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Interactions of microplastics and antibiotic resistance genes and their effects on the aquaculture environments
Journal of Hazardous Materials2020
312 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 60
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Yue Zhang,
Yue Zhang,
Jun Wang,
Jun Wang,
Jun Wang,
Dong Han,
Aiguo Zhou,
Jun Wang,
Jun Wang,
Jun Wang,
Xiang Li,
Dong Han,
Yuliang Chen,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Aiguo Zhou,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Yue Zhang,
Yue Zhang,
Aiguo Zhou,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Jixing Zou
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Yuliang Chen,
Yuliang Chen,
Jun Wang,
Jun Wang,
Jun Wang,
Yue Zhang,
Yue Zhang,
Yue Zhang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Jixing Zou
Jixing Zou
Jixing Zou
Aiguo Zhou,
Aiguo Zhou,
Aiguo Zhou,
Yue Zhang,
Xiang Li,
Xiang Li,
Pan Zhang,
Jun Wang,
Aiguo Zhou,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Jixing Zou
Jun Wang,
Dong Han,
Jixing Zou
Jun Wang,
Xiang Li,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Aiguo Zhou,
Xiang Li,
Jixing Zou
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Jun Wang,
Jixing Zou
Jun Wang,
Jixing Zou
Jun Wang,
Jun Wang,
Jixing Zou
Jun Wang,
Jun Wang,
Jixing Zou
Jun Wang,
Jixing Zou
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Jixing Zou
Jixing Zou
Jixing Zou
Jixing Zou
Jixing Zou
Jixing Zou
Jun Wang,
Aiguo Zhou,
Aiguo Zhou,
Aiguo Zhou,
Jun Wang,
Aiguo Zhou,
Jun Wang,
Aiguo Zhou,
Aiguo Zhou,
Jun Wang,
Jun Wang,
Jixing Zou
Jun Wang,
Jun Wang,
Jun Wang,
Aiguo Zhou,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Yuliang Chen,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jun Wang,
Jixing Zou
Summary
This review explores the relationship between microplastics and antibiotic resistance genes in aquaculture environments. Researchers found that microplastics can serve as surfaces where antibiotic-resistant bacteria thrive and exchange resistance genes, potentially accelerating the spread of antibiotic resistance in fish farms and surrounding waterways.
Microplastics (MPs) and antibiotic resistance genes (ARGs) have become the increasing attention and global research hotpots due to their unique ecological and environmental effects. As susceptible locations for MPs and ARGs, aquaculture environments play an important role in their enrichment and transformation. In this review, we focused on the MPs, ARGs, and the effects of their interactions on the aquaculture environments. The facts that antibiotics have been widely applied in different kinds of agricultural productions (e.g., aquaculture) and that most of antibiotics enter the water environment with rainfall and residual in the aquaculture environment have been resulting in the emergence of antibiotic resistance bacteria (ARB). Moreover, the water MPs are effective carriers of the environmental microbes and ARB, making them likely to be continuously imported into the aquaculture environments. As a result, the formation of the compound pollutions may also enter the aquatic organisms through the food chains and eventually enter the human body after a long-term enrichment. Furthermore, the compound pollutions result in the joint toxic effects on the human health and the ecological environment. In summary, this review aims to emphasize the ecological effects and the potential hazards on the aquaculture environments where interactions between MPs and ARGs results, and calls for to reduce the use of the plastic products and the antibiotics in the aquaculture environments.