Large scale convergence regions of floating marine litter are commonly observed in semi-enclosed seas as the Bay of Biscay. However, clean-up activities on such accumulation regions are limited by the spread of the large-size floating litter on the sea surface. Data gathered by a small-scale fishing vessel devoted to active fishing for floating litter activities during the spring and summer of 2018 reveals that the linear streaks of high concentration of floating litter (so-called litter "windrows") are common accumulation structures in the south-east coast of the Bay of Biscay. The random search of litter windrows for their collection through surface tows of macro-nets was proved to be an effective action for floating litter mitigation. A total of 196 tows collected 16.2 tons of floating marine litter in 68 working days. Most of the litter windrows were around 1 km length and, on average, accumulated 77.75 kg of floating marine litter. Fishing, shipping and aquaculture sectors were the source of 35% of the 4,130 litter items analyzed (55% in weight of the sourced items), and plastic was the most common type of material (96% in terms of items). A better understanding of the phenomenon of the litter windrows, capable to guide clean-up efforts in space and time, would provide a considerable improvement in the efficiency of mitigation actions to reduce the marine litter pollution. The observations of litter windrows in the coastal area of the south-east of the Bay of Biscay demonstrate the key role of submesoscale processes in the distribution of FML. The present work provides a thorough description of floating litter windrows in nature, which it was non-existent to date. The results are the kind of proof necessary to boost the research addressed on the submesoscale aggregations of FML. Coupling litter windrows observations with remote-sensing technology and high-resolution modeling techniques offer great opportunities for the mitigation actions against marine litter.
Abstract. Although rivers contribute to the flux of litter to the marine environment,
estimates of riverine litter amounts and detailed studies on floating
riverine litter behaviour once it has reached the sea are still scarce. This
paper provides an analysis of the seasonal behaviour of floating marine
litter released by rivers within the south-eastern Bay of Biscay based on
riverine litter characterizations, drifters, and high-frequency radar observations and Lagrangian simulations. Virtual particles were released in
the coastal area as a proxy of the floating fraction of riverine litter
entering from rivers and reaching the open waters. Particles were
parameterized with a wind drag coefficient (Cd) to represent their
trajectories and fate according to the buoyancy of the litter items. They
were forced with numerical winds and measured currents provided by
high-frequency radars covering selected seasonal week-long periods between
2009 and 2021. To gain a better insight into the type and buoyancy of the
items, samples collected from a barrier placed at the Deba River (Spain) were
characterized at the laboratory. Items were grouped into two categories: low-buoyancy items (objects not exposed to wind forcing, e.g. plastic bags) and
highly buoyant items (objects highly exposed to wind forcing, e.g. bottles). Overall, low-buoyancy items encompassed almost 90 % by number and
68 % by weight. Weakly buoyant items were parameterized with Cd = 0 % and
highly buoyant items with Cd = 4 %; this latter value is the result of the
joint analysis of modelled and observed trajectories of four satellite
drifting buoys released at the Adour (France), Deba (Spain), and Oria (Spain)
river mouths. Particles parameterized with Cd = 4 % drifted faster towards
the coast through the wind, notably during the first 24 h. In summer, over 97 % of particles beached after 1 week of simulation. In autumn this
value fell to 54 %. In contrast, low-buoyancy items took longer to arrive at the shoreline, particularly during spring with fewer than 25 % of
particles beached by the end of the simulations. The highest concentrations
(>200 particles km−1) were recorded during summer for Cd = 4 %
in the French region of Pyrénées-Atlantiques. Results showed that
the regions in the study area were highly affected by rivers within or
nearby the region itself. These results couple observations and a
river-by-river modelling approach and can assist decision-makers on setting
emergency responses to high fluxes of floating riverine litter and on
defining future monitoring strategies for heavily polluted regions within the
south-eastern Bay of Biscay.
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