Add to ORKGThe oxidation of organic matter coupled to the reduction of Fe(III) or Mn(IV) is one of the most important biogeochemical reactions in aquatic sediments, soils, and groundwater. This process, which may have been the first globally significant mechanism for the oxidation of organic matter to carbon dioxide, plays an important role in the oxidation of natural and contaminant organic compounds in a variety of environments and contributes to other phenomena of widespread significance such as the release of metals and nutrients into water supplies, the magnetization of sediments, and the corrosion of metal. Until recently, much of the Fe(III) and Mn(IV) reduction in sedimentary environments was considered to be the result of nonenzymatic process...
Fe(III) is available as an electron acceptor in many modern hot (80–110°C) sedimentary environments ...
Dissimilatory microbial iron(III)-reduction has been proposed as an important chemical change that t...
The biogenic reduction of Mn(IV) oxides is one of the most favorable anaerobic electron transfer pro...
Despite the environmental significance of microbial manganese reduction, the molecular mechanism of ...
Abstract: In the natural environment, manganese is found as reduced soluble or adsorbed Mn(II) and i...
This research characterized the Mn(II) oxidizing bacterial populations in a freshwater creek and a s...
Dissimilatory metal-reducing bacteria (DMRB) play an important role in the biogeochemical cycling of...
Spreading liquid organic wastes on soil enhances the risks of anaerobiosis and metal mobilization. O...
Anaerobic oxidation of methane (AOM) can be coupled to the reduction of sulfate, nitrate and nitrite...
The role of redox processes in determining the chemistry of iron and manganese is considered systema...
The reduction of Fe(III) is one of the most significant reactions that takes place as anaerobic cond...
The reduction of Fe(III) is one of the most significant reactions that takes place as anaerobic cond...
Microbial reduction of Fe(III) minerals is a prominent process in redoximorphic soils and is strongl...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
Anderson Abstract Dissimilatory Fe(III)-reducing microorgan-isms have the ability to destroy organic...
Fe(III) is available as an electron acceptor in many modern hot (80–110°C) sedimentary environments ...
Dissimilatory microbial iron(III)-reduction has been proposed as an important chemical change that t...
The biogenic reduction of Mn(IV) oxides is one of the most favorable anaerobic electron transfer pro...
Despite the environmental significance of microbial manganese reduction, the molecular mechanism of ...
Abstract: In the natural environment, manganese is found as reduced soluble or adsorbed Mn(II) and i...
This research characterized the Mn(II) oxidizing bacterial populations in a freshwater creek and a s...
Dissimilatory metal-reducing bacteria (DMRB) play an important role in the biogeochemical cycling of...
Spreading liquid organic wastes on soil enhances the risks of anaerobiosis and metal mobilization. O...
Anaerobic oxidation of methane (AOM) can be coupled to the reduction of sulfate, nitrate and nitrite...
The role of redox processes in determining the chemistry of iron and manganese is considered systema...
The reduction of Fe(III) is one of the most significant reactions that takes place as anaerobic cond...
The reduction of Fe(III) is one of the most significant reactions that takes place as anaerobic cond...
Microbial reduction of Fe(III) minerals is a prominent process in redoximorphic soils and is strongl...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
Anderson Abstract Dissimilatory Fe(III)-reducing microorgan-isms have the ability to destroy organic...
Fe(III) is available as an electron acceptor in many modern hot (80–110°C) sedimentary environments ...
Dissimilatory microbial iron(III)-reduction has been proposed as an important chemical change that t...
The biogenic reduction of Mn(IV) oxides is one of the most favorable anaerobic electron transfer pro...