Synthetic Polymer Contamination in Bottled Water
TLDR
The results of this study support the need for further studies on the impacts of micro- and nano- plastics on human health, and suggest the contamination is at least partially coming from the packaging and/or the bottling process itself.Abstract:
Eleven globally sourced brands of bottled water, purchased in 19 locations in 9 different countries, were tested for microplastic contamination using Nile Red tagging Of the 259 total bottles processed, 93% showed some sign of microplastic contamination After accounting for possible background (lab) contamination, an average of 104 microplastic particles >100 um in size per liter of bottled water processed were found Fragments were the most common morphology (66%) followed by fibers Half of these particles were confirmed to be polymeric in nature using FTIR spectroscopy with polypropylene being the most common polymer type (54%), which matches a common plastic used for the manufacture of bottle caps A small fraction of particles (4%) showed the presence of industrial lubricants While spectroscopic analysis of particles smaller than 100 um was not possible, the adsorption of the Nile Red dye indicates that these particles are most probably plastic Including these smaller particles (65–100 um), an average of 325 microplastic particles per liter of bottled water was found Microplastic contamination range of 0 to over 10,000 microplastic particles per liter with 95% of particles being between 65–100 um in size Data suggests the contamination is at least partially coming from the packaging and/or the bottling process itself Given the prevalence of the consumption of bottled water across the globe, the results of this study support the need for further studies on the impacts of micro- and nano- plastics on human healthread more
Citations
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Journal ArticleDOI
Microplastics in freshwaters and drinking water: Critical review and assessment of data quality.
TL;DR: More high quality data is needed on the occurrence of microplastics in drinking water, to better understand potential exposure and to inform human health risk assessments, and there is a significant need to improve quality assurance ofmicroplastic sampling and analysis in water samples.
Journal ArticleDOI
Human Consumption of Microplastics
Kieran Cox,Garth A. Covernton,Hailey L. Davies,John F. Dower,Francis Juanes,Sarah E. Dudas,Sarah E. Dudas +6 more
TL;DR: Focusing on the American diet, the number of microplastic particles in commonly consumed foods in relation to their recommended daily intake is evaluated and it is estimated that annual microplastics consumption ranges from 39000 to 52000 particles depending on age and sex.
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Detection of Various Microplastics in Human Stool: A Prospective Case Series.
Philipp Schwabl,Sebastian Köppel,Philipp Königshofer,Theresa Bucsics,Michael Trauner,Thomas Reiberger,Bettina Liebmann +6 more
TL;DR: In this paper microplastics, defined as plastic particles smaller than 5 mm, are ubiquitous in natural environments and they are increasingly polluting aqueous, terrestrial, and airborne environments.
Journal ArticleDOI
Emergence of Nanoplastic in the Environment and Possible Impact on Human Health
TL;DR: The influence of particle size and surface chemistry are discussed, in order to understand the possible risks of nanoplastics for humans and provide recommendations for future studies.
Journal ArticleDOI
Plastic Teabags Release Billions of Microparticles and Nanoparticles into Tea.
Laura M. Hernandez,Elvis Genbo Xu,Hans C. E. Larsson,Rui Tahara,Vimal B. Maisuria,Nathalie Tufenkji +5 more
TL;DR: It is shown that steeping a single plastic teabag at brewing temperature (95 °C) releases approximately 11.6 billion microplastics and 3.1 billion nanoplastics into a single cup of the beverage.
References
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Marcus Eriksen,Laurent Lebreton,Henry S. Carson,Martin Thiel,Charles J. Moore,Jose C. Borerro,François Galgani,Peter G. Ryan,Julia Reisser +8 more
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Microplastic pollution in the surface waters of the Laurentian Great Lakes
Marcus Eriksen,Sherri A. Mason,Stiv Wilson,Carolyn Box,A.F. Zellers,William J. Edwards,Hannah Farley,Stephen Amato +7 more
TL;DR: The presence of microplastics and coal ash in these surface samples, which were most abundant where lake currents converge, are likely from nearby urban effluent and coal burning power plants.