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Autotrophic denitrification using Fe (II) as an electron donor: a novel prospective denitrification process
As a newly identified nitrogen loss pathway, the nitrate-dependent ferrous oxidation (NDFO)
process is emerging as a research hotspot in the field of low carbon to nitrogen ratio (C/N) …
process is emerging as a research hotspot in the field of low carbon to nitrogen ratio (C/N) …
Novel Insight into Microbially Mediated Nitrate-Reducing Fe(II) Oxidation by Acidovorax sp. Strain BoFeN1 Using Dual N–O Isotope Fractionation
Microbially mediated nitrate reduction coupled with Fe (II) oxidation (NRFO) plays an
important role in the Fe/N interactions in pH-neutral anoxic environments. However, the …
important role in the Fe/N interactions in pH-neutral anoxic environments. However, the …
Fe (II) oxidation shaped functional genes and bacteria involved in denitrification and dissimilatory nitrate reduction to ammonium from different paddy soils
Microbial nitrate reduction can drive Fe (II) oxidation in anoxic environments, affecting the
nitrous oxide emission and ammonium availability. The nitrate-reducing Fe (II) oxidation …
nitrous oxide emission and ammonium availability. The nitrate-reducing Fe (II) oxidation …
Nitrate Chemodenitrification by Iron Sulfides to Ammonium under Mild Conditions and Transformation Mechanism
Autotrophic denitrification utilizing iron sulfides as electron donors has been well studied,
but the occurrence and mechanism of abiotic nitrate (NO3–) chemodenitrification by iron …
but the occurrence and mechanism of abiotic nitrate (NO3–) chemodenitrification by iron …
Sequestration of Labile Organic Matter by Secondary Fe Minerals from Chemodenitrification: Insight into Mineral Protection Mechanisms
Labile organic matter (OM) immobilized by secondary iron (Fe) minerals from
chemodenitrification may be an effective way to immobilize organic carbon (OC). However …
chemodenitrification may be an effective way to immobilize organic carbon (OC). However …
Modelling evaluation of key cadmium transformation processes in acid paddy soil under alternating redox conditions
The intermittent flooding conditions in acid paddy field can substantially affect the
phytoavailability of cadmium (Cd), but the underlying mechanisms controlling Cd …
phytoavailability of cadmium (Cd), but the underlying mechanisms controlling Cd …
The iron cycling mediated by a single strain Shewanella oneidensis MR-1 and its implication for nitrogen removal
Microbially mediated nitrate-reducing Fe (II) oxidation (NRFO) process has been recognized
as an effective route for removing nitrogen in wastewater. However, the need for continuous …
as an effective route for removing nitrogen in wastewater. However, the need for continuous …
Transformation kinetics of exogenous nickel in a paddy soil during anoxic-oxic alteration: Roles of organic matter and iron oxides
Nickel is generally released from flooded soils; however, the key Ni transformation
processes in soils that are freshly contaminated by Ni 2+ during anoxic–oxic alteration …
processes in soils that are freshly contaminated by Ni 2+ during anoxic–oxic alteration …
Iron-dependent autotrophic denitrification as a novel microbial driven and iron-mediated denitrification process: A critical review
Based on previous research results, iron-dependent autotrophic denitrification (IDAD) was
evaluated in an all-around way to provide a theoretical basis for further research. First, this …
evaluated in an all-around way to provide a theoretical basis for further research. First, this …
Cadmium immobilization during nitrate-reducing Fe (II) oxidation by Acidovorax sp. BoFeN1: Contribution of bacterial cells and secondary minerals
Microbially nitrate-reducing Fe (II) oxidation (NRFO) is widespread in anoxic environments
at circumneutral pH, in which Fe (II) oxidation is considered to be mainly catalyzed by nitrite …
at circumneutral pH, in which Fe (II) oxidation is considered to be mainly catalyzed by nitrite …