Testing the bioaccumulation of manufactured nanomaterials in the freshwater bivalve<i>Corbicula fluminea</i>using a new test method

Kuehr, Sebastian; Meisterjahn, Boris; Schröder, Nicola; Knopf, B; Voelker, Doris; Schwirn, Kathrin; Schlechtriem, Christian

doi:10.1039/c9en01112a

Cited by 28 publications

(46 citation statements)

References 79 publications

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“…accordance with previous observations of Wegner et al (2012) with blue mussels exposed to nanostructural polystyrene (Wegner et al, 2012) and Kuehr, Meisterjahn, et al (2020) with C. fluminea exposed to TiO 2 nanoparticles and to gold nanoparticles (AuNPs). Also in these studies an increased filtration activity and release of feces or pseudo feces were observed (S. Kuehr, Meisterjahn, et al, 2020;Wegner et al, 2012).…”

Section: Accepted Articlesupporting

confidence: 92%

Are Fragrance Encapsulates Taken Up by Aquatic and Terrestrial Invertebrate Species?

Kuehr

Windisch

Schlechtriem

et al. 2021

Enviro Toxic and Chemistry

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The uptake potential of Fragrance Encapsulates (FEs) by aquatic or terrestrial organisms was investigated. Due to their size of below 5 mm and their This article is protected by copyright. All rights reserved. Accepted Articlepolymeric nature, FEs fall under the Joint Group of Experts on the Scientific Aspects of Marine Environmental Protection (GESAMP) definition of microplastics (MPs).After use, FEs enter the sewer system and reach the sewage treatment plant (STP) where >90% of the FEs are likely to be removed by sorption to the sludge. When the STP-generated sludge is used as fertilizer for agricultural soils, this may lead to potential exposure of terrestrial invertebrates to FEs and especially those feeding on particles of a similar size as the FEs. Two aquatic (Corbicula fluminea (water exposure) and Hyalella azteca (water and dietary exposure)) and one terrestrial invertebrate (Eisenia andrei (soil exposure)) species were exposed to 50 mg/L (or mg/kg) double fluorescence labelled FEs (ø 5-50 µm). The results showed that FEs are available to aquatic and terrestrial invertebrates but species specific differences regarding the ability to ingest FEs may exist. The benthic grazer H. azteca showed no ingestion of FEs, whereas the capsules were readily ingested and egested by the unselective freshwater filter-feeder C. fluminea, as well as the terrestrial decomposer E. andrei. No signs of bioaccumulation of FEs were indicated by microscopic assessment.This article includes online-only Supporting Information.

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Section: Accepted Articlesupporting

confidence: 92%

Are Fragrance Encapsulates Taken Up by Aquatic and Terrestrial Invertebrate Species?

Kuehr

Windisch

Schlechtriem

et al. 2021

Enviro Toxic and Chemistry

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“…Similarly, Kuehr et al [46] observed an enrichment of suspended TiO 2 NPs in the freshwater bivalve C. fluminea with an accumulation factor of more than 9000 that was followed by a complete elimination of the TiO 2 load within 24 h of depuration. This was explained by the rapid and effective release of F/pF containing the previously enriched TiO 2 NPs [46]. Therefore, filter feeding bivalves may play an important role in the exposure of benthic species that feed on the F/pF as described above.…”

Section: Introductionmentioning

confidence: 75%

“…Although the released F/pF were not analyzed for the nPS content, it is likely that the suspended nPS were ingested, concentrated, and finally eliminated by the release of F/pF. Similarly, Kuehr et al [46] observed an enrichment of suspended TiO 2 NPs in the freshwater bivalve C. fluminea with an accumulation factor of more than 9000 that was followed by a complete elimination of the TiO 2 load within 24 h of depuration. This was explained by the rapid and effective release of F/pF containing the previously enriched TiO 2 NPs [46].…”

Section: Introductionmentioning

confidence: 99%

Ingestion of bivalve droppings by benthic invertebrates may lead to the transfer of nanomaterials in the aquatic food chain

et al. 2021

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Background Manufactured nanomaterials (MNMs) are released into the environment in increasing quantities. Consequently, MNMs also reach the aquatic environment, where they can interact with different organisms. Previous studies have already shown that filter-feeding bivalves can ingest nanomaterials from the surrounding water leading to higher concentration of the material. Furthermore, they have been shown to be vectors for environmental chemicals and pathogens to other organisms, as their feces/pseudofeces (F/pF) play a crucial role as a food source for other species. We exposed bivalves (Corbicula sp.) to MNMs and performed experiments to investigate the possible transport of MNMs by their feces to the benthic amphipod Hyalella azteca. Silver (Ag) and gold (Au) nanoparticles (NPs) as well as fluorescent polystyrene nanoparticles were used in this study. They allowed the investigation of the metal content of the bivalves’ feces and the amphipods feeding on it, as well as the localization of the fluorescent particles in the body of the animals. Results Examination of the feces by fluorescence microscope and determination of the total metal content by inductively coupled plasma mass spectrometry (ICP-MS) showed a high accumulation of the exposed MNMs in the F/pF. The examination of fecal matter, using transmission electron microscopy confirmed the nanoparticulate character of the metals in the examined fecal matter. After exposure of amphipods to the MNMs containing fecal matter, the fluorescent MNMs were localized in the animals gut. The chronic exposure of juvenile amphipods over 21 days to feces enriched with Au MNMs caused significant effects on the growth of the amphipods. The transfer of both metals (Ag and Au) from the fecal matter to the amphipods was confirmed after total metal measurements. Conclusion Probably, for the first time, it has been shown that when exposed to MNMs bivalves can transfer these particles to other benthic species. Transfer is via released F/pF upon which the benthic species feed and thus could ingest the particles. The high concentrations of MNMs in the fecal matter raises concerns about the potential accumulation and transfer of the materials and associated ecotoxicological effects in invertebrates such as benthic amphipods.

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“…47 The bioaccumulation potential of TiO 2 NPs and SWCNTs was also assessed in a sediment dwelling marine polychaete using ICP-OES. 48 More recently the technique of single particle ICP-MS (spICP-MS) has being used, in addition to total metal concentrations measurements of Ag NPs and TiO 2 NPs, to determine particle concentration during metal uptake and elimination from a freshwater bivalve, 49 and from an amphipod, Hyalella azteca. 50 The methods used in these available data sets on aquatic invertebrates might require further validation to enable a standardised protocol for the tissue detection of MNs in a technical guidance document.…”

Section: Using Invertebrate Bioaccumulation Tests As An Alternative To Fish (Tier 2)mentioning

confidence: 99%

The bioaccumulation testing strategy for manufactured nanomaterials: physico-chemical triggers and read across from earthworms in a meta-analysis

Handy

Clark

Vassallo

et al. 2021

Environ. Sci.: Nano

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Testing the bioaccumulation of manufactured nanomaterials in the freshwater bivalveCorbicula flumineausing a new test method

Cited by 28 publications

References 79 publications

Are Fragrance Encapsulates Taken Up by Aquatic and Terrestrial Invertebrate Species?

Are Fragrance Encapsulates Taken Up by Aquatic and Terrestrial Invertebrate Species?

Ingestion of bivalve droppings by benthic invertebrates may lead to the transfer of nanomaterials in the aquatic food chain

The bioaccumulation testing strategy for manufactured nanomaterials: physico-chemical triggers and read across from earthworms in a meta-analysis

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