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Towards microplastic hotspots detection: A comparative analysis of in-situ sampling and sea surface currents derived by HF radars

Marine Pollution Bulletin 2024 2 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Fulvio Capodici, Laura Corbari, Adam Gauci Adam Gauci Fulvio Capodici, Laura Corbari, Fulvio Capodici, Laura Corbari, Laura Corbari, Fulvio Capodici, Adam Gauci Salvatore Aronica, Adam Gauci Gualtiero Basilone, Adam Gauci Ignazio Fontana, Gualtiero Basilone, Angelo Bonanno, Angelo Bonanno, Giovanni Giacalone, Giuseppe Ciraolo, Adam Gauci Salvatore Campanella, Salvatore Campanella, Salvatore Campanella, Giuseppe Ciraolo, Fulvio Capodici, Giuseppe Ciraolo, Fulvio Capodici, Angela Candela, Angela Candela, Angela Candela, Angela Candela, Giuseppina Marino, Daniela D'Amato, Giuseppe Ciraolo, Giuseppe Ciraolo, Daniela D'Amato, Daniela D'Amato, Daniela D'Amato, Rosalia Ferreri, Giuseppe Ciraolo, Rosalia Ferreri, Ignazio Fontana, Ignazio Fontana, Simona Genovese, Simona Genovese, Giovanni Giacalone, Giovanni Giacalone, Giuseppina Marino, Salvatore Aronica, Salvatore Aronica, Adam Gauci Adam Gauci

Summary

Researchers compared in-situ microplastic sampling data with sea surface current measurements from high-frequency radar in the Sicily Channel to develop better methods for detecting plastic pollution hotspots. They found a strong inverse correlation between microplastic fragment occurrence and total kinetic energy, suggesting that areas of low water movement accumulate more debris. The approach could help identify high-accumulation zones, particularly at the centers of eddies, without resource-intensive field sampling.

Marine plastic pollution is a global issue affecting ecosystems and various aspects of human life. The scientific community is exploring new monitoring and containment approaches. Because in-situ sampling campaigns are time and resource demanding, there is a focus on integrating different approaches for marine litter monitoring. Data of two in-situ surveys (using a manta net) were compared to sea surface currents data and derived products with the aim to find a proxy variable of the plastic occurrence. Sea surface currents data were provided by the CALYPSO HF network (operating in the Sicily Channel since 2012). Notably, the occurrence of fragment items is inversely correlated with the total kinetic energy (r ~ 0.85). This result was confirmed by a Lagrangian tracking model considering the deployment of virtual drifters around each in-situ measurement point. The proposed method applied to a wider domain using Copernicus Marine Service (CMS) data revealed that high plastic accumulation areas could be located at the centre of eddies often occurring in the winter period. However, uncertainties arise by the moderate-low correlation found between HF CALYPSO and CMS sea current data.

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