Claudia Som scite author profile

The environmental risks of five engineered nanomaterials (nano-TiO2, nano-Ag, nano-ZnO, CNT, and fullerenes) were quantified in water, soils, and sediments using probabilistic Species Sensitivity Distributions (pSSDs) and probabilistic predicted environmental concentrations (PECs). For water and soil, enough ecotoxicological endpoints were found for a full risk characterization (between 17 and 73 data points per nanomaterial for water and between 4 and 20 for soil) whereas for sediments, the data availability was not sufficient. Predicted No Effect Concentrations (PNECs) were obtained from the pSSD and used to calculate risk characterization ratios (PEC/PNEC). For most materials and environmental compartments, exposure and effect concentrations were separated by several orders of magnitude. Nano-ZnO in freshwaters and nano-TiO2 in soils were the combinations where the risk characterization ratio was closest to one, meaning that these are compartment/ENM combinations to be studied in more depth with the highest priority. The probabilistic risk quantification allows us to consider the large variability of observed effects in different ecotoxicological studies and the uncertainty in modeled exposure concentrations. The risk characterization results presented in this work allows for a more focused investigation of environmental risks of nanomaterials by consideration of material/compartment combinations where the highest probability for effects with predicted environmental concentrations is likely.

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The importance of life cycle concepts for the development of safe nanoproducts

Som

Berges

Chaudhry³

et al. 2010

Toxicology

238

131

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Claudia Som

From laboratory to industrial scale: a scale-up framework for chemical processes in life cycle assessment studies

Studying the potential release of carbon nanotubes throughout the application life cycle

Reviewing the environmental and human health knowledge base of carbon nanotubes

Probabilistic environmental risk assessment of five nanomaterials (nano-TiO₂, nano-Ag, nano-ZnO, CNT, and fullerenes)

The importance of life cycle concepts for the development of safe nanoproducts

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About

Claudia Som

From laboratory to industrial scale: a scale-up framework for chemical processes in life cycle assessment studies

Studying the potential release of carbon nanotubes throughout the application life cycle

Reviewing the environmental and human health knowledge base of carbon nanotubes

Probabilistic environmental risk assessment of five nanomaterials (nano-TiO2, nano-Ag, nano-ZnO, CNT, and fullerenes)

The importance of life cycle concepts for the development of safe nanoproducts

Contact Info

Product

Resources

About

Probabilistic environmental risk assessment of five nanomaterials (nano-TiO₂, nano-Ag, nano-ZnO, CNT, and fullerenes)