Aging of microplastics and their role as vector for copper in aqueous solution

Microplastics (MPs), considered to be potential vectors for the transfer of heavy metals, undergo aging in the environment. However, the aging mechanisms of MPs and their interactions with heavy metals in aquatic environments still require additional studies. This study investigated the aging of micro-sized polyethylene terephthalate (mPET) and polyamide (mPA) in simulated seawater and changes in their physical and chemical properties, as well as the adsorption of copper by virgin and aged MPs. The effect of pH on adsorption behavior of MPs on copper was also elucidated. The results showed that the aging process of MPs was characterized by some wrinkles along with rough and fractured surface textures, as well as the changes in functional groups such as hydroxyl groups (-OH), aromatic carbon-carbon dou-ble bond (C@C), and carbon hydrogen bond (C-H). These changes further influence the aromaticity of the aged MPs and their affinity to pollutants. The aged MPs have higher sorption abilities as compared with that of virgin MPs (e.g., aged mPA > aged mPET > virgin mPA > virgin mPET) and the maximum adsorption capacity of mPA and mPET was achieved at pH 10. This study would contribute to understand the inter-actions among aged MPs, copper, and environmental factors, which can serve as a baseline for further studies on the toxicity of MPs in combination with heavy metals in the environment.(c) 2021 International Association for Gondwana Research. Published by Elsevier B.V. All rights reserved.

Automated summary

This study investigated the aging process of microplastics in simulated seawater and their adsorption capacity for copper. The results showed that aged microplastics have higher sorption abilities and their adsorption capacity is influenced by pH. These findings provide a baseline for further studies on the toxicity of microplastics in combination with heavy metals in the environment.