Risks, Release and Concentrations of Engineered Nanomaterial in the Environment
Abstract For frequently used engineered nanomaterials (ENMs) CeO2-, SiO2-, and Ag, past, current, and future use and environmental release are investigated. Considering an extended period (1950 to 2050), we assess ENMs released through commercial activity as well as found in natural and technical se...
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doaj-b1f07bba91bd4d43b9594630f8d497382020-12-08T04:29:19ZengNature Publishing GroupScientific Reports2045-23222018-01-018111810.1038/s41598-018-19275-4Risks, Release and Concentrations of Engineered Nanomaterial in the EnvironmentBernd Giese0Fred Klaessig1Barry Park2Ralf Kaegi3Michael Steinfeldt4Henning Wigger5Arnim von Gleich6Fadri Gottschalk7University of Bremen, Faculty of Production Engineering, Department of Technology Design and Technology Development, Badgasteiner StrPennsylvania Bio Nano SystemsGBP Consulting LtdEawag, Swiss Federal Institute of Aquatic Science and Technology, Überlandstrasse 133, 8600University of Bremen, Faculty of Production Engineering, Department of Technology Design and Technology Development, Badgasteiner StrUniversity of Bremen, Faculty of Production Engineering, Department of Technology Design and Technology Development, Badgasteiner StrUniversity of Bremen, Faculty of Production Engineering, Department of Technology Design and Technology Development, Badgasteiner StrETSS AG, Engineering, technical and scientific servicesAbstract For frequently used engineered nanomaterials (ENMs) CeO2-, SiO2-, and Ag, past, current, and future use and environmental release are investigated. Considering an extended period (1950 to 2050), we assess ENMs released through commercial activity as well as found in natural and technical settings. Temporal dynamics, including shifts in release due to ENM product application, stock (delayed use), and subsequent end-of-life product treatment were taken into account. We distinguish predicted concentrations originating in ENM use phase and those originating from end-of-life release. Furthermore, we compare Ag- and CeO2-ENM predictions with existing measurements. The correlations and limitations of the model, and the analytic validity of our approach are discussed in the context of massive use of assumptive model data and high uncertainty on the colloidal material captured by the measurements. Predictions for freshwater CeO2-ENMs range from 1 pg/l (2017) to a few hundred ng/l (2050). Relative to CeO2, the SiO2-ENMs estimates are approximately 1,000 times higher, and those for Ag-ENMs 10 times lower. For most environmental compartments, ENM pose relatively low risk; however, organisms residing near ENM ‘point sources’ (e.g., production plant outfalls and waste treatment plants), which are not considered in the present work, may be at increased risk.https://doi.org/10.1038/s41598-018-19275-4 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Bernd Giese Fred Klaessig Barry Park Ralf Kaegi Michael Steinfeldt Henning Wigger Arnim von Gleich Fadri Gottschalk |
spellingShingle |
Bernd Giese Fred Klaessig Barry Park Ralf Kaegi Michael Steinfeldt Henning Wigger Arnim von Gleich Fadri Gottschalk Risks, Release and Concentrations of Engineered Nanomaterial in the Environment Scientific Reports |
author_facet |
Bernd Giese Fred Klaessig Barry Park Ralf Kaegi Michael Steinfeldt Henning Wigger Arnim von Gleich Fadri Gottschalk |
author_sort |
Bernd Giese |
title |
Risks, Release and Concentrations of Engineered Nanomaterial in the Environment |
title_short |
Risks, Release and Concentrations of Engineered Nanomaterial in the Environment |
title_full |
Risks, Release and Concentrations of Engineered Nanomaterial in the Environment |
title_fullStr |
Risks, Release and Concentrations of Engineered Nanomaterial in the Environment |
title_full_unstemmed |
Risks, Release and Concentrations of Engineered Nanomaterial in the Environment |
title_sort |
risks, release and concentrations of engineered nanomaterial in the environment |
publisher |
Nature Publishing Group |
series |
Scientific Reports |
issn |
2045-2322 |
publishDate |
2018-01-01 |
description |
Abstract For frequently used engineered nanomaterials (ENMs) CeO2-, SiO2-, and Ag, past, current, and future use and environmental release are investigated. Considering an extended period (1950 to 2050), we assess ENMs released through commercial activity as well as found in natural and technical settings. Temporal dynamics, including shifts in release due to ENM product application, stock (delayed use), and subsequent end-of-life product treatment were taken into account. We distinguish predicted concentrations originating in ENM use phase and those originating from end-of-life release. Furthermore, we compare Ag- and CeO2-ENM predictions with existing measurements. The correlations and limitations of the model, and the analytic validity of our approach are discussed in the context of massive use of assumptive model data and high uncertainty on the colloidal material captured by the measurements. Predictions for freshwater CeO2-ENMs range from 1 pg/l (2017) to a few hundred ng/l (2050). Relative to CeO2, the SiO2-ENMs estimates are approximately 1,000 times higher, and those for Ag-ENMs 10 times lower. For most environmental compartments, ENM pose relatively low risk; however, organisms residing near ENM ‘point sources’ (e.g., production plant outfalls and waste treatment plants), which are not considered in the present work, may be at increased risk. |
url |
https://doi.org/10.1038/s41598-018-19275-4 |
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