Abundant Porewater Mn(III) Is a Major Component of the Sedimentary Redox System

Abundant Porewater Mn(III) Is a Major Component of the Sedimentary Redox System

Soluble manganese(III) [Mn(III)] can potentially serve as both oxidant and reductant in one-electron-transfer reactions with other redox species. In near-surface sediment porewater, it is often overlooked as a major component of Mn cycling. Applying a spectrophotometric kinetic method to hemipelagic...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2013-08, Vol.341 (6148), p.875-878
Hauptverfasser: Madison, Andrew S., Tebo, Bradley M., Mucci, Alfonso, Sundby, Bjørn, Luther, George W.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum
Biogeochemistry
Chemical reactions
Chemicals
Cycles
Electrons
Estuarine environments
Iron
Ligands
Manganese
Oxidation
Oxidation-reduction reactions
Oxides
Oxygen
Sedimentary geology
Sediments
Species
Valence
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Zusammenfassung:Soluble manganese(III) [Mn(III)] can potentially serve as both oxidant and reductant in one-electron-transfer reactions with other redox species. In near-surface sediment porewater, it is often overlooked as a major component of Mn cycling. Applying a spectrophotometric kinetic method to hemipelagic sediments from the Laurentian Trough (Quebec, Canada), we found that soluble Mn(III), likely stabilized by organic or inorganic ligands, accounts for up to 90% of the total dissolved Mn pool. Vertical profiles of dissolved oxygen and dissolved and solid Mn suggest that soluble Mn(III) is primarily produced via oxidation of Mn(II) diffusing upwards from anoxic sediments with lesser contributions from biotic and abiotic reductive dissolution of MnO 2 . The conceptual model of the sedimentary redox cycle should therefore explicitly include dissolved Mn(III).
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1241396