Natural attenuation of BTEX and chlorobenzenes in a formerly contaminated pesticide site in China: Examining kinetics, mechanisms, and isotopes analysis

Groundwater contamination from abandoned pesticide sites is a prevalent issue in China. To address this problem, natural attenuation (NA) of pollutants has been increasingly employed as a management strategy for abandoned pesticide sites. However, limited studies have focused on the long-term NA pro...

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Published in:The Science of the total environment 2024-03, Vol.918, p.170506-170506, Article 170506
Main Authors: Wang, Mengjie, Jiang, Dengdeng, Yang, Lu, Wei, Jing, Kong, Lingya, Xie, Wenyi, Ding, Da, Fan, Tingting, Deng, Shaopo
Format: Article
Language:English
Subjects:
Abandoned pesticide sites
Compound-specific isotope analysis (CSIA)
Groundwater
Microbial community structure
Natural attenuation
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Summary:Groundwater contamination from abandoned pesticide sites is a prevalent issue in China. To address this problem, natural attenuation (NA) of pollutants has been increasingly employed as a management strategy for abandoned pesticide sites. However, limited studies have focused on the long-term NA process of co-existing organic pollutants in abandoned pesticide sites by an integrated approach. In this study, the NA of benzene, toluene, ethylbenzene, and xylene (BTEX), and chlorobenzenes (CBs) in groundwater of a retired industry in China was systematically investigated during the monitoring period from June 2016 to December 2021. The findings revealed that concentrations of BTEX and CBs were effectively reduced, and their NA followed first-order kinetics with different rate constants. The sulfate-reducing bacteria, nitrate-reducing bacteria, fermenting bacteria, aromatic hydrocarbon metabolizing bacteria, and reductive dechlorinating bacteria were detected in groundwater. It was observed that distinct environmental parameters played a role in shaping both overall and key bacterial communities. ORP (14.72%) and BTEX (12.89%) were the main drivers for variations of the whole and key functional microbial community, respectively. Moreover, BTEX accelerated reductive dechlorination. Furthermore, BTEX and CBs exhibited significant enrichment of 13C, ranging from +2.9 to +27.3‰, demonstrating their significance in situ biodegradation. This study provides a scientific basis for site management. [Display omitted] •BTEX and CBs effectively decreased through natural attenuation.•The key functional bacteria were all detected in three groups.•Environmental characteristics and pollutants affect the microbial community structure.•The isotopic values of BTEX and CBs proved their obvious in situ biodegradation.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2024.170506