Microplastics and Antibiotics in Aquatic Environments: A Review of Their Interactions and Ecotoxicological Implications

K. Tang
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Abstract

Microplastics and antibiotics are two significant emerging pollutants found together in water bodies, raising concerns about their mutual effects. This review delves into how microplastics and antibiotics interact in aqueous environments and the ecotoxicological implications of such interactions, particularly the bioavailability of antibiotics and the prevalence of antibiotic-resistance genes. It outlines that antibiotics attach to microplastics primarily through hydrophobic, hydrogen-bonding, and electrostatic interactions. Other bonds, comprising halogen bonding, cation−π interaction, and negative charge-assisted hydrogen bonds, may also be involved to better explain antibiotic adsorption patterns. The adsorption of antibiotics to microplastics often follows the pseudo-second-order kinetic model and in some instances, the pseudo-first-order kinetic model. The common adsorption isotherms governing this interaction are the linear and Freundlich models. Microplastics may increase the biodegradation of adsorbed antibiotics due to the presence of antibiotic-degrading bacteria in the biofilms. They could also hamper direct photodegradation but facilitate indirect photodegradation of adsorbed antibiotics. However, their photodegradative effect remains inconclusive. Microplastics and antibiotics exhibit significant toxicity to algae, while their effects on fish and daphnia are less noticeable, suggesting that their combination does not pose an immediate threat to the well-being and proliferation of larger aquatic organisms. In some instances, microplastics reduce the deleterious effects of antibiotics on aquatic life. Microplastics serve as catalysts for gene transfer, enhancing the propagation of antibiotic-resistance genes in these ecosystems. This review underscores the importance of understanding the regulatory mechanisms of microplastics on antibiotic-resistance gene diversity, particularly at the gene expression level.
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水生环境中的微塑料和抗生素:它们之间的相互作用和生态毒理学影响综述
微塑料和抗生素是水体中新出现的两种重要污染物,它们的相互影响引起了人们的关注。本综述深入探讨了微塑料和抗生素如何在水环境中相互作用,以及这种相互作用的生态毒理学影响,特别是抗生素的生物利用率和抗生素耐药基因的流行。报告概述了抗生素主要通过疏水、氢键和静电作用附着在微塑料上。其他键,包括卤素键、阳离子-π相互作用和负电荷辅助氢键,也可能参与其中,从而更好地解释抗生素的吸附模式。微塑料对抗生素的吸附通常遵循伪二阶动力学模型,在某些情况下也遵循伪一阶动力学模型。制约这种相互作用的常见吸附等温线是线性模型和 Freundlich 模型。由于生物膜中存在抗生素降解细菌,微塑料可能会增加吸附抗生素的生物降解。它们还可能阻碍直接光降解,但促进吸附抗生素的间接光降解。不过,它们的光降解作用仍无定论。微塑料和抗生素对藻类有明显的毒性,而对鱼类和水蚤的影响则不太明显,这表明它们的结合不会对大型水生生物的健康和繁殖构成直接威胁。在某些情况下,微塑料可减少抗生素对水生生物的有害影响。微塑料可作为基因转移的催化剂,促进抗生素耐药基因在这些生态系统中的传播。这篇综述强调了了解微塑料对抗生素耐药基因多样性的调控机制的重要性,尤其是在基因表达水平上。
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