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Operative Pathways Of Chromate And Uranyl Reduction Within Soils And Sediments.

S. Fendorf, C. M. Hansel, B. Wielinga
Published 2002 · Chemistry

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10.1128/AEM.60.2.726-728.1994
Reduction of Chromate by Desulfovibrio vulgaris and Its c(3) Cytochrome.
D. Lovley (1994)
10.1021/ES960868I
Surface passivation of magnetite by reaction with aqueous Cr(VI): XAFS and TEM results
M. Peterson (1997)
10.2136/SSSAJ1989.03615995005300020018X
Adsorption of Chromate by Subsurface Soil Horizons
J. Zachara (1989)
10.1128/AEM.58.10.3211-3216.1992
A Hydrogen-Oxidizing, Fe(III)-Reducing Microorganism from the Great Bay Estuary, New Hampshire.
F. Caccavo (1992)
10.1021/IC941452D
Chromium(VI) Forms Thiolate Complexes with gamma-Glutamylcysteine, N-Acetylcysteine, Cysteine, and the Methyl Ester of N-Acetylcysteine.
S. Brauer (1996)
10.1016/S0016-7037(00)00397-5
Reduction of U(VI) in goethite (α-FeOOH) suspensions by a dissimilatory metal-reducing bacterium
J. Fredrickson (2000)
10.1146/ANNUREV.MI.47.100193.001403
Dissimilatory metal reduction.
D. Lovley (1993)
10.2134/JEQ1983.00472425001200020005X
Behavior of Chromium in Soils: VII. Adsorption and Reduction of Hexavalent Forms
B. James (1983)
10.2134/JEQ1994.00472425002300060003X
Bioremediation of Chromate-Contaminated Groundwater by Reduction and Precipitation in Surface Soils
M. Losi (1994)
10.1021/ES00018A007
Enzymatic versus nonenzymatic mechanisms for Fe(III) reduction in aquatic sediments
D. Lovley (1991)
10.1016/0304-4203(94)90030-2
Reduction of chromium (VI) with hydrogen sulfide in NaCl media
Maurizio Pettine (1994)
10.1021/es00173a018
Chromate removal from aqueous wastes by reduction with ferrous ion.
L. Eary (1988)
10.1021/IC960663A
Kinetics and Mechanism of Chromium(VI) Reduction to Chromium(III) by l-Cysteine in Neutral Aqueous Solutions
P. Lay (1996)
10.2475/AJS.289.2.180
Kinetics of chromate reduction by ferrous ions derived from hematite and biotite at 25 degrees C
L. Eary (1989)
10.1128/AEM.66.5.1788-1795.2000
Purification to Homogeneity and Characterization of a Novel Pseudomonas putida Chromate Reductase
C. H. Park (2000)
10.1029/94WR02981
Transport of Chromium and Selenium in a Pristine Sand and Gravel Aquifer: Role of Adsorption Processes
D. Kent (1995)
10.1016/S0016-7037(99)00262-8
Iron control by equilibria between hydroxy-Green Rusts and solutions in hydromorphic soils
G. Bourrié (1999)
10.1016/0016-7037(85)90088-2
Adsorption of uranyl onto ferric oxyhydroxides: Application of the surface complexation site-binding model
C. D. Hsi (1985)
10.1016/S0022-0728(98)00141-7
Kinetic studies on the electron transfer between bacterial c-type cytochromes and metal oxides
E. Lojou (1998)
10.1007/BF00172503
Isolation of hexavalent chromium-reducing anaerobes from hexavalent-chromium-contaminated and noncontaminated environments
C. Turick (2004)
10.1016/0012-8252(87)90046-8
The chemistry of the hydrogen sulfide and iron sulfide systems in natural waters
J. Morse (1987)
10.1016/S0016-7037(98)00086-6
The reduction of chromium (VI) by iron (II) in aqueous solutions
Maurizio Pettine (1998)
10.1021/ES960836V
Reduction of Hexavalent Chromium by Amorphous Iron Sulfide
Ronald R. Patterson and (1997)
10.2136/SSSAJ2000.6451608X
Solid-phase iron characterization during common selective sequential extractions.
M. Force (2000)
10.1128/AEM.56.7.2268-2270.1990
Chromium reduction in Pseudomonas putida.
Y. Ishibashi (1990)
10.2134/JEQ1979.00472425000800010008X
Behavior of chromium in soils. III. Oxidation
R. J. Bartlett (1979)
10.1007/BF00336349
Competition for electron donors among nitrate reducers, ferric iron reducers, sulfate reducers, and methanogens in anoxic paddy soil
C. Achtnich (2004)
10.1007/BF02920481
Bacterial Reduction of Chromium
E. Schmieman (1997)
10.2136/SSSAJ1971.03615995003500050035X
Effects of Chromium on Growth and Mineral Nutrition of Soybeans 1
M. A. Turner (1971)
10.2138/AM-1998-11-1232
Bacterial reduction of crystalline Fe3+ oxides in single phase suspensions and subsurface materials
J. Zachara (1998)
10.1021/es00058a021
Solubilization of plutonium hydrous oxide by iron-reducing bacteria.
P. Rusin (1994)
10.1007/BF02941773
Enhancement of Fe(III), Co(III), and Cr(VI) reduction at elevated temperatures and by a thermophilic bacterium
C. Zhang (1996)
10.1021/ES00035A023
Bioremediation of uranium contamination with enzymatic uranium reduction
D. Lovley (1992)
10.1080/01490459809378083
Microbial and surface chemistry controls on reduction of synthetic Fe(III) oxide minerals by the dissimilatory iron‐reducing bacterium Shewanella alga
M. Urrutia (1998)
10.1128/AEM.55.7.1665-1669.1989
Isolation and Characterization of an Enterobacter cloacae Strain That Reduces Hexavalent Chromium under Anaerobic Conditions.
P. C. Wang (1989)
10.1128/AEM.60.5.1525-1531.1994
Reduction of Cr(VI) by a Consortium of Sulfate-Reducing Bacteria (SRB III).
L. Fu-de (1994)
10.1021/AC60289A016
Ferrozine---a new spectrophotometric reagent for iron
L. Stookey (1970)
10.1021/ES981241Y
Modeling the Removal of Uranium U(VI) from Aqueous Solutions in the Presence of Sulfate Reducing Bacteria
J. Spear (1999)
10.1002/(SICI)1097-0290(19970805)55:3<490::AID-BIT4>3.0.CO;2-7
Kinetics of U(VI) reduction by a dissimilatory Fe(III)-reducing bacterium under non-growth conditions.
M. Truex (1997)
10.1016/S0016-7037(99)00265-3
Surface catalysis of uranium(VI) reduction by iron(II)
E. Liger (1999)
10.1080/00206810009465107
Chromium Transformations in Natural Environments: The Role of Biological and Abiological Processes in Chromium(VI) Reduction
S. Fendorf (2000)
10.1021/ES991189L
Inhibition of bacterially promoted uranium reduction: ferric (Hydr)oxides as competitive electron acceptors.
B. Wielinga (2000)
10.1128/AEM.59.10.3516-3518.1993
Chromate Reduction by Resting Cells of Agrobacterium radiobacter EPS-916.
S. Llovera (1993)
10.1128/MMBR.43.2.260-296.1979
Methanogens: reevaluation of a unique biological group.
W. Balch (1979)
10.1128/AEM.51.4.683-689.1986
Organic matter mineralization with reduction of ferric iron in anaerobic sediments.
D. Lovley (1986)
10.1016/S0169-7722(98)00134-X
Reduction of U(VI) to U(IV) by indigenous bacteria in contaminated ground water
A. Abdelouas (1998)
10.1007/BF00992875
Factors influencing uranium reduction and solubility in evaporation pond sediments
M. Duff (1999)
10.1021/ES50002A611
Chromium Redox Chemistry in a Lower Mississippi Valley Bottomland Hardwood Wetland
P. H. Masscheleyn (1992)
10.1346/CCMN.1995.0430508
The Influence of Uranyl Hydrolysis and Multiple Site-Binding Reactions on Adsorption of U(VI) to Montmorillonite
J. Mckinley (1995)
10.1016/S0016-7037(98)00243-9
BIOGENIC IRON MINERALIZATION ACCOMPANYING THE DISSIMILATORY REDUCTION OF HYDROUS FERRIC OXIDE BY A GROUNDWATER BACTERIUM
J. Fredrickson (1998)
10.1023/A:1008358816529
Aerobic chromate reduction by Bacillus subtilis
C. Garbisu (2004)
10.1021/ES9402967
Chemical Interactions between Cr(VI) and Hydrous Concrete Particles
C. Weng (1996)
10.1021/ES950780P
Surface-Catalyzed Chromium(VI) Reduction: Reactivity Comparisons of Different Organic Reductants and Different Oxide Surfaces
Baolin Deng (1996)
10.1021/es00008a010
Redox Interactions of Cr(VI) and Substituted Phenols: Products and Mechanism.
M. S. Elovitz (1995)
10.1021/ES981297S
Influence of Mineral Surfaces on Chromium(VI) Reduction by Iron(II)
I. Buerge (1999)
10.1029/93WR03244
Transport of chromium and selenium in the suboxic zone of a shallow aquifer: Influence of redox and adsorption reactions
D. Kent (1994)
10.1016/0016-7037(94)90117-1
Interaction between aqueous uranium (VI) and sulfide minerals: Spectroscopic evidence for sorption and reduction
P. Wersin (1994)
10.2136/SSSAJ1991.03615995005500030007X
Chromate Reduction by Subsurface Soils under Acidic Conditions
L. Eary (1991)
10.1111/J.1574-6968.1991.TB04408.X
Membrane-bound respiratory system of Enterobacter cloacae strain HO1 grown anaerobically with chromate.
P. C. Wang (1991)
10.1016/0043-1354(95)00093-Z
Factors affecting hexavalent chromium reduction in pure cultures of bacteria
Yi-tin Wang (1995)
10.1061/(ASCE)0733-9372(1994)120:3(560)
Biological Reduction of Chromium by E. Coli
H. Shen (1994)
10.1021/ES9809859
Ferrous iron removal promotes microbial reduction of crystalline iron(III) oxides
E. Roden (1999)
10.1002/BIT.260430606
Studies on microbial chromate reduction by Pseudomonas Sp. In aerobic continuous suspended growth cultures
R. Gopalan (1994)
10.1021/IC00261A013
Solubility of amorphous chromium(III)-iron(III) hydroxide solid solutions
B. Sass (1987)
10.1016/S0065-2911(04)49005-5
Dissimilatory Fe(III) and Mn(IV) reduction.
D. Lovley (2004)
10.1021/es00001a033
Reduction of Cr(VI) in the Presence of Excess Soil Fulvic Acid.
P. R. Wittbrodt (1995)
10.1021/ES00036A004
Chromate and oxalate adsorption on goethite. 1. Calibration of surface complexation models
Karel Mesuere (1992)
10.2134/JEQ1976.00472425000500040010X
Behavior of chromium in soils. II. Hexavalent forms
R. J. Bartlett (1976)
10.1021/ES00025A026
Enzymic uranium precipitation
Y. Gorby (1992)
10.1016/0016-7037(94)90154-6
Speciation of uranyl sorbed at multiple binding sites on montmorillonite
C. Chisholm-Brause (1994)
10.1097/00010694-196706000-00002
REDOX EQUILIBRIA IN FLOODED SOILS: I. THE IRON HYDROXIDE SYSTEMS
Estrella M. Tianco (1967)
10.1021/es00050a025
Batch experiments characterizing the reduction of chromium(VI) using suboxic material from a mildly reducing sand and gravel aquifer.
L. D. Anderson (1994)
10.1111/J.1574-6968.1998.TB12998.X
Sulfate-reducing bacterium grows with Cr(VI), U(VI), Mn(IV), and Fe(III) as electron acceptors
B. Tebo (1998)
10.1021/ES001457B
Iron promoted reduction of chromate by dissimilatory iron-reducing bacteria.
B. Wielinga (2001)
10.1038/250493A0
Mutagenicity of chromates in bacteria and its relevance to chromate carcinogenesis
S. Venitt (1974)



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