Decreased levels and ecological risks of disinfection by-product chloroform in a field-scale artificial groundwater recharge project by colloid supplement

[Display omitted] •Colloids inhibited chloroform formation and migration in artificial groundwater recharge.•Colloid addition encouraged release of soil microbes notably GN taxa into aquifer.•Colloid supplement reduced the ecological risks of artificial groundwater recharge. To bolster freshwater su...

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Bibliographic Details
Published in:Environment international 2022-03, Vol.161, p.107130-107130, Article 107130
Main Authors: Chai, Juanfen, Zhang, Wenjing, Liu, Dan, Li, Shuxin, Chen, Xuequn, Yang, Yuesuo, Zhang, Dayi
Format: Article
Language:English
Subjects:
Artificial groundwater recharge
Chloroform
Colloid
Colloids
Disinfection
Disinfection by-products
Ecological risk
Fresh Water
Groundwater
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Summary:[Display omitted] •Colloids inhibited chloroform formation and migration in artificial groundwater recharge.•Colloid addition encouraged release of soil microbes notably GN taxa into aquifer.•Colloid supplement reduced the ecological risks of artificial groundwater recharge. To bolster freshwater supply, artificial groundwater recharge with recycled water has increasingly attracted research attentions and interests. However, artificial groundwater recharge has potential risks to groundwater quality, as recharge water disinfection is frequently used for pathogen inactivation and causes the concerns of disinfection by-products (DBPs). Colloid supplement is a good approach solving this problem, but its roles in mitigating DBPs remains unclear. In this study, we collected 20 groundwater and soil samples from a field-scale groundwater recharge project, and explored the impacts of silica colloids on chloroform migration and groundwater bacterial communities during the recharge process. Water physicochemical variables changed along the recharge time, and colloid supplement significantly reduced chloroform formation and slowed its migration in groundwater. Bacterial communities in groundwater, river water and recharge water were significantly different. Gammaproteobacteria in recharge water (71.7%) was more abundant than in river water (30.5%) and groundwater (33.5%), while Actinobacteria dominated groundwater (40.6%). After recharge, Gammaproteobacteria increased more with colloid supplement (75.7%) than without (52.6%), attributing to its dominance in soils (74.6%). Our results suggested more bacterial lineages released from soils into aquifer by silica colloid supplement, owing to the competitive adsorption encouraging microbial transfer, especially Gram-negative bacteria. Our findings unraveled the effects of colloid supplement on chloroform formation and migration during artificial groundwater recharge, which consequently altered groundwater bacterial communities, and offered valuable suggestions for the safety management of DBPs in aquifer recharge.
ISSN:0160-4120
1873-6750
DOI:10.1016/j.envint.2022.107130