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Environmental Sources
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The streaming of plastic in the Mediterranean Sea
Nature Communications2022
65 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.
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
François Galgani,
Alberto Baudena,
Maria Luiza Pedrotti
François Galgani,
Isabel Jalón‐Rojas,
François Galgani,
Isabel Jalón‐Rojas,
François Galgani,
Isabel Jalón‐Rojas,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
François Galgani,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
François Galgani,
François Galgani,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
François Galgani,
François Galgani,
Isabel Jalón‐Rojas,
François Galgani,
Isabel Jalón‐Rojas,
François Galgani,
François Galgani,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Enrico Ser‐Giacomi,
Alberto Baudena,
Isabel Jalón‐Rojas,
François Galgani,
Isabel Jalón‐Rojas,
Alberto Baudena,
Maria Luiza Pedrotti
François Galgani,
Alberto Baudena,
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
Alberto Baudena,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
Isabel Jalón‐Rojas,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
François Galgani,
Maria Luiza Pedrotti
Isabel Jalón‐Rojas,
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
François Galgani,
Alberto Baudena,
Alberto Baudena,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
Isabel Jalón‐Rojas,
Isabel Jalón‐Rojas,
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
François Galgani,
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
Enrico Ser‐Giacomi,
Enrico Ser‐Giacomi,
Maria Luiza Pedrotti
François Galgani,
François Galgani,
Maria Luiza Pedrotti
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
Maria Luiza Pedrotti
François Galgani,
Isabel Jalón‐Rojas,
François Galgani,
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
Maria Luiza Pedrotti
Maria Luiza Pedrotti
François Galgani,
Maria Luiza Pedrotti
Summary
Using plastic tracking models and the largest Mediterranean plastic dataset to date, researchers identified crossroad zones through which about 20% of the sea's annually released plastic debris flows through just 1% of the basin's surface area. Identifying these high-flux zones could inform targeted cleanup and monitoring strategies.
Plastic debris is a ubiquitous pollutant on the sea surface. To date, substantial research efforts focused on the detection of plastic accumulation zones. Here, a different paradigm is proposed: looking for crossroad regions through which large amounts of plastic debris flow. This approach is applied to the Mediterranean Sea, massively polluted but lacking in zones of high plastic concentration. The most extensive dataset of plastic measurements in this region to date is combined with an advanced numerical plastic-tracking model. Around 20% of Mediterranean plastic debris released every year passed through about 1% of the basin surface. The most important crossroads intercepted plastic debris from multiple sources, which had often traveled long distances. The detection of these spots could foster understanding of plastic transport and help mitigation strategies. Moreover, the general applicability and the soundness of the crossroad approach can promote its application to the study of other pollutants.