Microbial community structure and functional prediction in five full-scale industrial park wastewater treatment plants

The development of industrial parks has become an important global trend contributing significantly to economic and industrial growth. However, this growth comes at a cost, as the treatment of multisource industrial wastewater generated in these parks can be difficult owing to its complex compositio...

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Bibliographic Details
Published in:The Science of the total environment 2023-12, Vol.904, p.166529-166529, Article 166529
Main Authors: Tong, Tujun, Tong, Juan, Xue, Keni, Li, Yanan, Yu, Jiangze, Wei, Yuansong
Format: Article
Language:English
Subjects:
FAPROTAX
Multisource industrial wastewater
Nitrogen cycle
RDA
Sulfur cycle
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Summary:The development of industrial parks has become an important global trend contributing significantly to economic and industrial growth. However, this growth comes at a cost, as the treatment of multisource industrial wastewater generated in these parks can be difficult owing to its complex composition. Microorganisms play a critical role in pollutant removal during industrial park wastewater treatment. Therefore, our study focused on the microbial communities in five full-scale industrial park wastewater treatment plants (WWTPs) with similar treatment processes and capacities. The results showed that denitrifying bacteria were dominant in almost every process section of all the plants, with heterotrophic denitrification being the main pathway. Moreover, autotrophic sulfur denitrification and methane oxidation denitrification may contribute to total nitrogen (TN) removal. In plants where the influent had low levels of COD and TN, dominant bacteria included oligotrophic microorganisms like Prosthecobacter (2.88 % ~ 10.02 %) and hgcI_clade (2.05 % ~ 9.49 %). Heavy metal metabolizing microorganisms, such as Norank_f__PHOS-HE36 (3.96 % ~ 5.36 %) and Sediminibacterium (1.86 % ~ 5.34 %), were prevalent in oxidation ditch and secondary settling tanks in certain plants. Functional Annotation of Prokaryotic Taxa (FAPROTAX) revealed that microbial communities in the regulation and hydrolysis tanks exhibited higher potential activity in the nitrogen (N) and sulfur (S) cycles than those in the oxidation ditch. Sulfate/sulfite reduction was common in most plants, whereas the potential occurrence of sulfide compounds and thiosulfate oxidation tended to be higher in plants with a relatively high sulfate concentration and low COD content in their influent. Our study provides a new understanding of the microbial community in full-scale industrial park WWTPs and highlights the critical role of microorganisms in the treatment of industrial wastewater. [Display omitted] •Denitrifiers were dominant almost in every process unit of all plants.•Oligotrophic or heavy metal metabolizing bacteria could be dominant bacteria.•Higher potential activities in N & S cycles in the regulation and hydrolysis tanks•Sulfur autotrophic denitrification might contribute to TN removal.•Dark sulfide oxidation might occur in most plants.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2023.166529