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Chemosphere


Title:"Acidification inhibition, biodechlorination, and biotransformation of chlorinated acetaldehydes on acidogenic sludge and microbial community changes"
Author(s):Tian X; Shen Z; Zhou Y; Wang K;
Address:"School of Environment, Tsinghua University, Beijing, 100084, PR China; State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environment Sciences, Beijing, 100012, PR China; Research Center of Environmental Pollution Control Engineering Technology, Chinese Research Academy of Environmental Sciences, Beijing, 100012, PR China. State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environment Sciences, Beijing, 100012, PR China; Research Center of Environmental Pollution Control Engineering Technology, Chinese Research Academy of Environmental Sciences, Beijing, 100012, PR China. Electronic address: shenzq@craes.org.cn. School of Environment, Tsinghua University, Beijing, 100084, PR China; State Key Laboratory of Environmental Criteria and Risk Assessment, Chinese Research Academy of Environment Sciences, Beijing, 100012, PR China; Research Center of Environmental Pollution Control Engineering Technology, Chinese Research Academy of Environmental Sciences, Beijing, 100012, PR China. Electronic address: zhouyuexi@263.net. School of Environment, Tsinghua University, Beijing, 100084, PR China"
Journal Title:Chemosphere
Year:2021
Volume:20210316
Issue:
Page Number:130231 -
DOI: 10.1016/j.chemosphere.2021.130231
ISSN/ISBN:1879-1298 (Electronic) 0045-6535 (Linking)
Abstract:"Chlorinated acetaldehydes (CALs) are typical chlorinated organic compounds that posing a great threat to biological wastewater treatment plants. In this study, volatile batch acid (VFA) tests were employed to investigate the acidification inhibition, biodechlorination, and biotransformation of high-strength CALs on hydrolytic acidification. The results indicated that the optimum parameters were 4 g/L sludge, pH = 8, and glucose as an electron donor. Moreover, the acidification inhibition and biodechlorination showed a strongly positive correlation with the degree of chlorination and CAL concentrations. Extracellular polymeric substances (EPS) decreased dramatically, while DNA increased sharply under higher CAL concentrations, which was the result of cell death caused by the toxicity of the CALs. Additionally, the relative toxicities of the CALs were as follows: trichloroacetaldehyde > dichloroacetaldehyde > chloroacetaldehyde. Furthermore, Excitation-Emission-Matrix (EEM) spectra of EPS revealed that aromatic protein-like substances I interacted with CALs to achieve a slight removal of CALs. The detected products revealed that some of the chlorine atoms and aldehyde groups in the CALs were removed by microbes to certain degree. Moreover, microbial community analysis indicated that the dominant phyla were Actinobacteria, Bacteroidetes, and Synergistetes, which had a stronger tolerance to CALs. Notably, biodechlorination was closely related to a remarkable increase in members of the genus Trichococcus"
Keywords:Acetaldehyde Biotransformation Hydrogen-Ion Concentration *Microbiota *Sewage Wastewater Biodechlorination Biological inhibition Chlorinated acetaldehydes Chlorinated organic compounds Extracellular polymeric substances Trichococcus;
Notes:"MedlineTian, Xiangmiao Shen, Zhiqiang Zhou, Yuexi Wang, Kaijun eng England 2021/03/29 Chemosphere. 2021 Aug; 277:130231. doi: 10.1016/j.chemosphere.2021.130231. Epub 2021 Mar 16"

 
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