Keywords: 
• fullerene (C₆₀) /
• aqueous stable fullerene nanocrystals (nC₆₀) /
• Daphnia magna /
• Danio rerio

Abstract: Aqueous stable fullerene nanocrystals (nC₆₀) can be filtered by zooplank-tons, and sequentially transferred to upper trophic level organisms. To investigate the dietary biological effects of nC₆₀, Daphnia magna with cumulated nC₆₀ were fed to zebrafish for 21 d. The reactive oxygen species (ROS), Na⁺-K⁺-ATPase, Ca²⁺-ATPase, alkali phosphatase (AKP), acid phosphatase (ACP), glutamic-pyruvic transaminase (GPT), and glutamic-oxalacetic transaminase (GOP) were measured in the brain, gills, kidney, and hepatopancreas to investigate the dietary effects on zebrafish organs. The dietary exposure results indicated that dietary nC₆₀ increased the ROS production in brain tissues with increasing experimental time, and finally increased by 79.17%. The Na⁺-K⁺-ATPase activities in the gills and kidney tissues decreased with increasing experimental time, and finally decreased by 47.09% and 51.07%, respectively. The Ca²⁺-ATPase activities in the gills and kidney tissues decreased with increasing ex-perimental time, and finally decreased by 28.28% and 35.13%, respectively. The AKP activities in the gills, kidney and hepatopancreas tissues were increased with increasing experimental time, and finally increased by 45.97%, 26.68% and 83.01%, respectively. The ACP activities were increased with increasing experimental time, and finally increased by 38.85%, 84.12%, and 55.77%, respectively. The GPT and GOT activities in the hepatopancreas were decreased with the increasing experimental time, and finally decreased by 50.05% and 76.50%, respectively. In summary, this study not only describes the decreased functions of the brain, gill, kidney and hepatopancreas as a result of dietary nC₆₀ in upper trophic level organisms (zebrafish), but also provides fundamental data regarding the dietary effects of nC₆₀ on aqueous organisms for the further eco-toxicological study.