Fe(III) oxide reactivity toward biological versus chemical reductionRODEN, Eric E.Environmental science & technology. 2003, Vol 37, Num 7, pp 1319-1324, issn 0013-936X, 6 p.Article

Microbial physiology-based model of ethanol metabolism in subsurface sedimentsQUSHENG JIN; RODEN, Eric E.Journal of contaminant hydrology. 2011, Vol 125, Num 1-4, pp 1-12, issn 0169-7722, 12 p.Article

Composition and Activity of an Autotrophic Fe(II)-Oxidizing, Nitrate-Reducing Enrichment CultureBLÖTHE, Marco; RODEN, Eric E.Applied and environmental microbiology (Print). 2009, Vol 75, Num 21, pp 6937-6940, issn 0099-2240, 4 p.Article

Suboxic deposition of ferric iron by bacteria in opposing gradients of Fe(II) and oxygen at circumneutral pHSOBOLEV, Dmitri; RODEN, Eric E.Applied and environmental microbiology (Print). 2001, Vol 67, Num 3, pp 1328-1334, issn 0099-2240Article

Thermodynamics of Microbial Growth Coupled to Metabolism of Glucose, Ethanol, Short-Chain Organic Acids, and HydrogenRODEN, Eric E; QUSHENG JIN.Applied and environmental microbiology (Print). 2011, Vol 77, Num 5, pp 1907-1909, issn 0099-2240, 3 p.Article

Kinetics of microbial Fe(III) oxide reduction in freshwater wetland sedimentsRODEN, Eric E; WETZEL, Robert G.Limnology and oceanography. 2002, Vol 47, Num 1, pp 198-211, issn 0024-3590Article

Conceptual and numerical model of uranium(VI) reductive immobilization in fractured subsurface sedimentsRODEN, Eric E; SCHEIBE, Timothy D.Chemosphere (Oxford). 2005, Vol 59, Num 5, pp 617-628, issn 0045-6535, 12 p.Article

U(VI) Sequestration in Hydroxyapatite Produced by Microbial Glycerol 3-Phosphate MetabolismSHELOBOLINA, Evgenya S; KONISHI, Hiromi; HUIFANG XU et al.Applied and environmental microbiology (Print). 2009, Vol 75, Num 18, pp 5773-5778, issn 0099-2240, 6 p.Article

Reactive transport of uranium(VI) and phosphate in a goethite-coated sand column : An experimental studyTAO CHENG; BARNETT, Mark O; RODEN, Eric E et al.Chemosphere (Oxford). 2007, Vol 68, Num 7, pp 1218-1223, issn 0045-6535, 6 p.Article

Microbially catalyzed nitrate-dependent oxidation of biogenic solid-phase Fe(II) compoundsWEBER, Karrie A; PICARDAL, Flynn W; RODEN, Eric E et al.Environmental science & technology. 2001, Vol 35, Num 8, pp 1644-1650, issn 0013-936XArticle

Successional changes in bacterial assemblage structure during epilithic biofilm developmentJACKSON, Colin R; CHURCHILL, Perry E; RODEN, Eric E et al.Ecology (Durham). 2001, Vol 82, Num 2, pp 555-566, issn 0012-9658Article

Geochemical and microbiological controls on dissimilatory iron reductionRODEN, Eric E.Comptes rendus. Géoscience. 2006, Vol 338, Num 6-7, pp 456-467, issn 1631-0713, 12 p.Article

Microbial mercury transformation in anoxic freshwater sediments under iron-reducing and other electron-accepting conditionsWARNER, Kimberly A; RODEN, Eric E; BONZONGO, Jean-Claude et al.Environmental science & technology. 2003, Vol 37, Num 10, pp 2159-2165, issn 0013-936X, 7 p.Article

Isolation and Microbial Reduction of Fe(III) Phyllosilicates from Subsurface SedimentsTAO WU; SHELOBOLINA, Evgenya; HUIFANG XU et al.Environmental science & technology. 2012, Vol 46, Num 21, pp 11618-11626, issn 0013-936X, 9 p.Article

Chemical reduction of U(VI) by Fe(II) at the solid-water interface using natural and synthetic Fe(III) oxidesJEON, Byong-Hun; DEMPSEY, Brian A; BURGOS, William D et al.Environmental science & technology. 2005, Vol 39, Num 15, pp 5642-5649, issn 0013-936X, 8 p.Article

Repeated Anaerobic Microbial Redox Cycling of IronCOBY, Aaron J; PICARDAL, Flynn; SHELOBOLINA, Evgenya et al.Applied and environmental microbiology (Print). 2011, Vol 77, Num 17, pp 6036-6042, issn 0099-2240, 7 p.Article

Factors controlling temporal and spatial distribution of total mercury and methylmercury in hyporheic sediments of the Allequash Creek wetland, northern WisconsinCRESWELL, Joel E; KERR, Sara C; MEYER, Matthew H et al.Journal of geophysical research. 2010, Vol 115, Num G2, issn 0148-0227, G00C02.1-G00C02.9Article

Modeling the sorption kinetics of divalent metal ions to hematiteJEON, Byong-Hun; DEMPSEY, Brian A; BURGOS, William D et al.Water research (Oxford). 2004, Vol 38, Num 10, pp 2499-2504, issn 0043-1354, 6 p.Article

Redox Behavior of Uranium at the Nanoporous Aluminum Oxide-Water Interface: Implications for Uranium RemediationHUN BOK JUNG; BOYANOV, Maxim I; KONISHI, Hiromi et al.Environmental science & technology. 2012, Vol 46, Num 13, pp 7301-7309, issn 0013-936X, 9 p.Article

Biogeochemical Processes In Ethanol Stimulated Uranium-contaminated Subsurface SedimentsMOHANTY, Santosh R; KOLLAH, Bharati; HEDRICK, David B et al.Environmental science & technology. 2008, Vol 42, Num 12, pp 4384-4390, issn 0013-936X, 7 p.Article

Theoretical solid/solution ratio effects on adsorption and transport : Uranium(VI) and carbonatePHILLIPPI, John M; LOGANATHAN, Vijay A; MCLNDOE, Melissa J et al.Soil Science Society of America journal. 2007, Vol 71, Num 2, pp 329-335, issn 0361-5995, 7 p.Article