Magnetite and green rust: synthesis, properties, and environmental applications of mixed-valent iron minerals
Mixed-valent iron [Fe (II)-Fe (III)] minerals such as magnetite and green rust have received a
significant amount of attention over recent decades, especially in the environmental …
significant amount of attention over recent decades, especially in the environmental …
Microbial anaerobic Fe (II) oxidation–ecology, mechanisms and environmental implications
Iron is the most abundant redox‐active metal in the Earth's crust. The one electron transfer
between the two most common redox states, Fe (II) and Fe (III), plays a role in a huge range …
between the two most common redox states, Fe (II) and Fe (III), plays a role in a huge range …
[HTML][HTML] High-rate iron sulfide and sulfur-coupled autotrophic denitrification system: Nutrients removal performance and microbial characterization
Iron sulfides-based autotrophic denitrification (IAD) is a promising technology for nitrate and
phosphate removal from low C: N ratio wastewater due to its cost-effectiveness and low …
phosphate removal from low C: N ratio wastewater due to its cost-effectiveness and low …
[HTML][HTML] The iron-oxidizing proteobacteria
S Hedrich, M Schlömann, DB Johnson - Microbiology, 2011 - microbiologyresearch.org
The 'iron bacteria'are a collection of morphologically and phylogenetically heterogeneous
prokaryotes. They include some of the first micro-organisms to be observed and described …
prokaryotes. They include some of the first micro-organisms to be observed and described …
Fe (II)-mediated autotrophic denitrification: a new bioprocess for iron bioprecipitation/biorecovery and simultaneous treatment of nitrate-containing wastewaters
The demand of iron is increasingly rising nowadays due to the growth of human population.
The iron ore reserves are diminishing and this encourages the scientific community to look …
The iron ore reserves are diminishing and this encourages the scientific community to look …
Are the biogeochemical cycles of carbon, nitrogen, sulfur, and phosphorus driven by the “FeIII–FeII redox wheel” in dynamic redox environments?
Purpose Iron's fluctuation between the II (ferrous) and III (ferric) oxidation states has been
coined as the “Fe III–Fe II redox wheel.” Numerous studies have coupled the “iron redox …
coined as the “Fe III–Fe II redox wheel.” Numerous studies have coupled the “iron redox …
Microbial habitat specificity largely affects microbial co-occurrence patterns and functional profiles in wetland soils
C Liu, X Li, FRP Mansoldo, J An, Y Kou, X Zhang… - Geoderma, 2022 - Elsevier
Microbial species have different niche breadth, leading to distinct habitat ranges. Specialists
have narrow niche breadth and high habitat specificity in comparison with the generalists …
have narrow niche breadth and high habitat specificity in comparison with the generalists …
Fe (II) oxidation is an innate capability of nitrate-reducing bacteria that involves abiotic and biotic reactions
Phylogenetically diverse species of bacteria can catalyze the oxidation of ferrous iron [Fe (II)]
coupled to nitrate (NO3−) reduction, often referred to as nitrate-dependent iron oxidation …
coupled to nitrate (NO3−) reduction, often referred to as nitrate-dependent iron oxidation …
Metabolic interdependencies between phylogenetically novel fermenters and respiratory organisms in an unconfined aquifer
Fermentation-based metabolism is an important ecosystem function often associated with
environments rich in organic carbon, such as wetlands, sewage sludge and the mammalian …
environments rich in organic carbon, such as wetlands, sewage sludge and the mammalian …
Nitrate-stimulated release of naturally occurring sedimentary uranium
Groundwater uranium (U) concentrations have been measured above the US EPA
maximum contaminant level (30 μg/L) in many US aquifers, including in areas not …
maximum contaminant level (30 μg/L) in many US aquifers, including in areas not …