Efeitos ecotoxicológicos das nanopartículas de dióxido de titânio sobre a alga Pseudokirchneriella Subcapitata e sobre o Cladócero Ceriodaphnia Silvestrii por diferentes vias de exposição
Abstract
In recent years, increased use of titanium dioxide nanoparticles (TiO 2 NPs) in consumer
products and technological devices has raised concerns regarding their environmental
impacts and their risks to human health. Ecotoxicological studies have been used as a tool to analyze the toxic potential of TiO 2 NP S in different trophic levels, such as primary
producers (algae) and first order consumers (cladocerans). In the present study, the
chronic effects of TiO2 NPS on the population growth of the microalgae chlorophycean
Pseudokirchneriella subcapitata was evaluated during an exposure period of 96 hours,
under conditions of temperature and photoperiod similar to those found in tropical
ecosystems. New methods were developed for the separation of the aggregates between
the algae cells and TiO2 NPS, whose formation was observed at above 0.01 mg L-1
concentrations after a period of 96 hours’ exposure. The only effective method was the
one in which the cells were washed three times with a metal chelator (EDTA), with
duration of 1 minute for each wash. In the toxicity chronic test, there was obtained a
significant inhibition of algal growth from the concentration of 64 mg L-1 of TiO2 NPs,
with a concentration of 50% inhibition of algal cells (96 h - IC50) of 201.22 mg L -1 in 96
h of exposure. Then, it was evaluated the acute effects of exposure by contact and the
chronic effects of TiO2 NPs for the cladoceran Ceriodaphnia silvestrii, using
contaminated food (Pseudokirchneriella subcapitata) as a route of exposure. In acute
toxicity tests was obtained the average value of EC50 - 48 h of 77.57 mg L-1. In chronic
toxicity tests, it was observed significant differences in survival from the concentration
of 0.01 mg L-1, while for the body length, the number of eggs and neonates produced,
toxic effects were observed from the concentration of 1 mg L-1. These results indicate that
the nano-TiO2 NPS had a deleterious effect on the growth of Pseudokirchneriella
subcapitata only at concentrations above those normally found in natural aquatic
environments. For the cladoceran Ceriodaphnia silvestrii, the route of dietary exposure
indicated a greater toxic effect.