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Mountains of plastic: Mismanaged plastic waste along the Carpathian watercourses
The Science of The Total Environment2023
16 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Tim van Emmerik
Maciej Liro,
Tim van Emmerik
Anna Zielonka,
Anna Zielonka,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Małgorzata Grodzińska‐Jurczak,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Florin‐Constantin Mihai,
Tímea Kiss,
Tímea Kiss,
Tímea Kiss,
Tímea Kiss,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Maciej Liro,
Anna Zielonka,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Anna Zielonka,
Maciej Liro,
Tímea Kiss,
Florin‐Constantin Mihai,
Tim van Emmerik
Tímea Kiss,
Tímea Kiss,
Tímea Kiss,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Anna Zielonka,
Tim van Emmerik
Tim van Emmerik
Maciej Liro,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tímea Kiss,
Anna Zielonka,
Tímea Kiss,
Anna Zielonka,
Anna Zielonka,
Małgorzata Grodzińska‐Jurczak,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Justyna Liro,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Florin‐Constantin Mihai,
Małgorzata Grodzińska‐Jurczak,
Justyna Liro,
Tim van Emmerik
Małgorzata Grodzińska‐Jurczak,
Tim van Emmerik
Tímea Kiss,
Tim van Emmerik
Justyna Liro,
Anna Zielonka,
Justyna Liro,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Florin‐Constantin Mihai,
Tímea Kiss,
Florin‐Constantin Mihai,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tímea Kiss,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tímea Kiss,
Tim van Emmerik
Tim van Emmerik
Tímea Kiss,
Tímea Kiss,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Florin‐Constantin Mihai,
Tim van Emmerik
Florin‐Constantin Mihai,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Florin‐Constantin Mihai,
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Tim van Emmerik
Summary
Researchers mapped mismanaged plastic waste along 175,675 km of Carpathian waterways using high-resolution databases, finding that 81% of river lengths are significantly affected, with the worst hotspots concentrated in Romania, Hungary, and Ukraine, and that nationally protected areas paradoxically have higher plastic waste loads than internationally protected zones.
Plastic waste poses numerous risks to mountain river ecosystems due to their high biodiversity and specific physical characteristics. Here, we provide a baseline assessment for future evaluation of such risks in the Carpathians, one of the most biodiverse mountain ranges in East-Central Europe. We used high-resolution river network and mismanaged plastic waste (MPW) databases to map MPW along the 175,675 km of watercourses draining this ecoregion. We explored MPW levels as a function of altitude, stream order, river basin, country, and type of nature conservation in a given area. The Carpathian watercourses below 750 m a.s.l. (142,282 km, 81 % of the stream lengths) are identified as significantly affected by MPW. Most MPW hotspots (>409.7 t/yr/km) occur along rivers in Romania (6568 km; 56.6 % of all hotspot lengths), Hungary (2679 km; 23.1 %), and Ukraine (1914 km; 16.5 %). The majority of the river sections flowing through the areas with negligible MPW (< 1 t/yr/km) occur in Romania (31,855 km; 47.8 %), Slovakia (14,577 km; 21.9 %), and Ukraine (7492; 11.2 %). The Carpathian watercourses flowing through the areas protected at national level (3988 km; 2.3 % of all watercourses studied) have significantly higher MPW values (median = 7.7 t/yr/km) than those protected at regional (51,800 km; 29.5 %) (median MPW = 1.25 t/yrkm) and international levels (66 km; 0.04 %) (median MPW = 0 t/yr/km). Rivers within the Black Sea basin (88.3 % of all studied watercourses) have significantly higher MPW (median = 5.1 t/yr/km, 90th percentile = 381.1 t/yr/km) than those within the Baltic Sea basin (median = 6.5 t/yr/km, 90th percentile = 84.8 t/yr/km) (11.1 % of all studied watercourses). Our study indicates the locations and extent of riverine MPW hotspots in the Carpathian Ecoregion, which can support future collaborations between scientists, engineers, governments, and citizens to better manage plastic pollution in this region.