Biogeochemical Conditions Favoring Magnetite Formation during Anaerobic Iron Reduction
TLDR
Several anaerobic bacteria isolated from the sediments of Contrary Creek, an iron-rich environment, produced magnetite when cultured in combinations but not when cultured alone in synthetic iron oxyhydroxide medium, indicating microbial alteration of the local E(h) and pH conditions.Abstract:
Several anaerobic bacteria isolated from the sediments of Contrary Creek, an iron-rich environment, produced magnetite when cultured in combinations but not when cultured alone in synthetic iron oxyhydroxide medium. When glucose was added as a carbon source, the pH of the medium decreased (to 5.5) and no magnetite was formed. When the same growth medium without glucose was used, the pH increased (to 8.5) and magnetite was formed. In both cases, Fe2+ was released into the growth medium. Geochemical equilibrium equations with Eh and pH as master variables were solved for the concentrations of iron and inorganic carbon that were observed in the system. Magnetite was predicted to be the dominant iron oxide formed at high pHs, while free Fe2+ or siderite were the dominant forms of iron expected at low pHs. Thus, magnetite formation occurs because of microbial alteration of the local Eh and pH conditions, along with concurrent reduction of ferric iron (direct biological reduction or abiological oxidation-reduction reactions).read more
Citations
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Dissimilatory Fe(III) and Mn(IV) reduction.
TL;DR: The physiological characteristics of Geobacter species appear to explain why they have consistently been found to be the predominant Fe(III)- and Mn(IV)-reducing microorganisms in a variety of sedimentary environments.
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Biogenic iron mineralization accompanying the dissimilatory reduction of hydrous ferric oxide by a groundwater bacterium
James K. Fredrickson,John M. Zachara,David W. Kennedy,Hailang Dong,Tullis C. Onstott,Nancy W. Hinman,Shu Mei Li +6 more
TL;DR: In this paper, a batch of experiments were conducted with amorphous hydrous ferric oxide (HFO) and the DIRB Shewanella putrefaciens, strain CN32, in well-defined aqueous solutions to investigate the reduction of HFO and formation of biogenic Fe(II) minerals.
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The biogeochemistry of manganese and iron reduction in marine sediments
TL;DR: In this paper, the results of laboratory studies on the types of manganese and iron reduction that are known to occur in marine sediments, and then discuss the occurrence of these processes in different sedimentary environments.
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Anaerobic oxidation of ferrous iron by purple bacteria, a new type of phototrophic metabolism.
TL;DR: Anoxic iron-rich sediment samples that had been stored in the light showed development of brown, rusty patches and the existence of ferrous iron-oxidizing anoxygenic phototrophic bacteria may offer an explanation for the deposition of early banded-iron formations in an assumed anoxic biosphere in Archean times.
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SEDIMENT BACTERIA: Who's There, What Are They Doing, and What's New?
TL;DR: Understanding the mechanisms by which the chemical environment of a sediment is generated and stabilized requires a knowledge of resident populations, and the new approaches of molecular biology have provided tools whereby sedimentary populations can be examined without the need for culturing the organisms.
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