illitisation requires potassium incorporation into a smectite precursor, a process akin to reverse weathering. However, it remains unclear whether microbes facilitate K+ uptake to the sediments and whether illitisation was important in the geological past. The 2.1 billion-year-old Francevillian Series of Gabon has been shown to host mat-related structures (MRS) and, in this regard, these rocks offer a unique opportunity to test whether ancient microbes induced illitisation. Here, we show high K content confined to illite particles that are abundant in the facies bearing MRS, but not in the host sandstone and black shale. This observation suggests that microbial biofilms trapped K+ from the seawater and released it into the pore-waters during respiration, resulting in illitisation. The K-rich illite developed exclusively in the fossilized MRS thus provides a new biosignature for metasediments derived from K-feldspar-depleted rocks that were abundant crustal components on ancient Earth.

SUBMITTER: Aubineau J 

PROVIDER: S-EPMC6572813 | biostudies-literature | 2019 Jun

REPOSITORIES: biostudies-literature

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Microbially induced potassium enrichment in Paleoproterozoic shales and implications for reverse weathering on early Earth.

Aubineau Jérémie J   El Albani Abderrazak A   Bekker Andrey A   Somogyi Andrea A   Bankole Olabode M OM   Macchiarelli Roberto R   Meunier Alain A   Riboulleau Armelle A   Reynaud Jean-Yves JY   Konhauser Kurt O KO  

Nature communications 20190617 1


Illitisation requires potassium incorporation into a smectite precursor, a process akin to reverse weathering. However, it remains unclear whether microbes facilitate K<sup>+</sup> uptake to the sediments and whether illitisation was important in the geological past. The 2.1 billion-year-old Francevillian Series of Gabon has been shown to host mat-related structures (MRS) and, in this regard, these rocks offer a unique opportunity to test whether ancient microbes induced illitisation. Here, we s  ...[more]

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