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Combining Litter Observations with a Regional Ocean Model to Identify Sources and Sinks of Floating Debris in a Semi-enclosed Basin: The Adriatic Sea

Frontiers in Marine Science 2017 101 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.

Stefano Aliani Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Daniel F. Carlson, Giuseppe Suaria, Daniel F. Carlson, Giuseppe Suaria, Stefano Aliani Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Erick Fredj, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani Giuseppe Suaria, Stefano Aliani Giuseppe Suaria, Stefano Aliani Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Tomaso Fortibuoni, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani Stefano Aliani Erick Fredj, Erick Fredj, Erick Fredj, Erick Fredj, Annalisa Griffa, Annalisa Griffa, Tomaso Fortibuoni, Erick Fredj, Giuseppe Suaria, Erick Fredj, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani Stefano Aliani Giuseppe Suaria, Tomaso Fortibuoni, Giuseppe Suaria, Stefano Aliani Stefano Aliani Stefano Aliani Erick Fredj, Stefano Aliani Tomaso Fortibuoni, Tomaso Fortibuoni, Stefano Aliani Stefano Aliani Stefano Aliani Stefano Aliani Stefano Aliani Valentina Melli, Stefano Aliani Annalisa Griffa, Giuseppe Suaria, Stefano Aliani Annalisa Griffa, Aniello Russo, Giuseppe Suaria, Stefano Aliani Giuseppe Suaria, Stefano Aliani Stefano Aliani Stefano Aliani Stefano Aliani Tomaso Fortibuoni, Tomaso Fortibuoni, Valentina Melli, Stefano Aliani Stefano Aliani Stefano Aliani Stefano Aliani Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani Stefano Aliani Stefano Aliani Stefano Aliani Stefano Aliani Annalisa Griffa, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani Stefano Aliani Tomaso Fortibuoni, Annalisa Griffa, Giuseppe Suaria, Annalisa Griffa, Giuseppe Suaria, Stefano Aliani

Summary

Researchers combined visual ship transect observations of floating litter with a regional ocean model and particle tracking techniques to identify litter sources and predict transport pathways, providing actionable information for management and mitigation policies in a target marine basin.

Study Type Environmental

Visual ship transect surveys provide crucial information about the density, and spatial distribution of floating anthropogenic litter in a basin. However, such observations provide a 'snapshot' of local conditions at a given time and cannot be used to deduce the provenance of the litter or to predict its fate, crucial information for management and mitigation policies. Particle tracking techniques have seen extensive use in these roles, however, most previous studies have used simplistic initial conditions based on bulk average inputs of debris to the system. Here, observations of floating anthropogenic macro debris in the Adriatic Sea are used to define initial conditions (number of particles, location, and time) in a Lagrangian particle tracking model. Particles are advected backward and forward in time for 60 days (120 days total) using surface velocities from an operational regional ocean model. Sources and sinks for debris observed in the central and southern Adriatic in May 2013 and March 2015 included the Italian coastline from Pescara to Brindisi, the Croatian island of Mljet, and the coastline from Dubrovnik through Montenegro to Albania. Debris observed in the northern Adriatic originated from the Istrian peninsula to the Italian city of Termoli, as well as the Croatian island of Cres and the Kornati archipelago. Particles spent a total of roughly 47 days afloat. Coastal currents, notably the eastern and western Adriatic currents, resulted in large alongshore displacements. Our results indicate that anthropogenic macro debris originates largely from coastal sources near population centers and is advected by the cyclonic surface circulation until it strands on the southwest (Italian) coast, exits the Adriatic, or recirculates in the southern gyre.

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