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Eric Roden
Eric Roden
Verified email at geology.wisc.edu
Title
Cited by
Cited by
Year
Microbial reduction of crystalline iron (III) oxides: influence of oxide surface area and potential for cell growth
EE Roden, JM Zachara
Environmental Science & Technology 30 (5), 1618-1628, 1996
9891996
Enzymatic iron and uranium reduction by sulfate-reducing bacteria
DR Lovley, EE Roden, EJP Phillips, JC Woodward
Marine Geology 113 (1-2), 41-53, 1993
6621993
Mercury methylation by dissimilatory iron-reducing bacteria
EJ Kerin, CC Gilmour, E Roden, MT Suzuki, JD Coates, RP Mason
Applied and environmental microbiology 72 (12), 7919-7921, 2006
6422006
Organic carbon oxidation and suppression of methane production by microbial Fe (III) oxide reduction in vegetated and unvegetated freshwater wetland sediments
EE Roden, RG Wetzel
Limnology and Oceanography 41 (8), 1733-1748, 1996
4691996
Extracellular electron transfer through microbial reduction of solid-phase humic substances
EE Roden, A Kappler, I Bauer, J Jiang, A Paul, R Stoesser, H Konishi, ...
Nature geoscience 3 (6), 417-421, 2010
4602010
The iron isotope fingerprints of redox and biogeochemical cycling in modern and ancient Earth
CM Johnson, BL Beard, EE Roden
Annu. Rev. Earth Planet. Sci. 36, 457-493, 2008
4592008
Phosphate mobilization in iron-rich anaerobic sediments: microbial Fe (III) oxide reduction versus iron-sulfide formation
EE Roden, JW Edmonds
Archiv für Hydrobiologie 139 (3), 347-378, 1997
4511997
Dissimilatory Fe(III) Reduction by the Marine Microorganism Desulfuromonas acetoxidans
EE Roden, DR Lovley
Applied and Environmental Microbiology 59 (3), 734-742, 1993
4191993
Recovery of humic-reducing bacteria from a diversity of environments
JD Coates, DJ Ellis, EL Blunt-Harris, CV Gaw, EE Roden, DR Lovley
Applied and environmental microbiology 64 (4), 1504-1509, 1998
3861998
Anaerobic redox cycling of iron by freshwater sediment microorganisms
KA Weber, MM Urrutia, PF Churchill, RK Kukkadapu, EE Roden
Environmental Microbiology 8 (1), 100-113, 2006
3762006
Iron isotopes constrain biologic and abiologic processes in banded iron formation genesis
CM Johnson, BL Beard, C Klein, NJ Beukes, EE Roden
Geochimica et Cosmochimica Acta 72 (1), 151-169, 2008
3572008
A new analysis of Mars “special regions”: findings of the second MEPAG Special Regions Science Analysis Group (SR-SAG2)
JD Rummel, DW Beaty, MA Jones, C Bakermans, NG Barlow, PJ Boston, ...
Astrobiology 14 (11), 887-968, 2014
3472014
Fe (III) oxide reactivity toward biological versus chemical reduction
EE Roden
Environmental Science & Technology 37 (7), 1319-1324, 2003
3372003
Influence of biogenic Fe (II) on bacterial crystalline Fe (III) oxide reduction
EE Roden, MM Urrutia
Geomicrobiology journal 19 (2), 209-251, 2002
3012002
Successional changes in bacterial assemblage structure during epilithic biofilm development
CR Jackson, PF Churchill, EE Roden
Ecology 82 (2), 555-566, 2001
2722001
The mechanisms of iron isotope fractionation produced during dissimilatory Fe(III) reduction by Shewanella putrefaciens and Geobacter sulfurreducens
HA Crosby, EE Roden, CM Johnson, BL Beard
Geobiology 5 (2), 169-189, 2007
2542007
Experimental constraints on Fe isotope fractionation during magnetite and Fe carbonate formation coupled to dissimilatory hydrous ferric oxide reduction
CM Johnson, EE Roden, SA Welch, BL Beard
Geochimica et Cosmochimica Acta 69 (4), 963-993, 2005
2542005
Microbially catalyzed nitrate-dependent oxidation of biogenic solid-phase Fe (II) compounds
KA Weber, FW Picardal, EE Roden
Environmental Science & Technology 35 (8), 1644-1650, 2001
2512001
Iron in microbial metabolisms
KO Konhauser, A Kappler, EE Roden
Elements 7 (2), 89-93, 2011
2462011
A simple, efficient method for the separation of humic substances and DNA from environmental samples
CR Jackson, JP Harper, D Willoughby, EE Roden, PF Churchill
Applied and Environmental Microbiology 63 (12), 4993-4995, 1997
2411997
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