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

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...

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Published in:Marine pollution bulletin 2024-12, Vol.209 (Pt B), p.117237, Article 117237
Main Authors: Capodici, Fulvio, Corbari, Laura, Gauci, Adam, Basilone, Gualtiero, Bonanno, Angelo, Campanella, Salvatore, Ciraolo, Giuseppe, Candela, Angela, D'Amato, Daniela, Ferreri, Rosalia, Fontana, Ignazio, Genovese, Simona, Giacalone, Giovanni, Marino, Giuseppina, Aronica, Salvatore
Format: Article
Language:English
Subjects:
Ecosystem
Environmental Monitoring - methods
HF radar
In-situ monitoring
Lagrangian simulations
Microplastics
Microplastics - analysis
Plastics - analysis
Remote sensing
Sea surface current
Sicily
Water Movements
Water Pollutants, Chemical - analysis
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Summary: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 (r2 ~ 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. [Display omitted] •The correlation between the sea surface current and the plastic accumulation in situ measured is quantified.•Possible plastic concentration estimated thorough the sea current total kinetic energy.•Lagrangian particle tracking forced using HFR surface currents allowed retrieving plastic accumulation.•Assessment of the plastic accumulation using Copernicus Marine Service (CMS) data could be limited.
ISSN:0025-326X
1879-3363
1879-3363
DOI:10.1016/j.marpolbul.2024.117237