Redox zonation: Equilibrium constraints on the Fe(III)/SO4-reduction interface
暂无分享,去创建一个
[1] C. Onasch,et al. Disequilibrium partitioning of oxygen isotopes associated with sector zoning in quartz , 1995 .
[2] D. Lovley,et al. Deep subsurface microbial processes , 1995 .
[3] Peter B. McMahon,et al. Deducing the Distribution of Terminal Electron‐Accepting Processes in Hydrologically Diverse Groundwater Systems , 1995 .
[4] Tori M. Hoehler,et al. Field and laboratory studies of methane oxidation in an anoxic marine sediment: Evidence for a methanogen‐sulfate reducer consortium , 1994 .
[5] D. Postma,et al. In situ rates of sulfate reduction in an aquifer (Rømø, Denmark) and implications for the reactivity of organic matter , 1994 .
[6] T. N. Narasimhan,et al. Modeling reactive transport of organic compounds in groundwater using a partial redox disequilibrium approach , 1994 .
[7] C. Hordijk,et al. Kinetic studies of acetate in freshwater sediments - Use of Stable Isotopic Tracers , 1994 .
[8] T. Parkin,et al. Hydrogeology and redox geochemistry of CH4 in a Late Wisconsinan Till and Loess Sequence in central Iowa , 1993 .
[9] D. Postma. The reactivity of iron oxides in sediments: A kinetic approach , 1993 .
[10] T. Pedersen,et al. Sulphur speciation and pyrite formation in meromictic ex-fjords , 1993 .
[11] N. Breemen,et al. Pyrite formation in two freshwater systems in the Netherlands , 1993 .
[12] D. Canfield,et al. The anaerobic degradation of organic matter in Danish coastal sediments: iron reduction, manganese reduction, and sulfate reduction. , 1993, Geochimica et cosmochimica acta.
[13] F. Millero,et al. The rate of sulfide oxidation by δMnO2 in seawater , 1993 .
[14] Derek R. Lovley,et al. Reduction of Fe(III) in sediments by sulphate-reducing bacteria , 1993, Nature.
[15] D. Canfield,et al. The reactivity of sedimentary iron minerals toward sulfide , 1992 .
[16] W. Stumm,et al. Reductive dissolution of iron(III) (hydr)oxides by hydrogen sulfide , 1992 .
[17] D. Lovley,et al. Competitive Exclusion of Sulfate Reduction by Fe(lll)‐Reducing Bacteria: A Mechanism for Producing Discrete Zones of High‐Iron Ground Water , 1992 .
[18] W. Stumm,et al. Early diagenetic influences on iron transformations in a freshwater lake sediment , 1991 .
[19] Bernard P. Boudreau,et al. On a reactive continuum representation of organic matter diagenesis , 1991 .
[20] P. McMahon,et al. Microbial production of organic acids in aquitard sediments and its role in aquifer geochemistry , 1991, Nature.
[21] B. Fry,et al. Sediment biogeochemistry of iron and sulfur in an acidic lake , 1989 .
[22] J. Middelburg. A simple rate model for organic matter decomposition in marine sediments , 1989 .
[23] D. Canfield. Reactive iron in marine sediments. , 1989, Geochimica et cosmochimica acta.
[24] D. Lovley,et al. Hydrogen concentrations as an indicator of the predominant terminal electron-accepting reactions in aquatic sediments , 1988 .
[25] P. Novelli,et al. Hydrogen and acetate cycling in two sulfate-reducing sediments: Buzzards Bay and Town Cove, Mass.☆ , 1988 .
[26] D. Postma,et al. Pyrite formation in anoxic environments of the Baltic , 1988 .
[27] Bernard P. Boudreau,et al. A provisional diagenetic model for pH in anoxic porewaters: Application to the FOAM Site , 1988 .
[28] D. Postma. Concentration of Mn and separation from Fe in sediments—I. Kinetics and stoichiometry of the reaction between birnessite and dissolved Fe(II) at 10°C , 1985 .
[29] Bernard P. Boudreau,et al. The dependence of bacterial sulfate reduction on sulfate concentration in marine sediments , 1984 .
[30] R. Berner,et al. The role of sedimentary organic matter in bacterial sulfate reduction: The G model tested1 , 1984 .
[31] R. Cook. Distributions of Ferrous Iron and Sulfide in an Anoxic Hypolimnion , 1984 .
[32] R. Berner. A New Geochemical Classification of Sedimentary Environments , 1981 .
[33] S. Sommer,et al. Sedimentary iron monosulfides: Kinetics and mechanism of formation , 1981 .
[34] Robert A. Berner,et al. Early Diagenesis: A Theoretical Approach , 1980 .
[35] David L. Parkhurst,et al. Phreeqe--A Computer Program for Geochemical Calculations , 1980 .
[36] R. E. Jackson,et al. Oxidation–reduction sequences in ground water flow systems , 1979 .
[37] S. Heaney,et al. Ferrous iron‐sulfide interactions in anoxic hypolimnetic waters , 1978 .
[38] R. Berner,et al. Sulfate reduction, diffusion, and bioturbation in Long Island Sound sediments; report of the FOAM Group , 1977 .
[39] D. Rickard. Kinetics and the mechanism of sulfidation of goethite , 1974 .
[40] D. Thorstenson. Equilibrium distribution of small organic molecules in natural waters , 1970 .
[41] R. Berner. Sedimentary pyrite formation , 1970 .
[42] U. Schwertmann. Differenzierung der Eisenoxide des Bodens durch Extraktion mit Ammoniumoxalat‐Lösung , 1964 .