Aquatic Environment Exposure and Toxicity of Engineered Nanomaterials Released from Nano-Enabled Products: Current Status and Data Needs

Rapid commercialisation of nano-enabled products (NEPs) elevates the potential environmental release of engineered nanomaterials (ENMs) along the product life cycle. The current review examined the state of the art literature on aquatic environment exposure and ecotoxicity of product released (PR) engineered nanomaterials (PR-ENMs). Additionally, the data obtained were applied to estimate the risk posed by PR-ENMs to various trophic levels of aquatic biota as a means of identifying priority NEPs cases that may require attention with regards to examining environmental implications. Overall, the PR-ENMs are predominantly associated with the matrix of the respective NEPs, a factor that often hinders proper isolation of nano-driven toxicity effects. Nevertheless, some studies have attributed the toxicity basis of observed adverse effects to a combination of the released ions, ENMs and other components of NEPs. Notwithstanding the limitation of current ecotoxicology data limitations, the risk estimated herein points to an elevated risk towards fish arising from fabrics' PR-nAg, and the considerable potential effects from sunscreens' PR-nZnO and PR-nTiO(2) to algae, echinoderms, and crustaceans (PR-nZnO), whereas PR-nTiO(2) poses no significant risk to echinoderms. Considering that the current data limitations will not be overcome immediately, we recommend the careful application of similar risk estimation to isolate/prioritise cases of NEPs for detailed characterisation of ENMs' release and effects in aquatic environments.

Automated summary

The rapid commercialization of nano-enabled products has increased the potential environmental release of engineered nanomaterials along the product life cycle. Studies show that the engineered nanomaterials released from products are mainly associated with the matrix of the respective nano-enabled products, which can hinder the proper isolation of nano-driven toxicity effects. Despite current limitations in ecotoxicology data, risk estimation suggests elevated risks to fish from fabrics' PR-nAg, and potential effects on algae, echinoderms, and crustaceans from sunscreens' PR-nZnO and PR-nTiO(2), with no significant risk to echinoderms from PR-nTiO(2).