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Transfer, elimination and accumulation of antibiotic resistance genes in decentralized household wastewater treatment facility treating total wastewater from residential complex.
Author: DengZhiyi, LiFusheng, LiWenjiao, OkumuraShinya, SuHaoning, WeiYongfen
Original Abstract of the Article :
The fate and behavior of antibiotic resistance genes (ARGs) in decentralized household wastewater treatment facilities (DHWWTFs) are unclear. In this study, targeting on a representative DHWWTF that receive all wastewater from a residential complex having 150 households, the transfer, elimination an...See full text at original site
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引用元:
https://doi.org/10.1016/j.scitotenv.2023.169144
データ提供:米国国立医学図書館(NLM)
Transfer, Elimination, and Accumulation of Antibiotic Resistance Genes in Decentralized Household Wastewater Treatment Facilities
The rise of [antibiotic resistance genes (ARGs)] poses a significant threat to public health and environmental sustainability. This study investigates the fate and behavior of ARGs in [decentralized household wastewater treatment facilities (DHWWTFs)]. The authors explored the transfer, elimination, and accumulation of specific ARGs in a representative DHWWTF, analyzing their abundance in various stages of the treatment process. Their findings highlight the complex dynamics of ARG fate in wastewater treatment systems.
Addressing the Spread of Antibiotic Resistance
The study reveals a complex interplay of microbial activity, sedimentation, and sludge accumulation in influencing the abundance of ARGs in DHWWTFs. While significant portions of ARGs are removed through sedimentation and sludge accumulation, a substantial number remain in the treated effluent. This highlights the need for further optimization of wastewater treatment processes to minimize the release of ARGs into the environment. Addressing the spread of antibiotic resistance is a crucial challenge in our increasingly interconnected world.
Protecting Public Health and the Environment
This research underscores the importance of understanding the dynamics of antibiotic resistance gene transfer and elimination in wastewater treatment systems. By minimizing the release of ARGs into the environment, we can protect public health and the delicate balance of ecosystems. The desert of antibiotic resistance is a challenging landscape, but with careful management and innovative solutions, we can work towards a future where these genes pose less of a threat.
Dr. Camel's Conclusion
This study sheds light on the complex dynamics of antibiotic resistance gene transfer and elimination in decentralized household wastewater treatment facilities. It highlights the need for continued research and optimization of treatment processes to minimize the release of these genes into the environment, protecting public health and the delicate balance of ecosystems.
Date :
- Date Completed n.d.
- Date Revised 2023-12-09
Further Info :
Related Literature
English
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