William P. de Haan scite author profile

Pollution of the marine environment by large and microscopic plastic fragments and their potential impacts on organisms has stimulated considerable research interest and has received widespread publicity. However, relatively little attention has been paid to the fate and effects of microplastic particles that are fibrous in shape, also referred as microfibres, which are mostly shed from synthetic textiles during production or washing. Here we assess composition and abundance of microfibres in seafloor sediments in southern European seas, filling gaps in the limited understanding of the long-range transport and magnitude of this type of microplastic pollution. We report abundances of 10–70 microfibres in 50 ml of sediment, including both natural and regenerated cellulose, and synthetic plastic (polyester, acrylic, polyamide, polyethylene, and polypropylene) fibres. Following a shelf-slope-deep basin continuum approach, based on the relative abundance of fibres it would appear that coastal seas retain around 33% of the sea floor microfibres, but greater quantities of the fibres are exported to the open sea, where they accumulate in sediments. Submarine canyons act as preferential conduits for downslope transport of microfibres, with 29% of the seafloor microfibres compared to 18% found on the open slope. Around 20% of the microfibres found had accumulated in the deep open sea beyond 2000m of water depth. The remoteness of the deep sea does not prevent the accumulation of microfibres, being available to become integrated into deep sea organisms.

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Floating microplastics and aggregate formation in the Western Mediterranean Sea

Haan

Sánchez-Vidal

Canals

et al. 2019

Marine Pollution Bulletin

201

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Seagrasses provide a novel ecosystem service by trapping marine plastics

Sánchez-Vidal

Canals

Haan

et al. 2021

Sci Rep

122

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There is strong evidence that the seafloor constitutes a final sink for plastics from land sources. There is also evidence that part of the plastics lying on the shallow seafloor are washed up back to the shoreline. However, little is known on the natural trapping processes leading to such landwards return. Here we investigate microplastics and larger plastic debris within beached seagrass remains including balls (aegagropilae) made of natural aggregates of vegetal fibers intertwined by seawater motion. We found up to 1470 plastic items per kg of plant material, which were mainly composed of negatively buoyant polymer filaments and fibers. Our findings show that seagrass meadows promote plastic debris trapping and aggregation with natural lignocellulosic fibers, which are then ejected and escape the coastal ocean. Our results show how seagrasses, one of the key ecosystems on Earth in terms of provision of goods and services, also counteract marine plastic pollution. In view of our findings, the regression of seagrass meadows in some marine regions acquires a new dimension.

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Towards a marine strategy for the deep Mediterranean Sea: Analysis of current ecological status

et al. 2020

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Paddle surfing for science on microplastic pollution

Camins

Haan

Salvo³

et al. 2020

Science of The Total Environment

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William P. de Haan

The imprint of microfibres in southern European deep seas

Floating microplastics and aggregate formation in the Western Mediterranean Sea

Seagrasses provide a novel ecosystem service by trapping marine plastics

Towards a marine strategy for the deep Mediterranean Sea: Analysis of current ecological status

Paddle surfing for science on microplastic pollution

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