Susan Glasauer scite author profile

Among prokaryotes, there are few examples of controlled mineral formation; the formation of crystalline iron oxides and sulfides [magnetite (Fe3O4) or greigite (Fe3S4)] by magnetotactic bacteria is an exception. Shewanella putrefaciens CN32, a Gram-negative, facultative anaerobic bacterium that is capable of dissimilatory iron reduction, produced microscopic intracellular grains of iron oxide minerals during growth on two-line ferrihydrite in a hydrogen-argon atmosphere. The minerals, formed at iron concentrations found in the soil and sedimentary environments where these bacteria are active, could represent an unexplored pathway for the cycling of iron by bacteria.

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Sorption of Fe (Hydr)Oxides to the Surface of Shewanella putrefaciens : Cell-Bound Fine-Grained Minerals Are Not Always Formed De Novo

Glasauer

Langley

Beveridge

2001

Appl Environ Microbiol

130

105

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Shewanella putrefaciens, a gram-negative, facultative anaerobe, is active in the cycling of iron through its interaction with Fe (hydr)oxides in natural environments. Fine-grained Fe precipitates that are attached to the outer membranes of many gram-negative bacteria have most often been attributed to precipitation and growth of the mineral at the cell surface. Our study of the sorption of nonbiogenic Fe (hydr)oxides revealed, however, that large quantities of nanometer-scale ferrihydrite (hydrous ferric oxide), goethite (␣-FeOOH), and hematite (␣-Fe 2 O 3 ) adhered to the cell surface. Attempts to separate suspensions of cells and minerals with an 80% glycerin cushion proved that the sorbed minerals were tightly attached to the bacteria. The interaction between minerals and cells resulted in the formation of mineral-cell aggregates, which increased biomass density and provided better sedimentation of mineral Fe compared to suspensions of minerals alone. Transmission electron microscopy observations of cells prepared by whole-mount, conventional embedding, and freezesubstitution methods confirmed the close association between cells and minerals and suggested that in some instances, the mineral crystals had even penetrated the outer membrane and peptidoglycan layers. Given the abundance of these mineral types in natural environments, the data suggest that not all naturally occurring cell surface-associated minerals are necessarily formed de novo on the cell wall.

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Reduction of Actinides and Fission Products by Fe(III)-Reducing Bacteria

Lloyd¹,

Chesnes²,

Glasauer³

et al. 2002

Geomicrobiology Journal

121

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Mixed-Valence Cytoplasmic Iron Granules Are Linked to Anaerobic Respiration

Glasauer

Langley

Boyanov

et al. 2007

Appl Environ Microbiol

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Comparing phosphorus mobilization strategies using Aspergillus niger for the mineral dissolution of three phosphate rocks

Schneider

Straaten

Orduña

et al. 2010

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Phosphorus deficiencies are limiting crop production in agricultural soils worldwide. Locally available sources of raw phosphate rock (PR) are being recognized for their potential role in soil fertility improvement. Phosphorus bioavailability is essential for the efficiency of PRs and can be increased by acid treatments. The utilization of organic acid producing micro‐organisms, notably Aspergillus niger, presents a sustainable alternative to the use of strong inorganic acids, but acid production of A. niger strongly depends on the mineral content of the growth media. This study compared the phosphorus mobilization efficiency of two biological treatments, namely addition of acidic cell‐free supernatants from A. niger cultivations to PRs and the direct cultivation of A. niger with PRs. The results show that addition of PR to cultivations leads to significant differences in the profile of organic acids produced by A. niger. Additions of PR, especially igneous rocks containing high amounts of iron and manganese, lead to reduced citric acid concentrations. In spite of these differences, phosphorus mobilization was similar between treatments, suggesting that the simpler direct cultivation method was not inferior. In addition to citric acid, it is suggested that oxalic acid contributes to PR solubilization in direct cultivations with A. niger, which would benefit farmers in developing countries where conventional fertilizers are not adequately accessible.

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Properties of Goethites Prepared under Acidic and Basic Conditions in the Presence of Silicate

Glasauer

Friedl

Schwertmann

1999

Journal of Colloid and Interface Science

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Susan Glasauer

Controls on Fe reduction and mineral formation by a subsurface bacterium

Vanadium: Global (bio)geochemistry

Intracellular Iron Minerals in a Dissimilatory Iron-Reducing Bacterium

Sorption of Fe (Hydr)Oxides to the Surface of Shewanella putrefaciens : Cell-Bound Fine-Grained Minerals Are Not Always Formed De Novo

Reduction of Actinides and Fission Products by Fe(III)-Reducing Bacteria

Mixed-Valence Cytoplasmic Iron Granules Are Linked to Anaerobic Respiration

Comparing phosphorus mobilization strategies using Aspergillus niger for the mineral dissolution of three phosphate rocks

Properties of Goethites Prepared under Acidic and Basic Conditions in the Presence of Silicate

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