Predicting accidental release of engineered nanomaterials to the environment.
Fadri GottschalkBruno DebrayFred KlaessigBarry ParkJean-Marc LacomeAlexis VignesVicenç Pomar PortilloSocorro Vázquez-CamposChristine Ogilvie HendrenStephen LoftsSamuel HarrisonClaus SvendsenRalf KaegiPublished in: Nature nanotechnology (2023)
Challenges in distinguishing between natural and engineered nanomaterials (ENMs) and the lack of historical records on ENM accidents have hampered attempts to estimate the accidental release and associated environmental impacts of ENMs. Building on knowledge from the nuclear power industry, we provide an assessment of the likelihood of accidental release rates of ENMs within the next 10 and 30 years. We evaluate risk predictive methodology and compare the results with empirical evidence, which enables us to propose modelling approaches to estimate accidental release risk probabilities. Results from two independent modelling approaches based on either assigning 0.5% of reported accidents to ENM-releasing accidents (M1) or based on an evaluation of expert opinions (M2) correlate well and predict severe accidental release of 7% (M1) in the next 10 years and of 10% and 20% for M2 and M1, respectively, in the next 30 years. We discuss the relevance of these results in a regulatory context.