Weiqiang Li scite author profile

Banded iron formations (BIFs) record a time of extensive Fe deposition in the Precambrian oceans, but the sources and pathways for metals in BIFs remain controversial. Here, we present Fe- and Nd-isotope data that indicate two sources of Fe for the large BIF units deposited 2.5 billion y ago. High-εNd and -δ56Fe signatures in some BIF samples record a hydrothermal component, but correlated decreases in εNd- and δ56Fe values reflect contributions from a continental component. The continental Fe source is best explained by Fe mobilization on the continental margin by microbial dissimilatory iron reduction (DIR) and confirms for the first time, to our knowledge, a microbially driven Fe shuttle for the largest BIFs on Earth. Detailed sampling at various scales shows that the proportions of hydrothermal and continental Fe sources were invariant over periods of 100–103 y, indicating that there was no seasonal control, although Fe sources varied on longer timescales of 105–106 y, suggesting a control by marine basin circulation. These results show that Fe sources and pathways for BIFs reflect the interplay between abiologic (hydrothermal) and biologic processes, where the latter reflects DIR that operated on a basin-wide scale in the Archean.

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Exchange and fractionation of Mg isotopes between epsomite and saturated MgSO4 solution

Beard

Johnson

2011

Geochimica et Cosmochimica Acta

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Weiqiang Li

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A redox-stratified ocean 3.2 billion years ago

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An anoxic, Fe(II)-rich, U-poor ocean 3.46 billion years ago

Biologically recycled continental iron is a major component in banded iron formations

Exchange and fractionation of Mg isotopes between epsomite and saturated MgSO4 solution

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