Assessing toxicity of nanoparticles using Brachionus manjavacas (Rotifera).

Rotifers are major components of zooplankton in freshwater and coastal marine ecosystems throughout the world and could be useful indicator species, providing valuable insight into the effects of nanoparticles on microinvertebrate grazers. Here we report initial efforts to characterize the immediate and longer-term effects of nanoparticle exposure on the reproduction of the coastal marine and salt lake rotifer Brachionus manjavacas. We used chemically unreactive fluorescent nanoparticles to probe how size and concentration affects the mode of uptake, distribution within the rotifer body, reproductive rate, feeding behavior, and offspring fitness. Population growth rate (r) was depressed 50% in rotifer populations exposed to 0.30 μg mL(-1) of 37-nm particles, and 89% in populations exposed to 1.1 μg mL(-1). Larger particles of identical chemical composition, but with diameters up to 3000 nm, caused no reduction in population growth rate. These larger particles remain confined in the gut, implicating nanoparticle size as a critical factor in the ability to penetrate the gut wall and enter tissues. Transfer of the F1 offspring from nanoparticle exposed maternal females into nanoparticle-free media demonstrated that nanoparticles are rapidly cleared from the animals with no significant residual adverse effects.