Plastic debris in the open ocean
Andrés Cózar,Fidel Echevarría,J. Ignacio González-Gordillo,Xabier Irigoien,Bárbara Úbeda,Santiago Hernández-León,Alvaro T. Palma,Sandra Navarro,Juan García-de-Lomas,Andrea Ruiz,María L. Fernández-de-Puelles,Carlos M. Duarte +11 more
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TLDR
Using data from the Malaspina 2010 circumnavigation, regional surveys, and previously published reports, this work shows a worldwide distribution of plastic on the surface of the open ocean, mostly accumulating in the convergence zones of each of the five subtropical gyres with comparable density.Abstract:
There is a rising concern regarding the accumulation of floating plastic debris in the open ocean. However, the magnitude and the fate of this pollution are still open questions. Using data from the Malaspina 2010 circumnavigation, regional surveys, and previously published reports, we show a worldwide distribution of plastic on the surface of the open ocean, mostly accumulating in the convergence zones of each of the five subtropical gyres with comparable density. However, the global load of plastic on the open ocean surface was estimated to be on the order of tens of thousands of tons, far less than expected. Our observations of the size distribution of floating plastic debris point at important size-selective sinks removing millimeter-sized fragments of floating plastic on a large scale. This sink may involve a combination of fast nano-fragmentation of the microplastic into particles of microns or smaller, their transference to the ocean interior by food webs and ballasting processes, and processes yet to be discovered. Resolving the fate of the missing plastic debris is of fundamental importance to determine the nature and significance of the impacts of plastic pollution in the ocean.read more
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New Link in the Food Chain? Marine Plastic Pollution and Seafood Safety
TL;DR: This topic has attracted interest and funding from the U.S. Environmental Protection Agency, the National Oceanic and Atmospheric Administration (NOAA), and the National Academy of Sciences (NAS), as well as researchers, nonprofit groups, and institutions around the world.
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Rapid aggregation of biofilm-covered microplastics with marine biogenic particles.
TL;DR: It is assumed that the demonstrated aggregation behaviour facilitates the export of microplastics from the surface layer of the oceans and plays an important role in the redistribution ofmicroplastics in the oceans.
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Detection of Anthropogenic Particles in Fish Stomachs: An Isolation Method Adapted to Identification by Raman Spectroscopy
TL;DR: An extraction method based on hypochlorite digestion and isolation of MP from the membrane by sonication is presented, allowing better identification of anthropogenic particles (AP) from stomach contents of fish by Raman spectroscopy.
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Seabirds, gyres and global trends in plastic pollution.
TL;DR: Long-term data reveal high plastic abundance in the southern North Sea, gradually decreasing to the north at increasing distance from population centres, with lowest levels in high-arctic waters.
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Comparison of Raman and Fourier Transform Infrared Spectroscopy for the Quantification of Microplastics in the Aquatic Environment
TL;DR: The need for further research is demonstrated to enable time-efficient routine application of ASPEx-μ-Raman for reliable MP counting down to 1 μm by analyzing MPs extracted from North Sea surface waters by comparing Raman and Fourier transform infrared spectroscopy.
References
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Microplastics in the marine environment
TL;DR: The mechanisms of generation and potential impacts of microplastics in the ocean environment are discussed, and the increasing levels of plastic pollution of the oceans are understood, it is important to better understand the impact of microPlastic in the Ocean food web.
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Lost at sea: where is all the plastic?
Richard C. Thompson,Ylva S. Olsen,Richard P. Mitchell,Anthony Davis,Steven J. Rowland,Anthony W. G. John,Daniel F. McGonigle,Andrea E. Russell +7 more
TL;DR: It is shown that microscopic plastic fragments and fibers are also widespread in the marine environment and may persist for centuries.
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Accumulation and fragmentation of plastic debris in global environments.
TL;DR: Global plastics production and the accumulation of plastic waste are documented, showing that trends in mega- and macro-plastic accumulation rates are no longer uniformly increasing and that the average size of plastic particles in the environment seems to be decreasing.
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Microplastics in the Marine Environment: A Review of the Methods Used for Identification and Quantification
TL;DR: This review of 68 studies compares the methodologies used for the identification and quantification of microplastics from the marine environment and suggests standardized sampling procedures which allow the spatiotemporal comparison ofmicroplastic abundance across marine environments.
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Transport and release of chemicals from plastics to the environment and to wildlife
Emma L. Teuten,Jovita M. Saquing,Detlef R.U. Knappe,Morton A. Barlaz,Susanne Jonsson,Annika Björn,Steven J. Rowland,Richard C. Thompson,Tamara S. Galloway,Rei Yamashita,Daisuke Ochi,Yutaka Watanuki,Charles J. Moore,Pham Hung Viet,Touch Seang Tana,Maricar S. Prudente,Ruchaya Boonyatumanond,Mohamad Pauzi Zakaria,Kongsap Akkhavong,Yuko Ogata,Hisashi Hirai,Satoru Iwasa,Kaoruko Mizukawa,Yuki Hagino,Ayako Imamura,Mahua Saha,Hideshige Takada +26 more
TL;DR: Model calculations and experimental observations consistently show that polyethylene accumulates more organic contaminants than other plastics such as polypropylene and polyvinyl chloride, and PCBs could transfer from contaminated plastics to streaked shearwater chicks.