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Nanomaterial Ecotoxicology in the Terrestrial and Aquatic Environment: A Systematic Review
Summary
This systematic review of 303 studies on nanomaterial ecotoxicity found that research has heavily focused on aquatic organisms while terrestrial impacts remain understudied, creating significant knowledge gaps. Metal oxide nanoparticles like TiO2, ZnO, and Ag showed dose-dependent toxicity across multiple organism types. These findings are relevant to microplastic research because nanoplastics behave similarly to engineered nanomaterials in biological systems, raising parallel toxicity concerns.
This systematic review analyzes the studies available on the ecotoxicity of nanomaterials (NMs) in the environment to understand where future research should be addressed for achieving Agenda 2030 goals on sustainable development and environmental safety. We discuss the status of NMs ecotoxicological effects across different organisms that are representative of all natural environments (land, air, water). A total of 1562 publications were retrieved from the Web of Science (all databases) by using the search criteria "nanomaterials" and "ecotoxicology"; among them, 303 studies were included in the systematic review because they met any of the following criteria: (i) focalize on both search criteria; (ii) deal with terrestrial, or aquatic environment; (iii) address models (organisms, cells) for the nano environmental risk assessment and exposure. The knowledge gaps are identified together with novel insights that need to be further investigated to better understand the ecotoxicological environmental impacts of NMs.
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