Abstract
The accumulation of microplastics (MPs) in soil and sediments may influence the penetration of contaminants into subsurface environments. However, little attention has been paid to comparing the different roles of two common polyethylene (PE) types—low-density polyethylene (LDPE) and high-density polyethylene (HDPE). In this study, the transport behaviors of tetracycline in saturated quartz sand columns in the presence and absence of these two MPs were investigated, respectively. The results showed that both types of PE MPs restrained the mobility of tetracycline at neutral conditions, while such detrimental effects were weak at acid and alkaline conditions. The degree of nonequilibrium adsorption was higher, and tetracycline transferred easier to the kinetic site for the existence of LDPE than of HDPE. The increased roughness and Brunauer-Emmett-Teller (BET) surface areas, more negative zeta potentials and the formation of oxygen function groups on the surface of MPs after UV-weathering intensified the retardation of tetracycline transport. This study revealed that the PE type and weathering should be taken into account in risk assessment, along with the solution chemistry.
Highlights
The occurrence of microplastics (MPs,
The entire experimental setups, including influent container, glass column, pipes and the lid of the fraction collector were all covered by aluminum foil as much as possible to prevent any photolytic degradation of tetracycline and aging of microplastics
This study revealed that the presence of PE MPs would change both the sorption rate and the transport rate of tetracycline, affecting its migration in saturated porous media
Summary
The occurrence of microplastics (MPs,
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