Elsevier

Environmental Pollution

Volume 274, 1 April 2021, 116568
Environmental Pollution

Sediment trapping – An attempt to monitor temporal variation of microplastic flux rates in aquatic systems

https://doi.org/10.1016/j.envpol.2021.116568Get rights and content
Under a Creative Commons license
open access

Highlights

  • Sediment trap method is a powerful tool to measure microplastic accumulation rates.

  • Microplastic flux rate is free from bias caused by varying sedimentation rate.

  • Sediment trap allows identification of processes controlling microplastic burial.

  • Seasonal cycle likely controls availability and deposition of microplastics.

Abstract

Sediment trapping as a tool to monitor microplastic influx was tested in an urban boreal lake basin. The one-year-long trap monitoring consisted of 5-month and 7-month periods representing growing season and winter season (including the spring flood event), respectively. Sediment accumulation rate (SAR), and organic content were determined, highest SAR – 14.5 g/m2/d – was measured during the winter period. Microplastics were extracted from the sediment applying heavy-liquid density separation method and collected under a microscope for further identification with FTIR spectroscopy. PE was identified as the most abundant synthetic polymer type, while PP and PET are also present. The annual microplastic flux rate is 32 400 pieces/m2/year, and highest accumulation does not coincide with the highest SAR, but occurs during the growing season. Changes in the microplastic accumulation rates are related to seasonal conditions. Highest microplastic concentration with respect to dry sediment weight (10 200 pieces/kg) was observed in a growing season sample, while highest concentration with respect to sediment volume (1800 pieces/l) was observed during winter. This finding underlines the problems related to reporting microplastic concentrations in various units. The results highlight that sediment trap monitoring is an efficient tool for monitoring microplastic accumulation rate in aquatic environments and provides an opportunity to better understand and define processes controlling microplastic accumulation.

Keywords

Microplastics
Accumulation rate
Sediment trap
Sedimentation process
Urban lake

Cited by (0)

This paper has been recommended for acceptance by Eddy Y. Zeng.