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Microplastic accumulation in one-year freshwater ice: A four-year monitoring study reveals winter dynamics of microplastics

The Science of The Total Environment 2024 2 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 40 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Tuomo Soininen, Tuomo Soininen, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Tuomo Soininen, Tuomo Soininen, Tuomo Soininen, Tuomo Soininen, Tuomo Soininen, Saija Saarni, Saija Saarni, Saija Saarni, Saija Saarni, Saija Saarni, Saija Saarni, Arto Koistinen Tuomo Soininen, Tuomo Soininen, Tuomo Soininen, Tuomo Soininen, Tuomo Soininen, Saija Saarni, Arto Koistinen Saija Saarni, Saija Saarni, Saija Saarni, Saija Saarni, Saija Saarni, Saija Saarni, Arto Koistinen Saija Saarni, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Arto Koistinen Emilia Uurasjärvi, Arto Koistinen Arto Koistinen Arto Koistinen Jouni Sorvari, Jouni Sorvari, Arto Koistinen Jouni Sorvari, Emilia Uurasjärvi, Jouni Sorvari, Arto Koistinen Saija Saarni, Emilia Uurasjärvi, Arto Koistinen Saija Saarni, Arto Koistinen Arto Koistinen Tuomo Soininen, Emilia Uurasjärvi, Tuomo Soininen, Tuomo Soininen, Tuomo Soininen, Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Emilia Uurasjärvi, Arto Koistinen Emilia Uurasjärvi, Jouni Sorvari, Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Saija Saarni, Arto Koistinen Arto Koistinen Saija Saarni, Saija Saarni, Emilia Uurasjärvi, Emilia Uurasjärvi, Saija Saarni, Saija Saarni, Saija Saarni, Arto Koistinen Jouni Sorvari, Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Arto Koistinen Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Emilia Uurasjärvi, Arto Koistinen Arto Koistinen

Summary

A four-year study of freshwater ice near Finnish urban areas found microplastic concentrations one to two orders of magnitude higher in ice than in the open surface water below, confirming that ice acts as a seasonal trap for microplastics. When ice and snow melt each spring, those concentrated microplastics flush into sediments and water bodies at once, creating a pulse of plastic pollution that is easy to overlook in warm-weather monitoring programs.

Polymers

PE PET PP

Study Type Environmental

Microplastic research has reached a point where microplastics (MPs) have been found in virtually every environment studied. However, MP studies of freshwater ice are scarce, and the winter dynamics of MPs are less understood. Measuring MPs from one-year freshwater ice samples can aid understanding seasonal MP fluxes in freshwater systems. In this study we explored the same four sites close to urban/suburban areas over four subsequent years. We collected a total of 48 ice samples across all the years and sites with an average sample volume of 2.9 to 5.0 L of liquid water. In addition, we sampled an annually laminated section of bottom sediments representing these four years in seasonal resolution. MP concentrations varied considerably between years and samples, being 1-44 MPs/L in all the ice samples. The MPs found in ice were small with a mean (± average) size of 142 ± 177 μm. In total, 9 different polymer types were identified: the most common types being polypropylene, polyethylene and polyethylene terephthalate. We found that MPs accumulate to one-year freshwater ice, because the MP concentrations found from ice are one to two orders of magnitude higher than concentrations from surfaces waters in the same area. This further confirms that ice acts as a temporal repository for MPs in the aquatic freshwater systems. Our study also indicates that the properties of MPs were relatively similar in all sites around the city. The accumulation of MPs in sediments was highest during the spring flood periods, when MPs were released from the ice and snow at the catchment area of the sediment samples. We highlight the importance of monitoring to collect representative MP data from various environmental compartments.

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