期刊
JOURNAL OF ENVIRONMENTAL MANAGEMENT
卷 302, 期 -, 页码 -出版社
ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jenvman.2021.114027
关键词
Dihydroxy benzene; Metagenomics; Sludge toxicity; Biodegradation pathway; Microbial community
资金
- National Key Research and Development Program of China [2017YFB0602804]
- Major Projects of Science and Technology [2014ZX07202-011]
- Na-tional Natural Science Foundation [51378207, 51878278]
- Shanghai Pujiang Programme [13PJD009]
- Fundamental Research Funds for the Central Universities [222201817009]
The study investigated the relationship between microbial structure and sludge organic toxicity caused by phenolic compounds during the acclimation of activated sludge by catechol, resorcinol and hydroquinone. The degradation rates and toxicity of the compounds were found to be related to the microbial community structure, with catechol exhibiting the highest sludge toxicity due to difficulty in degradation and accumulation of certain secondary metabolites. The microbial metagenomic analysis revealed specific bacteria and enzyme genes associated with each compound, impacting the overall sludge toxicity levels.
The aerobic biodegradation rate, organic toxicity and microbial community structure of activated sludge acclimated by catechol, resorcinol and hydroquinone were investigated, to study the relationship between microbial structure and sludge organic toxicity caused by phenolic compounds. At the stable operation stage, the degradation rates of the dihydroxy benzenes in a single sequencing batch reactor (SBR) cycle were followed the order: resorcinol (89.71%) > hydroquinone (85.64%) > catechol (59.62%). Sludge toxicity bioassay indicated that the toxicity of sludge was catechol (45.63%) > hydroquinone (40.28%) > resorcinol (38.15%). The accumulation of secondary metabolites such as 5-10 kDa tryptophan and tyrosine protein substances caused the differential sludge toxicity. Microbial metagenomic analysis showed that the toxicity of sludge was significantly related to the microbial community structure. Thauera, Azoarcus, Pseudomonas and other Proteobacteria formed in the sludge during acclimation. Catechol group had the least dominant bacteria and loop ring opening enzyme genes (catA, dmpB, dxnF, hapD) numbers. Therefore, the degradation of catechol was the most difficult than resorcinol and hydroquinone, resulting the highest sludge toxicity.
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