Water or sediment? Assessing seasonal microplastic accumulation from wastewater treatment works

Microplastics have become a major environmental concern around the world due to their potential impact on ecosystem functioning and biota. Microplastics enter freshwater systems through a variety of sources, with wastewater treatment work discharges being the most important source. The study aimed to determine the seasonal (i.e., hot-wet, cool-dry) variation in water and sediment microplastic abundances up-and down-stream of wastewater treatment works across two subtropical river systems (i.e., Crocodile and Luvuvhu) in South Africa. Overall, we found that microplastic type and distribution often did not show clear seasonal and site variation, hence microplastics were widespread across the studied systems and microplastic concentrations did not relate clearly to wastewater treatment works as further indicated by microplastic risk assessments which indicated high pollution loads upstream. The non-metric multidimensional scaling ordination based on microplastic densities for water and sediment discriminated slightly among systems, with major overlaps across the different locations and seasons. As a result, the current research indicates that seasonal context influences differences in microplastic concentrations, with the hot-wet season being associated with the high pollution loads, particularly within the sediments where this was more pronounced indicating the sink-source effect which is linked to sediments and not water.

Automated summary

This study aimed to determine the seasonal variation in microplastic abundances in water and sediment up- and down-stream of wastewater treatment works in two subtropical river systems in South Africa. The research found that microplastics were widely distributed and did not show clear seasonal and site variation. Microplastic concentrations did not clearly relate to wastewater treatment works, and high pollution loads were found upstream based on microplastic risk assessments. The analysis also showed overlaps in microplastic densities among different locations and seasons.