Keywords: 
• nano-ZnO /
• nano-CuO /
• zebrafish /
• chronic exposure /
• accumulation /
• elimination

Abstract: A 52-day continuous semi-static (test media renewal daily) waterborne exposure experiment, including 28-day uptake phase and 24-day depuration phase, was conducted to assess the accumulation and elimination of nano-ZnO and nano-CuO in zebrafish (Danio rerio) exposed to low concentration (4 mg·L^-1and 10 mg·L^-1). The profiles of accumulation and elimination of nano-ZnO and nano-CuO in zebrafish were investigated by measuring the body burden of nanoparticles in fish tissues. And the abilities of accumulation and elimination of two nanomaterials were comparatively analyzed through calculating the maximum biaoaccumulation factors (BAF_max), depuration rate coefficient and elimination rate of total contents in fish body. The results showed that a certain amount of nano-ZnO and nano-CuO could be found in fish body with the BAF_max of 169.5, 493.4 for 4 mg·L^-1 treatment groups and 168.4, 298.6 for 10 mg·L^-1 treatment groups, respectively. Therefore, neither nano-ZnO nor nano-CuO was considered as bioaccumulative substances. In the elimination phase, accumulated nano-CuO in fish body could be depurated efficiently at 24 d post-exposure with the higher elimination rate (> 99.5%) and depuration rate coefficient. However, the eliminationof nano-ZnO from zebrefish was incomplete until 24 d post-exposure (elimination rate < 91%). The experimental results provide basic data for the chronic toxicology research on metal oxide nanomaterials to aquatic organisms.