Ups
and Downs in the Ocean: Effects of Biofouling
on Vertical Transport of Microplastics

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Abstract

Recent studies suggest size-selective removal of small plastic particles from the ocean surface, an observation that remains unexplained. We studied one of the hypotheses regarding this size-selective removal: the formation of a biofilm on the microplastics (biofouling). We developed the first theoretical model that is capable of simulating the effect of biofouling on the fate of microplastic. The model is based on settling, biofilm growth, and ocean depth profiles for light, water density, temperature, salinity, and viscosity. Using realistic parameters, the model simulates the vertical transport of small microplastic particles over time, and predicts that the particles either float, sink to the ocean floor, or oscillate vertically, depending on the size and density of the particle. The predicted size-dependent vertical movement of microplastic particles results in a maximum concentration at intermediate depths. Consequently, relatively low abundances of small particles are predicted at the ocean surface, while at the same time these small particles may never reach the ocean floor. Our results hint at the fate of “lost” plastic in the ocean, and provide a start for predicting risks of exposure to microplastics for potentially vulnerable species living at these depths.

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Most cited references 42

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Edwin M Foekema, R J Veldhuisen, Anna Wegner … (2013)

It has been speculated that marine microplastics may cause negative effects on benthic marine organisms and increase bioaccumulation of persistent organic pollutants (POPs). Here, we provide the first controlled study of plastic effects on benthic organisms including transfer of POPs. The effects of polystyrene (PS) microplastic on survival, activity, and bodyweight, as well as the transfer of 19 polychlorinated biphenyls (PCBs), were assessed in bioassays with Arenicola marina (L.). PS was pre-equilibrated in natively contaminated sediment. A positive relation was observed between microplastic concentration in the sediment and both uptake of plastic particles and weight loss by A. marina. Furthermore, a reduction in feeding activity was observed at a PS dose of 7.4% dry weight. A low PS dose of 0.074% increased bioaccumulation of PCBs by a factor of 1.1-3.6, an effect that was significant for ΣPCBs and several individual congeners. At higher doses, bioaccumulation decreased compared to the low dose, which however, was only significant for PCB105. PS had statistically significant effects on the organisms' fitness and bioaccumulation, but the magnitude of the effects was not high. This may be different for sites with different plastic concentrations, or plastics with a higher affinity for POPs.

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Plastic in north sea fish.

Edwin M Foekema, Corine De Gruijter, Mekuria T Mergia … (2013)

To quantify the occurrence of ingested plastic in fish species caught at different geographical positions in the North Sea, and to test whether the fish condition is affected by ingestion of plastics, 1203 individual fish of seven common North Sea species were investigated: herring, gray gurnard, whiting, horse mackerel, haddock, atlantic mackerel, and cod. Plastic particles were found in 2.6% of the examined fish and in five of the seven species. No plastics were found in gray gurnard and mackerel. In most cases, only one particle was found per fish, ranging in size from 0.04 to 4.8 mm. Only particles larger than 0.2 mm, being the diameter of the sieve used, were considered for the data analyses, resulting in a median particle size of 0.8 mm. The frequency of fish with plastic was significantly higher (5.4%) in the southern North Sea, than in the northern North Sea above 55°N (1.2%). The highest frequency (>33%) was found in cod from the English Channel. In addition, small fibers were initially detected in most of the samples, but their abundance sharply decreased when working under special clean air conditions. Therefore, these fibers were considered to be artifacts related to air born contamination and were excluded from the analyses. No relationship was found between the condition factor (size-weight relationship) of the fish and the presence of ingested plastic particles.

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Phytoplankton growth, microzooplankton grazing, and carbon cycling in marine systems

Albert Calbet, Michael Landry (2004)

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Author and article information

Journal

Journal ID (nlm-ta): Environ Sci Technol

Journal ID (iso-abbrev): Environ. Sci. Technol

Journal ID (publisher-id): es

Journal ID (coden): esthag

Title: Environmental Science & Technology

Publisher: American Chemical Society

ISSN (Print): 0013-936X

ISSN (Electronic): 1520-5851

Publication date (Electronic): 14 June 2017

Publication date (Print): 18 July 2017

Volume: 51

Issue: 14

Pages: 7963-7971

Affiliations

[† ]Aquatic Ecology and Water Quality Management Group, Department of Environmental Sciences, Wageningen University & Research , P.O. Box 47, 6700 AA Wageningen, The Netherlands

[‡ ]Wageningen Marine Research, P.O. Box 68, 1970 AB IJmuiden, The Netherlands

Author notes

[* ]E-mail: merel.kooi@ 123456wur.nl .

Article

DOI: 10.1021/acs.est.6b04702

PMC ID: 6150669

PubMed ID: 28613852

SO-VID: 54aeb680-8855-4884-adc3-e57233ff1fcb

License:

This is an open access article published under a Creative Commons Non-Commercial No Derivative Works (CC-BY-NC-ND) Attribution License, which permits copying and redistribution of the article, and creation of adaptations, all for non-commercial purposes.