H31C-0637:
Emerging Patterns for Engineered Nanomaterials in the Environment: A Review of Fate and Toxicity Studies
Wednesday, 17 December 2014
Kendra Garner and Arturo A Keller, University of California Santa Barbara, Santa Barbara, CA, United States
Abstract:
The technical complexity of measuring ENM fate and transport processes in all environments necessitates identifying trends in these same processes. As part of our research, we collected emerging information on the environmental fate and toxicity of many ENMs and investigated transportation and transformation processes in air, water, and soil. Generally, studies suggest that (i) ENMs will have limited transport in the atmosphere, because they settle rapidly; (ii) ENMs are more stable in freshwater and stormwater than in seawater or groundwater primarily due to variations in ionic strength and the presence of natural organic matter; and (iii) in soil, the fate of ENMs strongly depends on the size of the ENM aggregates and groundwater chemistry, as well as pore and soil particle size. Emerging patterns regarding ENM fate, transport, and exposure combined with emerging information on toxicity indicate the risk is low for most ENMs although current exposure estimates compared with current data on toxicity indicate that at current production and release levels, exposure to Ag, nZVI, and ZnO may cause a toxic response to freshwater and marine species.