Bypass of Booming Inputs of Urban and Sludge-Derived Microplastics in a Large Nordic Lake

Microplastic research, initially focusing on marine environments, left freshwater ecosystems largely unexplored. Freshwaters are also vulnerable to microplastics and are likely the largest microplastic supplier to the ocean. However, microplastic sources, transport pathways, and fluxes at the catchment level remain to be quantified, compromising efficient actions toward mitigation and remediation. Here we show that 70-90% of microplastics reaching Norway's largest lake, originating primarily from urban waste mismanagement and sludge application on crops, continue their journey toward the ocean without being buried. Indeed, our microplastic budget for the catchment shows that out of the 35.9 tons (7.4-119.4 t) of microplastics annually released into the lake, only 3.5 tons (1.3-8.8 t) are settling to the lake bottom. The spatial and vertical microplastic distribution and diversity in lake sediments, the socio-economic modeling of plastic fluxes and spatial information on land use and potential plastic sources all point toward urban and agricultural areas as emission hotspots of increasing importance. We conclude that the degree to which lake sediments represent a net microplastic sink is likely influenced by the nature of microplastics the lake receives, and ultimately on their origin.

Automated summary

Microplastic research initially focused on marine environments, neglecting freshwater ecosystems which are also vulnerable to microplastics. Recent study in Norway's largest lake showed that majority of microplastics came from urban waste mismanagement and agricultural practices, with only a small portion settling to the lake bottom. The distribution and sources of microplastics in the lake sediments suggest urban and agricultural areas are important emission hotspots.