Add to ORKGThe influence of aqueous (NTA and EDTA) and solidphase (aluminum oxide, layer silicates) Fe(II) complexants on the long-term microbial reduction of synthetic goethite by Shewanella alga strain BrY was studied. NTA enhanced goethite reduction by promoting aqueous Fe(II) accumulation, in direct proportion to its concentration in culture medium (0.01-5 mM). In contrast, EDTA failed to stimulate goethite reduction at concentrations e1 mM, and 5 mM EDTA enhanced the final extent of reduction by only 25% in relation to nonchelator controls. The minor effect of EDTA compared to NTA, despite the greater stability of the Fe(II)- EDTA complex, likely resulted from sorption of Fe(II)- EDTA complexes to goethite. Equilibrium Fe(II) speciation calculati...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
A quantitative study was performed to understand how Fe(III) site occupancy controls Fe(III) bioredu...
Quantitative aspects of microbial crystalline iron- (III) oxide reduction were examined using a diss...
Quantitative aspects of microbial crystalline iron- (III) oxide reduction were examined using a diss...
Laboratory experiments were conducted with suspensions of goethite (α-FeOOH) and a subsurface sedime...
The influence of Fe(II) on the dissimilatory bacterial reduction of an Fe(III) aqueous complex (Fe(I...
The microbiologic reduction of a 0.2 to 2.0 µm size fraction of an Atlantic coastal plain sediment (...
Laboratory experiments were conducted with suspensions of goethite (α-FeOOH) and a subsurface sedime...
Trace metals associate with Fe(III) oxides as adsorbed or coprecipitated species, and consequently, ...
Trace metals associate with Fe(III) oxides as adsorbed or coprecipitated species, and consequently, ...
The influence of Fe(II) on the dissimilatory bacterial reduction of an Fe(III) aqueous complex (Fe(I...
This is the final report for Grant No. DEFGO2-98ER62691 submitted to the DOE NABR Program. This rese...
Dissimilatory metal reducing bacteria (DMRB) catalyze the reduction of Fe(III) to Fe(II) in anoxic s...
The kinetics of dissimilatory reduction of goethite (RFeOOH) was studied in batch cultures of a grou...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
A quantitative study was performed to understand how Fe(III) site occupancy controls Fe(III) bioredu...
Quantitative aspects of microbial crystalline iron- (III) oxide reduction were examined using a diss...
Quantitative aspects of microbial crystalline iron- (III) oxide reduction were examined using a diss...
Laboratory experiments were conducted with suspensions of goethite (α-FeOOH) and a subsurface sedime...
The influence of Fe(II) on the dissimilatory bacterial reduction of an Fe(III) aqueous complex (Fe(I...
The microbiologic reduction of a 0.2 to 2.0 µm size fraction of an Atlantic coastal plain sediment (...
Laboratory experiments were conducted with suspensions of goethite (α-FeOOH) and a subsurface sedime...
Trace metals associate with Fe(III) oxides as adsorbed or coprecipitated species, and consequently, ...
Trace metals associate with Fe(III) oxides as adsorbed or coprecipitated species, and consequently, ...
The influence of Fe(II) on the dissimilatory bacterial reduction of an Fe(III) aqueous complex (Fe(I...
This is the final report for Grant No. DEFGO2-98ER62691 submitted to the DOE NABR Program. This rese...
Dissimilatory metal reducing bacteria (DMRB) catalyze the reduction of Fe(III) to Fe(II) in anoxic s...
The kinetics of dissimilatory reduction of goethite (RFeOOH) was studied in batch cultures of a grou...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(...
A quantitative study was performed to understand how Fe(III) site occupancy controls Fe(III) bioredu...