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VERTICAL DISTRIBUTION AND TRANSPORT OF TEXTILE MICROFIBERS (MFS) IN THE MEDITERRANEAN WATER COLUMN

Authors:

Abstract

Microfibers (MFs) are ubiquitous in natural environments and are considered as an anthropogenic litter that has become a global concern. Approximately 2 million tons of MFs are released into the ocean every year and once in the marine environment, it can be hypothesized that their accumulation and transport are largely controlled by oceanographic processes. We collected water column samples for MFs separation and polymeric characterization at 38 stations located in the Central-Western Mediterranean Sea and Tyrrhenian Sea from the surface to the seafloor (down to 3465 m). The aim of our study was to investigate MFs distribution in different water masses and the transport through different Mediterranean basins. MFs were detected in all samples collected with a median concentration of 3.8 MFs/L (IQR: 3.1 MFs/L) and a median fiber length and diameter of 1023 µm (IQR: 1007 µm) and 15 µm (IQR: 3 µm) respectively. Polymeric analysis highlighted cellulosic-based fibers as the dominant polymer (85%) in the whole water column over synthetic fibers (5%) and processed cellulose (8%), while fibers of animal origin were detected occasionally. MF concentration was locally characterized by vertical variations according to water mass characteristics, and by changes in size, with surface and deep fibers being generally longer and larger than mid-water fibers. Mediterranean surface waters showed homogeneous MF content (range 3.0-4.9 MFs/L), while intermediate and deep waters were characterized by two opposite trends. Intermediate waters showed decreasing MFs concentration moving from the Eastern to the Western Mediterranean basin (9.6-1.6 MFs/L) while MF content increased in deep waters at the same stations (3.7-9.1 MFs/L). Along the Sardinia Channel, we estimated a negative MF flux of 6 X 10 13 MF/day entering the Tyrrhenian Sea at intermediate depths, and a positive flux of 12 X 10 13 MF/day in the deep-water mass. We also estimate a 10-fold flux of synthetic fibers leaving the Tyrrhenian Sea, compared with the daily inflow. Our findings suggest that: i) there is a predominant MFs input on surface waters by atmospheric deposition; ii) MFs vertical distribution is size-dependent; iii) MFs transport between Mediterranean basins is mediated by Levantine waters; iv) a potential export of MFs to deep waters occurs in the Tyrrhenian Sea.
BAMAR
Las Palmas de Gran Canaria (Spain), 6-8
th
July 2022
VERTICAL DISTRIBUTION AND TRANSPORT OF TEXTILE MICROFIBERS
(MFS) IN THE MEDITERRANEAN WATER COLUMN
Andrea Paluselli1, Giuseppe Suaria1, Marta Musso1, Deborah Bassotto1, Giulia
Vitale1, Stefano Aliani1
1, CNR-ISMAR (Institute of Marine SciencesNational Research Council), La Spezia
19032, Italy.
andrea.paluselli@sp.ismar.cnr.it, giuseppe.suaria.aliani@sp.ismar.cnr.it,
stefano.aliani@sp.ismar.cnr.it
Abstract:
Microfibers (MFs) are ubiquitous in natural environments and are considered as an anthropogenic
litter that has become a global concern. Approximately 2 million tons of MFs are released into the
ocean every year and once in the marine environment, it can be hypothesized that their accumulation
and transport are largely controlled by oceanographic processes. We collected water column samples
for MFs separation and polymeric characterization at 38 stations located in the Central-Western
Mediterranean Sea and Tyrrhenian Sea from the surface to the seafloor (down to 3465 m). The aim
of our study was to investigate MFs distribution in different water masses and the transport through
different Mediterranean basins. MFs were detected in all samples collected with a median
concentration of 3.8 MFs/L (IQR: 3.1 MFs/L) and a median fiber length and diameter of 1023 µm
(IQR: 1007 µm) and 15 µm (IQR: 3 µm) respectively. Polymeric analysis highlighted cellulosic-
based fibers as the dominant polymer (85%) in the whole water column over synthetic fibers (5%)
and processed cellulose (8%), while fibers of animal origin were detected occasionally. MF
concentration was locally characterized by vertical variations according to water mass
characteristics, and by changes in size, with surface and deep fibers being generally longer and larger
than mid-water fibers. Mediterranean surface waters showed homogeneous MF content (range 3.0-
4.9 MFs/L), while intermediate and deep waters were characterized by two opposite trends.
Intermediate waters showed decreasing MFs concentration moving from the Eastern to the Western
Mediterranean basin (9.6-1.6 MFs/L) while MF content increased in deep waters at the same stations
(3.7-9.1 MFs/L). Along the Sardinia Channel, we estimated a negative MF flux of 6 X 1013 MF/day
entering the Tyrrhenian Sea at intermediate depths, and a positive flux of 12 X 1013 MF/day in the
deep-water mass. We also estimate a 10-fold flux of synthetic fibers leaving the Tyrrhenian Sea,
compared with the daily inflow. Our findings suggest that: i) there is a predominant MFs input on
surface waters by atmospheric deposition; ii) MFs vertical distribution is size-dependent; iii) MFs
transport between Mediterranean basins is mediated by Levantine waters; iv) a potential export of
MFs to deep waters occurs in the Tyrrhenian Sea.
Key words: Microfibers, Cellulose fibers, Synthetic fibers, Mediterranean Sea, Water column
47
... As a matter of fact, textile microfibers have been already detected in the water column by multiple authors, with records coming from all over the world, including the Atlantic Ocean (Reineccius et al. 2020) and the Mediterranean Sea (Rios-Fuster et al. 2022) at various depths. In the water column, sinking fibers can be also advected by deep or intermediate currents (Paluselli et al. 2022), before being deposited over the seafloor which can be considered as their final sink (Woodall et al. 2014). As a matter of fact, substantial concentrations of microfibers have been detected in shallow and deep-sea sediments all over the world, from coastal regions to abyssal plains (e.g., Sanchez-Vidal et al. 2018;Adams et al. 2021). ...
Chapter
Textile microfibers are the most commonly reported type of anthropogenic particle found by microplastic pollution surveys around the globe, often representing 80–90% of all particle counts. Significant concentrations of this emerging pollutant have been detected in most marine ecosystems surveyed to date, including sea ice, deep sea sediments, surface and subsurface waters, and coastal environments. Recent studies revealed the presence of microfibers in the digestive systems of numerous marine organisms, including seabirds, deep-sea crustaceans, and commercial fish species, as well as in both wet and dry atmospheric deposition samples. Ingestion of microfibers has been linked to negative health effects in marine invertebrates, but there is currently no evidence of harm to wild creatures exposed to environmentally relevant fiber concentrations. At the same time, we still have a very limited understanding of how they affect wild populations. Additionally, a wide range of chemicals, such as dyes, additives, and flame retardants, are employed in the manufacture of both natural and synthetic textiles, raising questions regarding the function of fibers as vectors of dangerous substances in the marine environment. This chapter aims to provide state-of-the-art information on the sources, transport, degradation, uptake, toxicity, and persistence of synthetic and natural fibers in the marine environment. Special consideration is given to sampling and analytical methods as well as to future areas for potential research.
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