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4. Engineered Nanomaterials

Author

Vighi, M., Jemec Kokalj, A., Drobne, D., Novak, S., Kühnel, Dana, Vighi, M., Jemec Kokalj, A., Drobne, D., Novak, S., and Kühnel, Dana

Published
2024

5. The DaNa projects: public communication of (nano)material safety data - from conspiracy theories to study quality

Author

Kühnel, Dana, Krug, H.F., Steinbach, C., Nau, K., Kühnel, Dana, Krug, H.F., Steinbach, C., and Nau, K.

Abstract

In this perspective, the authors give their view on the developments and experiences on communicating on (nano)materials safety. We would like to share our experiences with the scientific community in order to make them useful for future communication activities. We present the longterm work of the science communication projects DaNa, DaNa2.0 and DaNa4.0, running from 2009-2023. Starting in the early 2000s with the beginnings of nanotechnology research, communication on the safety of nanomaterials with the public was still very new and faced the projects with many challenges. Today, science communication is indispensable for the dissemination of scientific findings and a fact-based approach like the DaNa "Knowledge Base Materials" creates a trustworthy dialogue with the public. This long-term project series has made a significant contribution to communication on the safety of nanomaterials, perhaps even the largest among publicly funded project series worldwide.

Published
2024

6. Human and environmental hazard of nanomaterials used in textiles

Author

Cornier, J., Pursche, F., Kühnel, Dana, Krug, H.F., Mattern, Andreas, Jemec Kokalj, A., Cornier, J., Pursche, F., Kühnel, Dana, Krug, H.F., Mattern, Andreas, and Jemec Kokalj, A.

Abstract

Functionalization of material systems is one of the key developments nowadays in the textile industry, where particles are frequently used to enhance the properties of fibers and to add new functionalities. This book focuses on innovative textile materials and is a perfect guide for professionals in the textile industry and scientists alike. An overview of particle technology is provided before addressing all topics relevant to particle-enhanced textiles, i.e. the properties and application of micro/nanoparticles in textiles, production techniques, safety, as well as regulatory and intellectual property aspects. The book covers the composition and applications of various types of textile fillers, finishings, and microfibers. gives an outlook on future trends and challenges in the research, development, and production of nano- and micro-enabled textiles. The authors of the book, who are leading experts in their fields, address many aspects relevant to the use of particle-enhanced textiles in industrial applications as well as in our daily life. A particular emphasis is put on practical examples of applications and products, safety and sustainability issues and the potential for further innovation. This book should bring inspiration for textile scientists in using particles for improving textiles and further expanding their possibilities of use. Covers the composition and applications of various types of textile fillers, finishings, and microfibers.Gives an outlook on future trends and challenges in the research, development, and production of nano- and micro-enabled textiles.

Published
2023

7. Knowledge Base Materials sustainable science communication on advanced materials

Author

Scholz, S.G., Howlett, R.J., Setchi, R., Nau, K., Espinoza, S., Krug, H.F., Marquardt, C., Mattern, Andreas, Möller, N., Steinbach, C., Kühnel, Dana, Scholz, S.G., Howlett, R.J., Setchi, R., Nau, K., Espinoza, S., Krug, H.F., Marquardt, C., Mattern, Andreas, Möller, N., Steinbach, C., and Kühnel, Dana

Abstract

Transparent and reliable communication of the safety of advanced and nanomaterials is an issue that has become increasingly important in recent times. The German initiative DaNa got involved in this topic at an early stage. It is running the Knowledge Base Materials, a web-based information platform on nanomaterials (www.nanoobjects.info) for more than 10 years, which is constantly being expanded. Recently, due to emerging developments in materials science, the focus has been expanded from nanomaterials to the variant-rich group of advanced materials, softening the restriction to particles below the 100 m size limit in one dimension to include larger particles with more complex composition. For the Knowledge Base Materials, this broader scope presents a challenge for science communication. In this paper, the authors describe the selection of materials, the workflow, and the quality control that was performed to provide reliable knowledge about the safety of advanced materials to humans and the environment.

Published
2023

8. Defining quality criteria for nanoplastic hazard evaluation: The case of polystyrene nanoplastics and aquatic invertebrate Daphnia spp.

Author

Jemec Kokalj, A., Heinlaan, M., Novak, S., Drobne, D., Kühnel, Dana, Jemec Kokalj, A., Heinlaan, M., Novak, S., Drobne, D., and Kühnel, Dana

Abstract

Polystyrene nanoparticles are the most investigated type of nanoplastics in environmental hazard studies. It remains unclear whether nanoplastic particles pose a hazard towards aquatic organisms. Thus, it was our aim to investigate whether the existing studies and data provided therein are reliable in terms of data completeness. We used the example of Daphnia spp. studies for the purpose of polystyrene nanoplastic (nanoPS) hazard evaluation. First, a set of quality criteria recently proposed for nanoplastic ecotoxicity studies was applied. These rather general criteria for all types of nanoplastics and different test organisms were then, in the second step, tailored and refined specifically for Daphnia spp. and nanoPS. Finally, a scoring system was established by setting mandatory (high importance) as well as desirable (medium importance) criteria and defining a threshold to pass the evaluation. Among the existing studies on nanoPS ecotoxicity for Daphnia spp. (n = 38), only 18% passed the evaluation for usability in hazard evaluation. The few studies that passed the evaluation did not allow for conclusions on the hazard potential of nanoPS because there was no consensus among the studies. The greatest challenge we identified is in data reporting, as only a few studies presented complete data for hazard evaluation.

Published
2023

9. Nano- and microplastics : a comprehensive review on their exposure routes, translocation, and fate in humans

Author

Ramsperger, Anja F.R.M., Bergamaschi, Enrico, Panizzolo, Marco, Fenoglio, Ivana, Barbero, Francesco, Peters, Ruud, Undas, Anna, Purker, Sebastian, Giese, Bernd, Lalyer, Carina R., Tamargo, Alba, Moreno-Arribas, M.V., Grossart, Hans Peter, Kühnel, Dana, Dietrich, Jana, Paulsen, Friedrich, Afanou, Anani K., Zienolddiny-Narui, Shan, Eriksen Hammer, Stine, Kringlen Ervik, Torunn, Graff, Pål, Brinchmann, Bendik C., Nordby, Karl Christian, Wallin, Håkan, Nassi, Matteo, Benetti, Federico, Zanella, Michela, Brehm, Julian, Kress, Holger, Löder, Martin G.J., Laforsch, Christian, Ramsperger, Anja F.R.M., Bergamaschi, Enrico, Panizzolo, Marco, Fenoglio, Ivana, Barbero, Francesco, Peters, Ruud, Undas, Anna, Purker, Sebastian, Giese, Bernd, Lalyer, Carina R., Tamargo, Alba, Moreno-Arribas, M.V., Grossart, Hans Peter, Kühnel, Dana, Dietrich, Jana, Paulsen, Friedrich, Afanou, Anani K., Zienolddiny-Narui, Shan, Eriksen Hammer, Stine, Kringlen Ervik, Torunn, Graff, Pål, Brinchmann, Bendik C., Nordby, Karl Christian, Wallin, Håkan, Nassi, Matteo, Benetti, Federico, Zanella, Michela, Brehm, Julian, Kress, Holger, Löder, Martin G.J., and Laforsch, Christian

Abstract

Contamination of the environment with nano-and microplastic particles (NMPs) and its putative adverse effects on organisms, ecosystems, and human health is gaining increasing scientific and public attention. Various studies show that NMPs occur abundantly within the environment, leading to a high likelihood of human exposure to NMPs. Here, different exposure scenarios can occur. The most notable exposure routes of NMPs into the human body are via the airways and gastrointestinal tract (GIT) through inhalation or ingestion, but also via the skin due to the use of personal care products (PCPs) containing NMPs. Once NMPs have entered the human body, it is possible that they are translocated from the exposed organ to other body compartments. In our review article, we combine the current knowledge on the (1) exposure routes of NMPs to humans with the basic understanding of the potential (2) translocation mechanisms into human tissues and, consequently, their (3) fate within the human body. Regarding the (1) exposure routes, we reviewed the current knowledge on the occurrence of NMPs in food, beverages, personal care products and the air (focusing on indoors and workplaces) and found that the studies suggest an abundant presence of MPs within the exposure scenarios. The overall abundance of MPs in exposure matrices relevant to humans highlights the importance of understanding whether NMPs have the potential for tissue translocation. Therefore, we describe the current knowledge on the potential (2) translocation pathways of NMPs from the skin, GIT and respiratory systems to other body compartments. Here, particular attention was paid to how likely NMPs can translocate from the primary exposed organs to secondary organs due to naturally occurring defence mechanisms against tissue translocation. Based on the current understanding, we conclude that a dermal translocation of NMPs is rather unlikely. In contrast, small MPs and NPs can generally translocate from the GIT and resp

Published
2023

12. CFC – Carbon Fibre Cycle Carbonfasern im Kreislauf – Freisetzungsverhalten und Toxizität bei thermischer und mechanischer Behandlung - Poster-Abstracts

Author

Baumann, Werner, Bäger, Daphne, Deußen, Oliver, Diabaté, Silvia, Ellermann, Niels, Emmerich, Rebecca, Friesen, Alexandra, Fritsch-Decker, Susanne, Gehrmann, Hans Joachim, Gries, Thomas, Große, Anne, Guth, Johannes, Hartwig, Andrea, Hauser, Manuela, Hofmann, Marcel, Hufnagel, Mathias, Kehren, Dominic, Krug, Harald F., Kühnel, Dana, Leis, Johannes, Mahl, Jonathan, Marquardt, Clarissa, Mattern, Andreas, Merz, Daniela, Möller, Nadja, Nau, Katja, Naumann, Romy, Plitzko, Sabine, Schlögel, Kai, Stapf, Dieter, Steinbach, Christoph, Weiss, Carsten, and Wexler, Manuela

Subjects
Chemistry & allied sciences, ddc:540
Published
2023

13. Contribution of additive-related effects to microplastics toxicity for aquatic organisms: a case study with model metal (ZnO) and organic additives (Lubio) and LDPE

Author

Kühnel, Dana, Jemec Kokalj, Anita, Zoons Alisha, Fiona, Perc, Valentina, Novak, Sara, Drobne, Damjana, Müller-Köhn, Axel, and Potthoff, Annegret

Subjects
additive related effects, antioxidants, LDPE, Daphnia magna, ZnO, additives, Tetrahymena thermophila
Abstract

Microplastic particles do not only contain the polymer itself, but an unknown quantity of unidentified chemicals. Intentionally added chemicals, so-called additives, may leach and subsequently cause toxic effects in environmental organisms. However, obtaining well-defined testing material is challenging, as for most commercial polymers the identity and amount of additives is undisclosed. We present here an approach to produce well-defined additive loaded microplastics particles applicable to subsequent ecotoxicity testing. We used ZnO, and commercially available LubioÒ products as model additives, both being relevant in industrial applications. These latter two are added to polymers as "antiaging systems" and their chemical identity is undisclosed. A common amount (5 wt%) of a nanoscale ZnO (NanoTek) or (3.5 wt%) LubioÒ was homogeneously distributed in LDPE (DOW 410E), polymer sheets were cryo-milled, yielding micron-scaled irregular shaped particles. Powders were sieved to obtain a comparable particle fraction of 140 µm-300 µm for all samples. In addition to 3 different microparticles (additive-free, ZnO loaded, and LubioÒ loaded), also the single additives were tested. We performed toxicity testing with two aquatic ecotoxicity models; freshwater crustacean Daphnia magna and protozoan Tetrahymena thermophila. Particles were dispersed in test medium with added Tween 40 (25µl/L) and sonicated in water bath. As expected, the ZnO nanoparticles were toxic to D. magna and only slightly toxic T. thermophila. LubioÒ additives did not exert high toxicity T. thermophila. In daphnids, a slight toxicity of the LubioÒ was observed. None of the microplastics samples (additive-free / additive-loaded) was acutely toxic to both organisms. This is an indication that the concentrations of individual additives as used here are too low to pose an acute risk to aquatic organisms. As well, our results show that the presented approach for preparing microplastic particles with defined additive content is promising to distinguish the effects posed by microplastics and additives. Also see: https://micro2022.sciencesconf.org/427061/document, In MICRO 2022, Online Atlas Edition: Plastic Pollution from MACRO to nano

Published
2022
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14. Quality of nanoplastics and microplastics ecotoxicity studies

Author

Jemec Kokalj, Anita, Hartmann, Nanna B., Drobne, Damjana, Potthoff, Annegret, and Kühnel, Dana

Subjects
GIUDEnano, NanoCRED, study quality criteria, GUIDEnano, udc:577, nanoplastika, plastics, DaNa, kriteriji za kvaliteto študij, mikroplastika, ekotoksičnost
Abstract

It is becoming increasingly important to develop assessment criteria for the quality of nanoplastics studies. This study is an attempt to establish such criteria based on those developed for engineered nanomaterials, the GUIDEnano and DaNa criteria being two representatives. These criteria were applied to studies on polystyrene nanoparticles (PS NPs), which currently represent the majority of studies on nanoplastics. We compiled a list of existing nanomaterial-related criteria that are not fully relevant to PS NPs and propose additional nanoplastic-specific criteria targeting polymer chemical composition, source, production and field collection, impurities/chemical additives, density, hydrophobicity, colour, and chemical leaching. For each criterion, scientific justification is provided. We conclude that the existing study quality assessments originally developed for nano(eco)toxicity studies can, through refinements, be applied to those dealing with nanoplastics studies, with a further outlook on microplastics. The final quality criteria catalogue presented here is intended as a starting point for further elaborations considering different purposes of an assessment.

Published
2022

15. How to Investigate Additive-Related Effects from Microplastics

Author

Potthoff, Annegret, Müller-Köhn, Axel, Jemec Kokalj, Anita, and Kühnel, Dana

Subjects
microplastics, sample preparation, additives, polymer particles, nanoplastics, ecotoxicology, toxicology
Abstract

When assessing potentially harmful ecotoxicological or toxicological effects of microplastics, researchers are in a quandary: - To suitthe requirements of interpretable experimental data, they aspire to havewell-characterised, small particles, ideally with a narrow particle size distribution and ideally doped with a well detectable element like Europium. The desired polymer particles should not contain any other substances. - To obtain results that represent real exposure scenarios, the characteristics of the test material are completely different: Microplastics found in the environment differ in size and shape - and they do not only contain the polymer itself, but an unknown quantity of unidentified chemicals. An approach that combinesbothwell-known characteristics and environmentally relevant properties should be developed. The sample preparation procedure should work not only for a variety of polymers and chemicals, but also for different organisms.

Published
2022
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16. Novel approaches to risk assessment and decision support

Author

Ballesteros Riaza, Arantxa, Drobne, Damjana, Giese, Bernd, Hipfinger, Christina, Jemec Kokalj, Anita, Laforsch, Christian, Löder, Martin GJ, Peijnenburg, Willie, Pozuelo Rollón, Blanca María, Purker, Sebastian, Ramsperger, Anja FRM, and Kühnel, Dana

Subjects
microplastics, decision support, IATA Integrated Approach to Testing and Assessment, risk assessment, environmental health, human health, nanoplastics
Abstract

Poster describing novel approaches to risk assessment and decision support - Establishment of a risk assessment strategy fornano and microplastic (NMP) - Prospective multi criteria decision support (PMCDS) - Decision support system (DSS)

Published
2022
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17. Prioritising nano- and microparticles: identification of physicochemical properties relevant for toxicity to Raphidocelis subcapitata and Daphnia magna

Author

Hund-Rinke, K., Broßell, D., Eilebrecht, S., Schlich, K., Schlinkert, R., Steska, Tim, Wolf, C., Kühnel, Dana, Hund-Rinke, K., Broßell, D., Eilebrecht, S., Schlich, K., Schlinkert, R., Steska, Tim, Wolf, C., and Kühnel, Dana

Abstract

Background Advanced/innovative materials are an undefined group of nano- and micro-particles encompassing diverse material compositions, structures and combinations. Due to their unique properties that enable specific functions during applications, there are concerns about unexpected hazards to humans and the environment. In this study, we provide ecotoxicity data for 36 nano- and microparticles of various inorganic species (single constituents and complex compositions; materials releasing toxic ions and others), morphologies (spheroidal, cubic, flaky, elongated/fibrous) and sizes (10 nm–38 µm). By applying Raphidocelis subcapitata algae growth inhibition and Daphnia magna immobilisation tests according to OECD test guidelines 201 and 202, and extensive material characterisation, we aimed to identify indicators of concern. This would allow better predictions of the hazardous properties of these materials in the future. Results The chemical identity (toxic ion-releasing materials vs. other materials) and agglomeration behaviour, which is affected by size (nm vs. µm) and morphology (fibres vs. others), were obvious drivers of ecotoxicity on R. subcapitata. Differences in morphology had an impact on agglomeration behaviour. Fibres formed agglomerates of varying sizes with entrapped and attached algae. Small compact (e.g. spheroidal) particles attached to algae. A high coverage resulted in high ecotoxicity, while less toxic materials attached to a much lesser extent. No agglomeration of algae and particles was observed for particles with a µm size. Small toxic components of large hybrid materials did not affect ecotoxicity. For D. magna, despite uptake of all materials studied into the gut, the sole indication of toxicity was the release of toxic ions. This is in line with previous observations on nanomaterials. Based on the identified criteria, charts were developed to indicate the expected toxicity of advanced/innovative materials toward algae and da

Published
2022

18. Nano- and microplastics: a comprehensive review on their exposure routes, translocation, and fate in humans

Author

Ramsperger, A.F.R.M., Bergamaschi, E., Panizzolo, M., Fenoglio, I., Barbero, F., Peters, R., Undas, A., Purker, S., Giese, B., Lalyer, C.R., Tamargo, A., Moreno-Arribas, M.V., Grossart, H.-P., Kühnel, Dana, Dietrich, J., Paulsen, F., Afanou, A.K., Zienolddiny-Narui, S., Eriksen Hammer, S., Kringlen Ervik, T., Graff, P., Brinchmann, B.C., Nordby, K.-C., Wallin, H., Nassi, M., Benetti, F., Zanella, M., Brehm, J., Kress, H., Löder, M.G.J., Laforsch, C., Ramsperger, A.F.R.M., Bergamaschi, E., Panizzolo, M., Fenoglio, I., Barbero, F., Peters, R., Undas, A., Purker, S., Giese, B., Lalyer, C.R., Tamargo, A., Moreno-Arribas, M.V., Grossart, H.-P., Kühnel, Dana, Dietrich, J., Paulsen, F., Afanou, A.K., Zienolddiny-Narui, S., Eriksen Hammer, S., Kringlen Ervik, T., Graff, P., Brinchmann, B.C., Nordby, K.-C., Wallin, H., Nassi, M., Benetti, F., Zanella, M., Brehm, J., Kress, H., Löder, M.G.J., and Laforsch, C.

Abstract

Contamination of the environment with nano-and microplastic particles (NMPs) and its putative adverse effects on organisms, ecosystems, and human health is gaining increasing scientific and public attention. Various studies show that NMPs occur abundantly within the environment, leading to a high likelihood of human exposure to NMPs. Here, different exposure scenarios can occur. The most notable exposure routes of NMPs into the human body are via the airways and gastrointestinal tract (GIT) through inhalation or ingestion, but also via the skin due to the use of personal care products (PCPs) containing NMPs. Once NMPs have entered the human body, it is possible that they are translocated from the exposed organ to other body compartments. In our review article, we combine the current knowledge on the (1) exposure routes of NMPs to humans with the basic understanding of the potential (2) translocation mechanisms into human tissues and, consequently, their (3) fate within the human body. Regarding the (1) exposure routes, we reviewed the current knowledge on the occurrence of NMPs in food, beverages, personal care products and the air (focusing on indoors and workplaces) and found that the studies suggest an abundant presence of MPs within the exposure scenarios. The overall abundance of MPs in exposure matrices relevant to humans highlights the importance of understanding whether NMPs have the potential for tissue translocation. Therefore, we describe the current knowledge on the potential (2) translocation pathways of NMPs from the skin, GIT and respiratory systems to other body compartments. Here, particular attention was paid to how likely NMPs can translocate from the primary exposed organs to secondary organs due to naturally occurring defence mechanisms against tissue translocation. Based on the current understanding, we conclude that a dermal translocation of NMPs is rather unlikely. In contrast, small MPs and NPs can generally translocate from the GIT and resp

Published
2022

19. Tyre wear nanoparticles as test for a nano risk governance framework

Author

van Broekhuizen, P., Säämänen, A., Schuurbiers, D., Isigonis, P., Jensen, K.A., Kühnel, Dana, Le Blansch, K., van Broekhuizen, P., Säämänen, A., Schuurbiers, D., Isigonis, P., Jensen, K.A., Kühnel, Dana, and Le Blansch, K.

Abstract

The Horizon 2020 consortia NanoRigo, Gov4Nano and RiskGONE jointly developed a nano risk governance framework (NRGF), fit for use for the practice of nanomaterials’ development and use, understandable and executable for stakeholders involved in manufacturing, using or regulating nanomaterials, or confronted with incidental exposure to generated nanomaterials. The NRGF includes risk management models, tools and approaches relevant to nanomaterials, as well as nano-oriented LCA and grouping, and takes into account socio-economic aspects and risk-benefit assessment. Special attention was paid to operationalizing concern assessment within the framework of the risk governance approach, emphasizing the different nature of quantitative risk assessment and qualitative concern assessment. The usefulness and added value of the NRGF was tested by means of a case study on rubber tyres. This case study performed a “mock-up” risk and concern assessment of the use of manufactured nanomaterials in the rubber tyre tread and the environmental release of tyre wear particles (TWP) from this tread during car driving. With a focus on the release and hazards of nano-TWP, an approach using the NRGF methodology was defined in collaboration with a group of real-life stakeholders. Simultaneously a group of scientific experts assessed the usefulness of the available tools and methods for assessing this nano-TWP release and investigated related broader societal concerns. The exercise concludes that so far, an exclusive risk assessment of nano-TWP is a step too far, due to the lack of nano-specific health- and environmental exposure and hazard data. Moreover, it seems that public concern about nano-sized TWP emissions is still limited, contrary to emerging scientific concerns. The case study underlines the complexity of deriving robust recommendations for “real-life” cases. Many questions remain on how to weigh the available technical and social evidence in nano risk governance.

Published
2022

20. (Re)Conceptualizing decision-making tools in a risk governance framework for emerging technologies—the case of nanomaterials

Author

Mullins, M., Himly, M., Rodríguez Llopis, I., Furxhi, I., Hofer, S., Hofstätter, N., Wick, P., Romeo, D., Kühnel, Dana, Siivola, K., Catalán, J., Hund-Rinke, K., Xiarchos, I., Linehan, S., Schuurbiers, D., García Bilbao, A., Barruetabeña, L., Drobne, D., Mullins, M., Himly, M., Rodríguez Llopis, I., Furxhi, I., Hofer, S., Hofstätter, N., Wick, P., Romeo, D., Kühnel, Dana, Siivola, K., Catalán, J., Hund-Rinke, K., Xiarchos, I., Linehan, S., Schuurbiers, D., García Bilbao, A., Barruetabeña, L., and Drobne, D.

Abstract

The utility of decision-making tools for the risk governance of nanotechnology is at the core of this paper. Those working in nanotechnology risk management have been prolific in creating such tools, many derived from European FP7 and H2020-funded projects. What is less clear is how such tools might assist the overarching ambition of creating a fair system of risk governance. In this paper, we reflect upon the role that tools might and should play in any system of risk governance. With many tools designed for the risk governance of this emerging technology falling into disuse, this paper provides an overview of extant tools and addresses their potential shortcomings. We also posit the need for a data readiness tool. With the EUs NMP13 family of research consortia about to report to the Commission on ways forward in terms of risk governance of this domain, this is a timely intervention on an important element of any risk governance system.

Published
2022

24. Comparing the effects of pristine and UV–VIS aged microplastics: Behavioural response of model terrestrial and freshwater crustaceans.

Author

Zidar, Primož, Kühnel, Dana, Škapin, Andrijana Sever, Skalar, Tina, Drobne, Damjana, Škrlep, Luka, Mušič, Branka, and Jemec Kokalj, Anita

Subjects
TEXTILE fibers, AUTOMOBILE tires, DAPHNIA magna, LOW density polyethylene, CLADOCERA, PLASTIC marine debris, POLYESTER fibers
Abstract

Physico-chemical properties of microplastics (MPs) change during weathering in the environment. There is a lack of knowledge about the effects of such environmentally relevant MPs on organisms. We investigated: 1) the physico-chemical changes of MPs due to UV–VIS weathering, and 2) compared the effect of pristine and aged MPs on the behaviour of the water flea Daphnia magna and terrestrial crustacean Porcellio scaber. Dry powders of MPs were produced from widely used polymer types: disposable three-layer polypropylene (PP) medical masks (inner, middle and outer), polyester textile fibres, car tires and low-density polyethylene (LDPE) bags and were subjected to accelerated ultraviolet–visible (UV–VIS) ageing. Our results show that the extent of transformation depends on the type of polymer, with PP showing the most changes, followed by LDPE, textile fibres and tire particles. Obvious fragmentation was observed in PP and textile fibres. In the case of PP, but not polyester textile fibres, changes in FTIR spectra and surface properties were observed. Tire particles and LDPE did not change in size, but clear changes were observed in their FTIR spectra. Most MPs, aged and pristine, did not affect the swimming of daphnids. The only effect observed was a significant increase in path length and swimming speed for the pristine tire particles when the recording was done with particles remaining in the wells. After transfer to a clean medium, this effect was no longer present, suggesting a physical rather than chemical effect. Similarly, woodlice showed no significant avoidance response to the MPs tested, although there was a noticeable trend to avoid soils contaminated with pristine polyester textile fibers and preference towards the soils contaminated with aged MP of the middle mask layer. Overall, the apparent changes in physico-chemical properties of MPs after accelerated ageing were not reflected in their effects on woodlice and daphnids. [Display omitted] • PP MPs undergo the most significant physico-chemical changes after UV–VIS aging. • PP, and polyester textile fibres fragment to smaller particles. • Significant chemical changes in FTIR spectra are found for PP, tire particles, and LDPE. • Most MPs, except for pristine tire particles, do not affect the swimming of daphnids. • Only pristine textile fibers and aged middle mask MPs change the behaviour of woodlice. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Daten zur Sicherheit von innovativen Materialien – DaNa4.0

Author

Nau, Katja, Marquardt, Clarissa, Kühnel, Dana, Mattern, Andreas, Espinoza, Sara, Krug, Harald, and Steinbach, Christoph

Subjects
Knowledge Base, innovative Materialien, DATA processing & computer science, DaNa4.0, ddc:004
Published
2021

26. Weathering Plastics as a Planetary Boundary Threat : Exposure, Fate, and Hazards

Author

Arp, Hans Peter H., Kühnel, Dana, Rummel, Christoph, MacLeod, Matthew, Potthoff, Annegret, Reichelt, Sophia, Rojo-Nieto, Elisa, Schmitt-Jansen, Mechthild, Sonnenberg, Johanna, Toorman, Erik, Jahnke, Annika, Arp, Hans Peter H., Kühnel, Dana, Rummel, Christoph, MacLeod, Matthew, Potthoff, Annegret, Reichelt, Sophia, Rojo-Nieto, Elisa, Schmitt-Jansen, Mechthild, Sonnenberg, Johanna, Toorman, Erik, and Jahnke, Annika

Abstract

We described in 2017 how weathering plastic litter in the marine environment fulfils two of three criteria to impose a planetary boundary threat related to chemical pollution and the release of novel entities: (1) planetary-scale exposure, which (2) is not readily reversible. Whether marine plastics meet the third criterion, (3) eliciting a disruptive impact on vital earth system processes, was uncertain. Since then, several important discoveries have been made to motivate a re-evaluation. A key issue is if weathering macroplastics, microplastics, nanoplastics, and their leachates have an inherently higher potential to elicit adverse effects than natural particles of the same size. We summarize novel findings related to weathering plastic in the context of the planetary boundary threat criteria that demonstrate (1) increasing exposure, (2) fate processes leading to poorly reversible pollution, and (3) (eco)toxicological hazards and their thresholds. We provide evidence that the third criterion could be fulfilled for weathering plastics in sensitive environments and therefore conclude that weathering plastics pose a planetary boundary threat. We suggest future research priorities to better understand (eco)toxicological hazards modulated by increasing exposure and continuous weathering processes, to better parametrize the planetary boundary threshold for plastic pollution.

Published
2021
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27. Weathering plastics as a planetary boundary threat: Exposure, fate, and hazards

Author

Arp, H.P.H., Kühnel, Dana, Rummel, Christoph, MacLeod, M., Potthoff, A., Reichelt, S., Rojo-Nieto, Elisa, Schmitt-Jansen, Mechthild, Sonnenberg, J., Toorman, E., Jahnke, Annika, Arp, H.P.H., Kühnel, Dana, Rummel, Christoph, MacLeod, M., Potthoff, A., Reichelt, S., Rojo-Nieto, Elisa, Schmitt-Jansen, Mechthild, Sonnenberg, J., Toorman, E., and Jahnke, Annika

Abstract

We described in 2017 how weathering plastic litter in the marine environment fulfils two of three criteria to impose a planetary boundary threat related to “chemical pollution and the release of novel entities”: (1) planetary-scale exposure, which (2) is not readily reversible. Whether marine plastics meet the third criterion, (3) eliciting a disruptive impact on vital earth system processes, was uncertain. Since then, several important discoveries have been made to motivate a re-evaluation. A key issue is if weathering macroplastics, microplastics, nanoplastics, and their leachates have an inherently higher potential to elicit adverse effects than natural particles of the same size. We summarize novel findings related to weathering plastic in the context of the planetary boundary threat criteria that demonstrate (1) increasing exposure, (2) fate processes leading to poorly reversible pollution, and (3) (eco)toxicological hazards and their thresholds. We provide evidence that the third criterion could be fulfilled for weathering plastics in sensitive environments and therefore conclude that weathering plastics pose a planetary boundary threat. We suggest future research priorities to better understand (eco)toxicological hazards modulated by increasing exposure and continuous weathering processes, to better parametrize the planetary boundary threshold for plastic pollution.

Published
2021

28. Quality of nanoplastics and microplastics ecotoxicity studies: Refining quality criteria for nanomaterial studies

Author

Jemec Kokalj, A., Hartmann, N.B., Drobne, D., Potthoff, A., Kühnel, Dana, Jemec Kokalj, A., Hartmann, N.B., Drobne, D., Potthoff, A., and Kühnel, Dana

Abstract

It is becoming increasingly important to develop assessment criteria for the quality of nanoplastics studies. This study is an attempt to establish such criteria based on those developed for engineered nanomaterials, the GUIDEnano and DaNa criteria being two representatives. These criteria were applied to studies on polystyrene nanoparticles (PS NPs), which currently represent the majority of studies on nanoplastics. We compiled a list of existing nanomaterial-related criteria that are not fully relevant to PS NPs and propose additional nanoplastic-specific criteria targeting polymer chemical composition, source, production and field collection, impurities/chemical additives, density, hydrophobicity, colour, and chemical leaching. For each criterion, scientific justification is provided. We conclude that the existing study quality assessments originally developed for nano(eco)toxicity studies can, through refinements, be applied to those dealing with nanoplastics studies, with a further outlook on microplastics. The final quality criteria catalogue presented here is intended as a starting point for further elaborations considering different purposes of an assessment.

Published
2021

29. Quality of nanoplastics and microplastics ecotoxicity studies: Refining quality criteria for nanomaterial studies

Author

Kokalj, Anita Jemec, Hartmann, Nanna B., Drobne, Damjana, Potthoff, Annegret, Kühnel, Dana, Kokalj, Anita Jemec, Hartmann, Nanna B., Drobne, Damjana, Potthoff, Annegret, and Kühnel, Dana

Abstract

It is becoming increasingly important to develop assessment criteria for the quality of nanoplastics studies. This study is an attempt to establish such criteria based on those developed for engineered nanomaterials, the GUIDEnano and DaNa criteria being two representatives. These criteria were applied to studies on polystyrene nanoparticles (PS NPs), which currently represent the majority of studies on nanoplastics. We compiled a list of existing nanomaterial-related criteria that are not fully relevant to PS NPs and propose additional nanoplastic-specific criteria targeting polymer chemical composition, source, production and field collection, impurities/chemical additives, density, hydrophobicity, colour, and chemical leaching. For each criterion, scientific justification is provided. We conclude that the existing study quality assessments originally developed for nano(eco)toxicity studies can, through refinements, be applied to those dealing with nanoplastics studies, with a further outlook on microplastics. The final quality criteria catalogue presented here is intended as a starting point for further elaborations considering different purposes of an assessment.

Published
2021

31. Pesticides in European rivers, lakes and groundwaters – Data assessment

Author

Mohaupt, V., Völker, J., Altenburger, Rolf, Birk, S., Kirst, I., Kühnel, Dana, Küster, Eberhard ; orcid:0000-0002-6062-2755, Semeradova, S., Šubelj, G., Mohaupt, V., Völker, J., Altenburger, Rolf, Birk, S., Kirst, I., Kühnel, Dana, Küster, Eberhard ; orcid:0000-0002-6062-2755, Semeradova, S., and Šubelj, G.

Abstract

In Europe, a stable and reliable food supply has become normal over recent decades. This has beenachieved in many cases by the use of pesticides to control pests, weeds, and diseases, plus fertilisers tosupply additional nutrients. Pesticides play an important role in the food production process, maintainingor enhancing crop yields and protecting quality in both conventional and organic arable farming. However,they can also lead to harmful effects in the environment, including aquatic ecosystems and risks to humanhealth. There is now widespread concern about the addition of a substance to the environment, designedto be toxic to part of the ecosystem.European policies aimed at reducing the potential risk from pesticides are supported by the Plants ProtectionProducts Regulation (EU, 2009), the Sustainable Use of Pesticides Directive (EU, 2009) and the BiocidalProducts Regulation (EU, 2012). The Water Framework Directive (WFD) (EU, 2000) and its daughter directiveshelp to protect water quality from pesticide pollution. There is, however, little evidence to show whetherthis legislation has been effective, mainly because of limited data on the actual risk from pesticides in surfacewaters and groundwater at the European level (EEA, 2018a). Addressing this gap is of high interest for policy,practitioners, and the public because of the risks pesticides present to both the environment and humanhealth. Most recently, the Green Deal and its associated strategies and actions include the Biodiversity andFarm to Fork Strategies, which aim to reduce by 50 % the use and risk of pesticides by 2030 (EC, 2019b; EC,2020a, 2020b).This technical report provides an overview of the available information on pesticides in surface waters andgroundwater in EEA countries. Its main output is a comprehensive summary of the data on pesticides insurface waters and groundwater reported through WISE-SoE reporting to EEA1, over the period 2007 to 2017.The EEA’s Waterbase – Water Quality database conta

Published
2020

32. Attachment efficiency of nanomaterials to algae as an important criterion for ecotoxicity and grouping

Author

Hund-Rinke, K., Sinram, T., Schlich, K., Nickel, C., Dickehut, Hanna, Schmidt, Matthias, Kühnel, Dana, Hund-Rinke, K., Sinram, T., Schlich, K., Nickel, C., Dickehut, Hanna, Schmidt, Matthias, and Kühnel, Dana

Abstract

Engineered nanomaterials (ENMs) based on CeO2 and TiO2 differ in their effects on the unicellular green alga Raphidocelis subcapitata but these effects do not reflect the physicochemical parameters that characterize such materials in water and other test media. To determine whether interactions with algae can predict the ecotoxicity of ENMs, we studied the attachment of model compounds (three subtypes of CeO2 and five subtypes of TiO2) to algal cells by light microscopy and electron microscopy. We correlated our observations with EC50 values determined in growth inhibition assays carried out according to the Organisation for Economic Co-operation and Development (OECD) test guideline 201. Light microscopy revealed distinct patterns of ENM attachment to algal cells according to the type of compound, with stronger interactions leading to greater toxicity. This was confirmed by electron microscopy, which allowed the quantitative assessment of particle attachment. Our results indicate that algal extracellular polymeric substances play an important role in the attachment of ENMs, influencing the formation of agglomerates. The attachment parameters in short-term tests predicted the toxicity of CeO2 and TiO2 ENMs and can be considered as a valuable tool for the identification of sets of similar nanoforms as requested by the European Chemicals Agency in the context of grouping and read-across.

Published
2020

34. The nanoGRAVUR framework to group (nano)materials for their occupational, consumer, environmental risks based on a harmonized set of material properties, applied to 34 case studies

Author

Wohlleben, W., Hellack, B., Nickel, C., Herrchen, M., Hund-Rinke, K., Kettler, K., Riebeling, C., Haase, A., Funk, B., Kühnel, Dana, Göhler, D., Stintz, M., Schumacher, C., Wiemann, M., Keller, J., Landsiedel, R., Broßell, D., Pitzko, S., Kuhlbusch, T.A.J., Wohlleben, W., Hellack, B., Nickel, C., Herrchen, M., Hund-Rinke, K., Kettler, K., Riebeling, C., Haase, A., Funk, B., Kühnel, Dana, Göhler, D., Stintz, M., Schumacher, C., Wiemann, M., Keller, J., Landsiedel, R., Broßell, D., Pitzko, S., and Kuhlbusch, T.A.J.

Abstract

The project nanoGRAVUR (BMBF, 2015–2018) developed a framework for grouping of nanomaterials. Different groups may result for each of the three distinct perspectives of occupational, consumer and environmental safety. The properties, methods and descriptors are harmonised between the three perspectives and are based on: Tier 1 intrinsic physico-chemical properties (what they are) or GHS classification of the non-nano-form (human tox, ecotox, physical hazards); Tier 2 extrinsic physico-chemical properties, release from nano-enabled products, in vitro assays with cells (where they go; what they do); Tier 3 case-specific tests, potentially in vivo studies to substantiate the similarity within groups or application-specific exposure testing. Amongst all properties, dissolution and transformation are least modulated by different nanoforms within one substance, whereas dustiness, dispersion stability, abiotic and especially in vitro surface reactivity vary more often between different nanoforms. The methods developed or selected by nanoGRAVUR fill several gaps highlighted in the ProSafe reviews, and are useful to implement (i) the concept of nanoforms of the European Chemicals Agency (ECHA) and (ii) the concept of discrete forms of the United States Environmental Protection Agency (EPA). One cannot assess the significance of a dissimilarity, if the dynamic range of that property is unknown. Benchmark materials span dynamic ranges that enable us to establish bands, often with order-of-magnitude ranges. In 34 case studies we observed high biological similarity within each substance when we compared different (nano)forms of SiO2, BaSO4, kaolin, CeO2, ZnO, organic pigments, especially when we compared forms that are all untreated on the surface. In contrast, different Fe2O3 or TiO2 (nano)forms differ more significantly. The same nanoforms were also integrated in nano-enabled products (NEPs) for automotive coatings, clinker-reduced cements, cosmetic sunscreen, and lightweight

Published
2019

35. Environmental risk or benefit? Comprehensive risk assessment of groundwater treated with nano Fe0-based Carbo-Iron®

Author

Weil, M., Mackenzie, Katrin, Foit, Kaarina, Kühnel, Dana, Busch, Wibke, Bundschuh, M., Schulz, R., Duis, K., Weil, M., Mackenzie, Katrin, Foit, Kaarina, Kühnel, Dana, Busch, Wibke, Bundschuh, M., Schulz, R., and Duis, K.

Abstract

Groundwater is essential for the provision of drinking water in many areas around the world. The performance of the groundwater-bearing aquifer relies on the ecosystem services provided by groundwater-related organisms. Therefore, if remediation of contaminated groundwater is necessary, the remediation method has to be carefully selected to avoid risk-risk trade-offs that might impact these ecosystems. In the present study, the environmental risk of the in situ remediation agent Carbo-Iron was performed. Carbo-Iron® is a composite of zero valent nano-iron and active carbon. Existing ecotoxicity data were complemented by studies with Daphnia magna (Crustacea), Scenedesmus vacuolatus (Algae), Chironomus riparius (Insecta) and nitrifying soil microorganisms. The predicted no effect concentration of 0.1 mg/L was derived from acute and chronic ecotoxicity studies. It was compared to measured and modelled environmental concentrations of Carbo-Iron applied in a groundwater contaminated with chlorohydrocarbons in a field study and risk ratios were derived. A comprehensive assessment approach was developed further based on existing strategies and used to identify changes of the environmental risk due to the remediation of the contaminated site with Carbo-Iron. With the data used in the present study, the total environmental risk decreased by approximately 50% in the heavily contaminated zones after the application of Carbo-Iron. Thus, based on the results of the present study, the benefit of remediation with Carbo-Iron seems to outweigh its negative effects on the environment.

Published
2019

36. Closing gaps for environmental risk screening of engineered nanomaterials

Author

Kühnel, Dana, Nickel, C., Hellack, B., van der Zalm, E., Kussatz, C., Herrchen, M., Meisterjahn, B., Hund-Rinke, K., Kühnel, Dana, Nickel, C., Hellack, B., van der Zalm, E., Kussatz, C., Herrchen, M., Meisterjahn, B., and Hund-Rinke, K.

Abstract

Engineered nanomaterials (ENM) have a widespread presence in human life and are components of many products and applications. This warrants an easy and fast evaluation of potential environmental risks. However, so far this is hampered by the multitude of different nanomaterials on the markets in addition to the many variations in form, size and surface modifications. Testing of each variation of ENM is not manageable, and hence the development and application of fast risk screening tools for ENMs is discussed.Here, we present the development of a scoring scheme with regard to ENM environmental risks under consideration of the two compartments water and soil. It allows for the ranking of ENM according to their environmental fate and hazard by taking into account criteria that are meaningful and relevant for ENM. The selection of the criteria is based on conceptual considerations, existing knowledge, and experimental work including transport and transformation studies as well as aquatic and terrestrial toxicity tests.The allocation of the ENM to the scores informs on the potential for transport and transformation and the hazard potential. Fate and hazard scores are subsequently combined into one risk score (1–10 for aquatic compartment, 1–7 for terrestrial compartment). The risk score has the intention to indicate which ENM may need prioritization for further action, i.e. with regard to the degree of detail for further testing or modelling.The applicability and consistency of the scoring schemes were assessed by taking different chemical species (e.g. of Ag, TiO2, SiO2, Cu, Fe) of ENM in various modifications (e.g. different shapes and coatings) into account. In conclusion, the established scoring schemes were found to be applicable to rank ENM according to their environmental fate and hazard potential, and thus to their environmental risk potential.

Published
2019

37. Tungsten carbide cobalt nanoparticles exert hypoxia-like effects on the gene expression level in human keratinocytes

Author

Scholz Stefan, Schirmer Kristin, Kühnel Dana, and Busch Wibke

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Tungsten carbide (WC) and tungsten carbide cobalt (WC-Co) nanoparticles are of occupational health relevance because of the increasing usage in hard metal industries. Earlier studies showed an enhanced toxic potential for WC-Co compared to WC or cobalt ions alone. Therefore, we investigated the impact of these particles, compared to cobalt ions applied as CoCl2, on the global gene expression level in human keratinocytes (HaCaT) in vitro. Results WC nanoparticles exerted very little effects on the transcriptomic level after 3 hours and 3 days of exposure. In contrast, WC-Co nanoparticles caused significant transcriptional changes that were similar to those provoked by CoCl2. However, CoCl2 exerted even more pronounced changes in the transcription patterns. Gene set enrichment analyses revealed that the differentially expressed genes were related to hypoxia response, carbohydrate metabolism, endocrine pathways, and targets of several transcription factors. The role of the transcription factor HIF1 (hypoxia inducible factor 1) is particularly highlighted and aspects of downstream events as well as the role of other transcription factors related to cobalt toxicity are considered. Conclusions This study provides extensive data useful for the understanding of nanoparticle and cobalt toxicity. It shows that WC nanoparticles caused low transcriptional responses while WC-Co nanoparticles are able to exert responses similar to that of free cobalt ions, particularly the induction of hypoxia-like effects via interactions with HIF1α in human keratinocytes. However, the enhanced toxicity of WC-Co particles compared to CoCl2 could not be explained by differences in gene transcription.

Published
2010
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39. The DaNa2.0 Knowledge Base Nanomaterials—An important measure accompanying nanomaterials development

Author

Krug, H.F., Bohmer, N., Kühnel, Dana, Marquardt, C., Nau, K., Steinbach, C., Krug, H.F., Bohmer, N., Kühnel, Dana, Marquardt, C., Nau, K., and Steinbach, C.

Abstract

Nanotechnology is closely related to the tailored manufacturing of nanomaterials for a huge variety of applications. However, such applications with newly developed materials are also a reason for concern. The DaNa2.0 project provides information and support for these issues on the web in condensed and easy-to-understand wording. Thus, a key challenge in the field of advanced materials safety research is access to correct and reliable studies and validated results. For nanomaterials, there is currently a continuously increasing amount of publications on toxicological issues, but criteria to evaluate the quality of these studies are necessary to use them e.g., for regulatory purposes. DaNa2.0 discusses scientific results regarding 26 nanomaterials based on actual literature that has been selected after careful evaluation following a literature criteria checklist. This checklist is publicly available, along with a selection of standardized operating protocols (SOPs) established by different projects. The spectrum of information is rounded off by further articles concerning basics or crosscutting topics in nanosafety research. This article is intended to give an overview on DaNa2.0 activities to support reliable toxicity testing and science communication alike.

Published
2018

40. Environmental mixtures of nanomaterials and chemicals: The Trojan-horse phenomenon and its relevance for ecotoxicity

Author

Naasz, Steffi, Altenburger, Rolf, Kühnel, Dana, Naasz, Steffi, Altenburger, Rolf, and Kühnel, Dana

Abstract

The usage of engineered nanomaterials (NM) offers many novel products and applications with advanced features, but at the same time raises concerns with regard to potential adverse biological effects. Upon release and emission, NM may interact with chemicals in the environment, potentially leading to a co-exposure of organisms and the occurrence of mixture effects. A prominent idea is that NM may act as carriers of chemicals, facilitating and enhancing the entry of substances into cells or organisms, subsequently leading to an increased toxicity. In the literature, the term ‘Trojan-horse effect’ describes this hypothesis. The relevance of this mechanism for organisms is, however, unclear as yet. Here, a review has been performed to provide a more systematic picture on existing evidence. It includes 151 experimental studies investigating the exposure of various NM and chemical mixtures in ecotoxicological in vitro and in vivo model systems. The papers retrieved comprised studies investigating (i) uptake, (ii) toxicity and (iii) investigations considering both, changes in substance uptake and toxicity upon joint exposure of a chemical with an NM.A closer inspection of the studies demonstrated that the existing evidence for interference of NM-chemical mixture exposure with uptake and toxicity points into different directions compared to the original Trojan-horse hypothesis. We could discriminate at least 7 different categories to capture the evidence ranging from no changes in uptake and toxicity to an increase in uptake and toxicity upon mixture exposure. Concluding recommendations for the consideration of relevant processes are given, including a proposal for a nomenclature to describe NM-chemical mixture interactions in consistent terms.

Published
2018

41. Reducing uncertainty and confronting ignorance about the possible impacts of weathering plastic in the marine environment

Author

Jahnke, Annika, Arp, Hans Petter Heinrich, Escher, Beate I., Gewert, Berit, Gorokhova, Elena, Kühnel, Dana, Ogonowski, Martin, Potthof, Annegret, Rummel, Christophe Daniel, Schmitt-Jansen, Mechtild, Toorman, Erik, MacLeod, Matthew, and Publica

Subjects
weathering, microplastic
Abstract

© 2017 American Chemical Society. Plastic in the global oceans fulfills two of the three conditions for pollution to pose a planetary boundary threat because it is causing planetary-scale exposure that is not readily reversible. Plastic is a planetary boundary threat if it is having a currently unrecognized disruptive effect on a vital Earth system process. Discovering possible unknown effects is likely to be aided by achieving a fuller understanding of the environmental fate of plastic. Weathering of plastic generates microplastic, releases chemical additives, and likely also produces nanoplastic and chemical fragments cleaved from the polymer backbone. However, weathering of plastic in the marine environment is not well understood in terms of time scales for fragmentation and degradation, the evolution of particle morphology and properties, and hazards of the chemical mixture liberated by weathering. Biofilms that form and grow on plastic affect weathering, vertical transport, toxicity, and uptake of plastic by marine organisms and have been underinvestigated. Laboratory studies, field monitoring, and models of the impact of weathering on plastic debris are needed to reduce uncertainty in hazard and risk assessments for known and suspected adverse effects. However, scientists and decision makers must also recognize that plastic in the oceans may have unanticipated effects about which we are currently ignorant. Possible impacts that are currently unknown can be confronted by vigilant monitoring of plastic in the oceans and discovery-oriented research related to the possible effects of weathering plastic. ispartof: Environmental Science & Technology Letters vol:4 issue:3 pages:85-90 status: published

Published
2017

44. Impacts of Biofilm Formation on the Fate and Potential Effects of Microplastic in the Aquatic Environment

Author

Rummel, Christoph D., Jahnke, Annika, Gorokhova, Elena, Kühnel, Dana, Schmitt-Jansen, Mechthild, Rummel, Christoph D., Jahnke, Annika, Gorokhova, Elena, Kühnel, Dana, and Schmitt-Jansen, Mechthild

Abstract

In the aquatic environment, microplastic (MP; <5 mm) is a cause of concern because of its persistence and potential adverse effects on biota. Studies of microlitter impacts are mostly based on virgin and spherical polymer particles as model MP. However, in pelagic and benthic environments, surfaces are always colonized by microorganisms forming so-called biofilms. The influence of such biofilms on the fate and potential effects of MP is not understood well. Here, we review the physical interactions of early microbial colonization on plastic surfaces and their reciprocal influence on the weathering processes and vertical transport as well as sorption and release of contaminants by MP. Possible ecological consequences of biofilm formation on MP, such as trophic transfer of MP particles and potential adverse effects of MP, are virtually unknown. However, evidence is accumulating that the biofilm-plastic interactions have the capacity to influence the fate and impacts of MP by modifying the physical properties of the particles. There is an urgent research need to better understand these interactions and increase the ecological relevance of current laboratory testing by simulating field conditions in which microbial life is a key driver of biogeochemical processes.

Published
2017
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45. Grouping concept for metal and metal oxide nanomaterials with regard to their ecotoxicological effects on algae, daphnids and fish embryos

Author

Hund-Rinke, K., Schlich, K., Kühnel, Dana, Hellack, B., Kaminski, H., Nickel, C., Hund-Rinke, K., Schlich, K., Kühnel, Dana, Hellack, B., Kaminski, H., and Nickel, C.

Abstract

Manufactured nanomaterials (NMs) are being developed in many different variations such as size, shape, crystalline structure and surface modifications. To avoid the testing of each single nanomaterial variation, grouping and read-across strategies for nanomaterials similar to classical chemicals are discussed. Grouping and read-across aim to identify NM groups with analogous sets of properties or properties that enable reasonable predictions of a NM hazard without additional testing. This will contribute to save costs and time in the risk assessment. So far the knowledge is still limited how modifications of NMs and their properties affect ecotoxicity.This study was initiated to support the discussions on grouping regarding aquatic ecotoxicological effects and for the identification of relevant properties as well as the development of a grouping concept addressing aquatic ecotoxicity. A comprehensive and homogenous data set based on fourteen nanomaterials was established. The selected NMs were modifications of five chemical species (Ag, ZnO, TiO2, CeO2, Cu). As the focus was on the applicability for regulatory purposes, for ecotoxicity the OECD test guidelines 201 (algae), 202 (daphnids) and 236 (fish embryo) were considered. The physico-chemical properties of the chosen NMs were determined in deionized water and the test media applied for the ecotoxicological tests. Reactivity, ion release, morphology and ecotoxicity of the chemical composition (information from the bulk material) were identified as the most relevant grouping properties regarding nanomaterial's ecotoxicity. A grouping scheme and procedure was proposed considering these properties. The scheme was validated with a set of additional nanomaterials (TiO2, SiO2, Fe2O3).A rough, but reliable grouping of NMs with different chemical composition was possible. The separation of NMs with the same chemical composition, into different groups was only feasible, if the NMs show major differences in one of the rele

Published
2017

46. From the air to the water phase: implication for toxicity testing of combustion-derived particles

Author

Schmidt, Susanne, Altenburger, Rolf, Kühnel, Dana, Schmidt, Susanne, Altenburger, Rolf, and Kühnel, Dana

Abstract

The biological effects of airborne particulate matter (PM) in humans stimulated many research activities in recent years. One type of particles contributing to PM are those derived from combustion processes. By using in vitro test systems for assessing the toxic effects of those particles, the transfer into liquid media is necessary. Thus the question arises, how the transfer of airborne particles into liquid suspensions should be realized and how the exposure of test organisms/cells to the particles can be done and monitored with regard to concentration and stability. Further, the characterization of the airborne particles regarding their composition seems to be of importance in order to understand the induced biological effects. Hence, this review gathers and evaluates results from in vitro and ecotoxicity studies, where the introduction of airborne particles into liquids is required. The aim was to learn on the current practice and recommend on the design of toxicity studies in the future. In total, about 80 papers were retrieved by literature search that deal with the assessment of biological effects of combustion-derived particles or their constituents. The papers were evaluated in detail with regard to the methodology applied. From this evaluation and based on expert knowledge regarding nanoparticle testing, recommendations for the assessment of PM applying toxicological assays were developed. To provide guidance, essential criteria are developed that should help in preparation, testing, and during the evaluation phase of toxicological assays. We further advise whole particle testing, complemented by testing of particle extracts and washed particles.

Published
2017

47. Challenges on the toxicological predictions of engineered nanoparticles

Author

Ribeiro, A.R., Leite, P.E., Falagan-Lotsch, P., Benetti, F., Micheletti, C., Budtz, H.C., Jacobsen, N.R., Lisboa-Filho, P.N., Rocha, R.A., Kühnel, Dana, Hristozov, D., Granjeiro, J.M., Ribeiro, A.R., Leite, P.E., Falagan-Lotsch, P., Benetti, F., Micheletti, C., Budtz, H.C., Jacobsen, N.R., Lisboa-Filho, P.N., Rocha, R.A., Kühnel, Dana, Hristozov, D., and Granjeiro, J.M.

Abstract

The perceived enormous potential of nanotechnology in contributing to sustainable innovation has led to the growth of investments into new industrial applications and consumer products. However, the lack of tools that are needed to generate early knowledge about the potential adverse effects, combined with the uncertainties regarding the health and safety risks of engineered nanoparticles (ENPs), are a potential threat to the acceptability by society of the nanotechnology innovations, due to the rising societal concerns that are based on generic worries. In order to tackle these issues, it has been necessary to adopt a more proactive approach into nanotechnology safety assessments. Multiple projects have been initiated around the world in order to understand how ENPs interact with living organisms, but the validation of most of the emerging knowledge may take years. This is while robust risk assessment results are urgently needed, in order to support timely regulatory decisions and risk management actions. The goal of this paper has been to review the present knowledge on the physicochemical characteristics of ENPs, focusing on titanium dioxide (TiO2), gold (Au), copper oxide (CuO), and zinc oxide (ZnO), as well as on their biological interactions. In addition, the paper has been aimed at the identification of the main challenges on the current toxicological characterisation of these ENPs. Focus will also be given in this article to those ENPs that have been described by the Consumer Product Inventory as having prevalent nanomaterials present in consumer products, but also, with those having therapeutic and diagnostic applications, due to their physical (ex: confined plasmon resonances) and biological (biocompatibility and antimicrobial) properties.

Published
2017

48. Metal uptake and distribution in the zebrafish (Danio rerio) embryo: differences between nanoparticles and metal ions

Author

Böhme, Steffi, Baccaro, M., Schmidt, Matthias, Potthoff, A., Stärk, Hans-Joachim, Reemtsma, Thorsten, Kühnel, Dana, Böhme, Steffi, Baccaro, M., Schmidt, Matthias, Potthoff, A., Stärk, Hans-Joachim, Reemtsma, Thorsten, and Kühnel, Dana

Abstract

The zebrafish (Danio rerio) embryo (ZFE) is an established test organism for investigating the toxicity of chemicals and is suitable for the assessment of the hazardous potential of nanoparticles. There is little knowledge on metal internalization and distribution in these organisms, as well as on the underlying kinetic processes. To shed light on metal–ZFE interactions, the uptake of different metal-composed nanoparticles (Ag-, Au-, CuO-, ZnO-NP) and their dissolved cations was studied in terms of temporal and spatial distribution as well as internal concentrations considering different ZFE compartments (whole egg, embryo, chorion, perivitelline space). By applying laser ablation ICP-MS and electron microscopy, element-specific differences in metal distribution at the surface and within the test organisms were observed. As determined by nebulization ICP-MS, all metals showed a bioconcentration in the eggs. Gold showed the highest accumulation, followed by silver, zinc and copper, with distinct differences when comparing the uptake of nanoparticles and metal ions. Upon exposure to nanoparticles, more silver and zinc were detected in the organisms, whereas more copper accumulated upon exposure to the cations. For silver, gold, and copper, the major share was found at the chorion structures, irrespective of exposure to NPs or cations. In contrast, for zinc, the highest portion reached the inner embryo. Overall, our results provide an informative basis to explain the differences in nanoparticle and ion toxicity observed in various studies.

Published
2017

49. Chapter 9. Progress towards risk assessment for engineered nanomaterials

Author

Dhawan, A., Anderson, D., Shanker, R., Kühnel, Dana, Dhawan, A., Anderson, D., Shanker, R., and Kühnel, Dana

Abstract

The assessment of risks associated with engineered nanomaterials demands a careful adaptation of existing risk assessment procedures. In principle, the procedures established to evaluate the risk of conventional substances are also applicable to nanomaterials. However, their specific properties and behaviour need adequate consideration. As engineered nanomaterials comprise a diverse and relatively young group of substances, risk evaluators need to deal with data gaps and act on a case-by-case basis. This chapter aims to give an overview on the present and future challenges in risk assessment of engineered nanomaterials.

Published
2017

50. From the sea to the laboratory: Characterization of microplastic as prerequisite for the assessment of ecotoxicological impact

Author

Potthoff, A., Oelschlägel, K., Schmitt-Jansen, Mechthild, Rummel, Christoph, Kühnel, Dana, Potthoff, A., Oelschlägel, K., Schmitt-Jansen, Mechthild, Rummel, Christoph, and Kühnel, Dana

Abstract

The presence of microplastic (MP) in the aquatic environment is recognized as a global-scale pollution issue. Secondary MP particles result from an ongoing fragmentation process governed by various biotic and abiotic factors. For a reliable risk assessment of these MP particles, knowledge about interactions with biota is needed. However, extensive testing with standard organisms under reproducible laboratory conditions with well-characterized MP suspensions is not available yet. As MP in the environment represents a mixture of particles differing in properties (e.g., size, color, polymer type, surface characteristics), it is likely that only specific particle fractions pose a threat towards organisms. In order to assign hazardous effects to specific particle properties, these characteristics need to be analyzed. As shown by the testing of particles (e.g. nanoparticles), characteristics other than chemical properties are important for the emergence of toxicity in organisms, and parameters such as surface area or size distribution need consideration. Therefore, the use of “well-defined” particles for ecotoxicological testing (i.e., standard particles) facilitates the establishment of causal links between physical-chemical properties of MP particles and toxic effects in organisms. However, the benefits of well-defined particles under laboratory conditions are offset by the disadvantage of the unknown comparability with MP in the environment. Therefore, weathering effects caused by biological, chemical, physical or mechanical processes have to be considered. To date, the characterization of the progression of MP weathering based on powder and suspension characterization methods is in its infancy. The aim of this commentary is to illustrate the prerequisites for testing MP in the laboratory from 3 perspectives: (i) knowledge of particle properties; (ii) behavior of MP in test setups involving ecotoxicological test organisms; and (iii) accordingly, test conditions that ma

Published
2017

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