Enhanced degradation of methanethiol in enrichment cultures in the presence of methane-Reference-Cited by-同舟云学术

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Enhanced degradation of methanethiol in enrichment cultures in the presence of methane

Published:2021-04 Issue: Volume:168 Page:107934
ISSN:1369-703X
Container-title:Biochemical Engineering Journal
language:en
Short-container-title:Biochemical Engineering Journal

Author:

Wang Jing,Chu Yi-Xuan,Yao Xing-Zhi,He Ruo

Funder

Zhejiang Gongshang University

Publisher

Elsevier BV

Subject

Biomedical Engineering,Environmental Engineering,Bioengineering,Biotechnology

Reference57 articles.

1. Sulfur-containing amino acid methionine as the precursor of volatile organic sulfur compounds in algea-induced black bloom;Lu;J. Environ. Sci.,2013

2. Microorganisms and typical organic matter responsible for lacustrine “black bloom”;Feng;Sci. Total Environ.,2014

3. A critical review of the appearance of black-odorous waterbodies in China and treatment methods;Cao;J. Hazard. Mater.,2020

4. Environmental VOSCs-formation and degradation of dimethyl sulfide, methanethiol and related materials;Bentley;Chemosphere,2004

5. Emission of volatile organic sulfur compounds (VOSCs) during aerobic decomposition of food wastes;Wu;Atmos. Environ.,2010

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1. Enhanced degradation of methanethiol via operational pH regulation in biofilm reactor: Insight of sulfur metabolism pathways and microbial adaptation mechanism;Chemical Engineering Journal;2024-09

2. Structural/surface characterization of transition metal element–doped H-ZSM-5 adsorbent for CH3SH removal: identification of active adsorption sites and deactivation mechanism;Environmental Science and Pollution Research;2024-03-05

3. Oxygen vacancies mediated flower-like BiOX microspheres for photocatalytic purification of methyl mercaptan odor: Significant distinction induced by halogen elements;Chemical Engineering Journal;2023-09

4. Synergy effects of Methylomonas koyamae and Hyphomicrobium methylovorum under methanethiol stress;Applied Microbiology and Biotechnology;2023-03-18

5. CS2 increasing CH4-derived carbon emissions and active microbial diversity in lake sediments;Environmental Research;2022-05

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