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Anticyclonic eddies increase accumulation of microplastic in the North Atlantic subtropical gyre

Marine Pollution Bulletin 2017 158 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.

Erik van Sebille, Erik van Sebille, Erik van Sebille, Laurent Brach, Erik van Sebille, Alexandra ter Halle Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Laurent Brach, Erik van Sebille, Alexandra ter Halle Patrick Deixonne, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Patrick Deixonne, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Patrick Deixonne, Erik van Sebille, Erik van Sebille, Laurent Brach, Emile Pérez, Erik van Sebille, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Marie-France Bernard, Erik van Sebille, Alexandra ter Halle Erik van Sebille, Erik van Sebille, Laurent Brach, Erik van Sebille, Patrick Deixonne, Marie-France Bernard, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, E. Durand, E. Durand, Patrick Deixonne, Alexandra ter Halle Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Marie-Christine Desjean, Marie-Christine Desjean, Erik van Sebille, Erik van Sebille, Patrick Deixonne, Emile Pérez, Alexandra ter Halle Erik van Sebille, Laurent Brach, Alexandra ter Halle Emile Pérez, Emile Pérez, Emile Pérez, Laurent Brach, Erik van Sebille, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Alexandra ter Halle Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Alexandra ter Halle Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Emile Pérez, Erik van Sebille, Emile Pérez, Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Alexandra ter Halle Alexandra ter Halle Erik van Sebille, Alexandra ter Halle Erik van Sebille, Erik van Sebille, Erik van Sebille, Alexandra ter Halle Alexandra ter Halle

Summary

Researchers found that anticyclonic eddies significantly increase the accumulation of microplastics in the North Atlantic subtropical gyre, using in situ measurements combined with satellite observations and modelling to reveal eddy-driven convergence as a key mechanism controlling microplastic distribution.

Study Type Environmental

There are fundamental gaps in our understanding of the fates of microplastics in the ocean, which must be overcome if the severity of this pollution is to be fully assessed. The predominant pattern is high accumulation of microplastic in subtropical gyres. Using in situ measurements from the 7th Continent expedition in the North Atlantic subtropical gyre, data from satellite observations and models, we show how microplastic concentrations were up to 9.4 times higher in an anticyclonic eddy explored, compared to the cyclonic eddy. Although our sample size is small, this is the first suggestive evidence that mesoscale eddies might trap, concentrate and potentially transport microplastics. As eddies are known to congregate nutrients and organisms, this phenomenon should be considered with regards to the potential impact of plastic pollution on the ecosystem in the open ocean.

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