Beukes / New York / Barrow / Madison / Fendorf / /
Company
Eaton / Cox / Bogatko S. A. / Welch S. A. / John Wiley & Sons / ASSOCIATED CONTENT / / /
Facility
University of Iowa / Stable Iron Isotope Fractionation Between Aqueous Fe / University of Wisconsin-Madison Madison / stable Fe / NASA Astrobiology Institute / United States NASA Astrobiology Institute / University of Wisconsin-Madison / /
IndustryTerm
stock solution / anaerobic stock solution / e - δ / end product / silica-containing solution / natural aqueous systems / marine systems / natural systems / ferrous solution / metal stable isotope fractionation theory / pure 57Fe metal / oxidation products / 57Fe-enriched ferrous stock solution / aqueous solutions / /
Movie
A. D. / /
Organization
Water Environment Federation / Cornell / American Public Health Association / Department of Geoscience / American Chemical Society / United States NASA Astrobiology Institute / University of Iowa / University of Wisconsin / /
Person
Clay Clay / Hiromi Konishi / Michelle Scherer / Mayer / Aqueous Fe / Waite / Clayton / Eric E. Roden / Brian L. Beard / Clark M. Johnson / / /
Position
Structural model for ferrihydrite / T. D. / R. N. / AUTHOR INFORMATION Corresponding Author *Phone / representative / /
ProvinceOrState
New Jersey / Wisconsin / New York / South Dakota / Fe / Iowa / /
ARTICLE pubs.acs.org/est Stable Iron Isotope Fractionation Between Aqueous Fe(II) and Hydrous Ferric Oxide Lingling Wu,†,‡,* Brian L. Beard,†,‡ Eric E. Roden,†,‡ and Clark M. Johnson†,‡