Hiroshi Shiomi scite author profile

Wastewater treatment processes are believed to be anthropogenic sources of nitrous oxide (N(2)O) and methane (CH(4)). However, few studies have examined the mechanisms and controlling factors in production of these greenhouse gases in complex bacterial systems. To elucidate production and consumption mechanisms of N(2)O and CH(4) in microbial consortia during wastewater treatment and to characterize human waste sources, we measured their concentrations and isotopomer ratios (elemental isotope ratios and site-specific N isotope ratios in asymmetric molecules of NNO) in water and gas samples collected by an advanced treatment system in Tokyo. Although the estimated emissions of N(2)O and CH(4) from the system were found to be lower than those from the typical treatment systems reported before, water in biological reaction tanks was supersaturated with both gases. The concentration of N(2)O, produced mainly by nitrifier-denitrification as indicated by isotopomer ratios, was highest in the oxic tank (ca. 4000% saturation). The dissolved CH(4) concentration was highest in in-flow water (ca. 3000% saturation). It decreased gradually during treatment. Its carbon isotope ratio indicated that the decrease resulted from bacterial CH(4) oxidation and that microbial CH(4) production can occur in anaerobic and settling tanks.

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Isotopocule characterization of N<sub>2</sub>O dynamics during simulated wastewater treatment under oxic and anoxic conditions

Tumendelger

Toyoda

Yoshida

et al. 2016

Geochem. J.

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Source identification of N2O produced during simulated wastewater treatment under different oxygen conditions using stable isotopic analysis

et al. 2014

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Enhancement of nutrient removal in an activated sludge process using aerobic granular sludge augmentation strategy with ammonium-based aeration control

et al. 2023

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Hiroshi Shiomi

Isotopomer Analysis of Production and Consumption Mechanisms of N₂O and CH₄ in an Advanced Wastewater Treatment System

Isotopocule characterization of N<sub>2</sub>O dynamics during simulated wastewater treatment under oxic and anoxic conditions

Source identification of N2O produced during simulated wastewater treatment under different oxygen conditions using stable isotopic analysis

Enhancement of nutrient removal in an activated sludge process using aerobic granular sludge augmentation strategy with ammonium-based aeration control

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Hiroshi Shiomi

Isotopomer Analysis of Production and Consumption Mechanisms of N2O and CH4 in an Advanced Wastewater Treatment System

Isotopocule characterization of N<sub>2</sub>O dynamics during simulated wastewater treatment under oxic and anoxic conditions

Source identification of N2O produced during simulated wastewater treatment under different oxygen conditions using stable isotopic analysis

Enhancement of nutrient removal in an activated sludge process using aerobic granular sludge augmentation strategy with ammonium-based aeration control

Contact Info

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Resources

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Isotopomer Analysis of Production and Consumption Mechanisms of N₂O and CH₄ in an Advanced Wastewater Treatment System