Interaction between Microplastics and Pharmaceuticals Depending on the Composition of Aquatic Environment

M. Kļaviņš, L. Klavins, O. Stabnikova, V. Stabnikov, A. Marynin, L. Ansone-Bērtiņa, Marcis Mezulis, Ashok Vaseashta
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引用次数: 10

Abstract

A large amount of the globally produced plastics are not treated and are eventually released into landfills or natural environments, including surface waters. The plastics that enter the aquatic environment are very often microplastics, which are produced in households by the slow degradation or abrasion of plastic products, or as whole plastic products, which eventually degrade (abrasion, photodegradation). Together with microplastics, other pollutants such as pharmaceuticals of various kinds enter surface waters—both of these counterparts can interact with each other as well as with organic and inorganic molecules available in the natural environment. The aim of this study was to identify the interaction of microplastics with pharmaceuticals, especially under conditions that are common in inland waters as well as the seas and oceans that the rivers feed their water into. It was found that salinity has a great impact on the sorption capacity of microplastics and pharmaceuticals. The sorption of naturally occurring humic substances (humic and fulvic acids) can greatly increase when the microplastic–pharmaceutical complex is formed; however, the priority of the interaction happens with pharmaceuticals and humic substances. Such complexes can influence the organisms that feed on small organic-matter particles, as they can be mistaken for food and thus be transferred throughout the food chain.
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基于水环境组成的微塑料与药物相互作用
全球生产的大量塑料未经处理,最终被排放到垃圾填埋场或自然环境中,包括地表水。进入水生环境的塑料通常是微塑料,它们是在家庭中通过塑料制品的缓慢降解或磨损产生的,或者作为整个塑料制品最终降解(磨损,光降解)。与微塑料一起进入地表水的还有其他污染物,比如各种各样的药物——这两种污染物既可以相互作用,也可以与自然环境中可用的有机和无机分子相互作用。这项研究的目的是确定微塑料与药物的相互作用,特别是在内陆水域以及河流进水的海洋中常见的条件下。研究发现,盐度对微塑料和药物的吸附能力有很大影响。当微塑料-药物复合物形成时,天然腐殖酸(腐殖酸和黄腐酸)的吸附量大大增加;然而,这种相互作用的优先级发生在药物和腐殖质上。这些复合物会影响以微小有机物颗粒为食的生物,因为它们可能被误认为食物,从而在整个食物链中转移。
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