Bradley M. Tebo scite author profile

▪ Abstract Manganese(IV) oxides produced through microbial activity, i.e., biogenic Mn oxides or Mn biooxides, are believed to be the most abundant and highly reactive Mn oxide phases in the environment. They mediate redox reactions with organic and inorganic compounds and sequester a variety of metals. The major pathway for bacterial Mn(II) oxidation is enzymatic, and although bacteria that oxidize Mn(II) are phylogenetically diverse, they require a multicopper oxidase-like enzyme to oxidize Mn(II). The oxidation of Mn(II) to Mn(IV) occurs via a soluble or enzyme-complexed Mn(III) intermediate. The primary Mn(IV) biooxide formed is a phyllomanganate most similar to δ-MnO2 or acid birnessite. Metal sequestration by the Mn biooxides occurs predominantly at vacant layer octahedral sites.

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Geomicrobiology of manganese(II) oxidation

Tebo¹,

Johnson²,

McCarthy³

et al. 2005

Trends in Microbiology

632

420

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Structural characterization of biogenic Mn oxides produced in seawater by the marine bacillus sp. strain SG-1

Webb

Tebo

Bargar

2005

American Mineralogist

254

320

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Bradley M. Tebo

BIOGENIC MANGANESE OXIDES: Properties and Mechanisms of Formation

Geomicrobiology of manganese(II) oxidation

Structural characterization of biogenic Mn oxides produced in seawater by the marine bacillus sp. strain SG-1

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