Nematode-based biomarkers as critical risk indicators on assessing the impact of silver nanoparticles on soil ecosystems
Journal
Ecological Indicators
Journal Volume
75
Pages
340-351
Date Issued
2017
Author(s)
Abstract
Soil contamination caused by silver nanoparticles (AgNPs) released from sewage treatment plants (STPs) is of great public concern. Understanding the relationships between the physicochemical properties of AgNPs and their toxicity is critical for environmental and health risk analysis. Here we presented an approach for rapidly screening and assessing the potential toxicity risk of AgNPs in general and sludge-treated soils based on the nematode Caenhorhabditis elegans-based probabilistic risk assessment framework. The soil environmental risks were estimated depending on the characteristics of AgNPs and geographic regions. We assessed the risk for soils exceeding a threshold of C. elegans neurotoxicity based on the statistical models. Our results indicated that locomotion inhibition of C. elegans was depending on surface properties, diameter, and exposure time of AgNPs. Here we showed that the overall sewage sludge-released AgNPs-associated soil contamination risk was very low among Europe, U.S., and Switzerland. However, large production and widespread use of AgNPs are highly likely to pose long-term ecotoxicity risk on general and sludge-treated soils, particularly for 26 nm citrate-coated AgNPs. Our approach of integrating probabilistic risk model and C. elegans-based ecological indicator provides an effective tool to rapidly screen and assess the impacts of STPs-released AgNPs on soil environment. We suggest that C. elegans as a proxy for estimating soil risk metrics can help develop methods of management for mitigating the metal NPs-induced toxicity on terrestrial ecosystems. © 2016 Elsevier Ltd
Subjects
Caenhorhabditis elegans; Ecotoxicity; Nematode; Risk assessment; Silver nanoparticles; Soil ecosystems
Other Subjects
Ecology; Ecosystems; Health risks; Metal nanoparticles; Nanoparticles; Risk analysis; Risk perception; Sewage sludge; Sewage treatment plants; Silver; Soils; Toxicity; Ecotoxicity; Elegans; Nematode; Silver nanoparticles; Soil ecosystems; Risk assessment; health risk; inhibition; locomotion; nanoparticle; nematode; probability; risk assessment; sewage treatment; silver; soil ecosystem; toxicity test; Switzerland; Caenorhabditis elegans
Type
journal article