Stabilization or Oxidation of Nanoscale Zerovalent Iron at Environmentally Relevant Exposure Changes Bioavailability and Toxicity in Medaka Fish

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• 作者：Pei-Jen Chen ; Shih-Wei Tan ; Wen-Lin Wu
• 刊名：Environmental Science & Technology (ES&T)
• 出版年：2012
• 出版时间：August 7, 2012
• 年：2012
• 卷：46
• 期：15
• 页码：8431-8439
• 全文大小：415K
• 年卷期：v.46,no.15(August 7, 2012)
• ISSN：1520-5851

文摘

Nanoscale zerovalent iron (nZVI)-based nanotechnologies are increasingly being used for environmental remediation; however, the fate and ecotoxicologic effects of nZVI remain unclear. Larvae of medaka fish (Oryzias latipes) underwent 3鈥?4 days鈥?aqueous exposure to thoroughly characterized solutions containing carboxymethyl cellulose (CMC)-stabilized nZVI, bare nZVI, nanoscale iron oxide (nFe₃O₄) or ferrous ion [Fe(II)_aq] at 渭g/L-mg/L levels to assess the causal toxic effect(s) of iron nanoparticles (NPs). Acute larval mortality was decreased in the order of Fe(II)_aq > CMC-nZVI > nZVI > nFe₃O₄. CMC-nZVI (100 mg/L) increased hypoxia and reactive oxygen species (ROS) and Fe(II)_aq production, thus increasing mortality and oxidative stress response as compared with unstabilized nZVI. Additionally, nFe₃O₄ and nZVI were more bioavailable than suspended CMC-nZVI or Fe(II)_aq. Antioxidant activities were significantly altered by induced intracellular ROS levels in larvae with subchronic exposure to nFe₃O₄ or Fe(II)_aq at environmentally relevant concentrations (0.5鈥? mg/L). We report on different organizational biomarkers used for rapidly assessing the lethal and sublethal toxicity of nZVI and its stabilized or oxidized products. The toxicity results implicate a potential ecotoxicological fate and impact of nZVI on the aquatic environment.