Ecotoxicity studies of two atrazine nanoformulations: From the evaluation of stability in media to the effects on aquatic organisms.

In the field of agriculture, nanopesticides have been developed as an alternative to the conventional pesticides, being more efficient for pest control. However, before their widespread application it is essential to evaluate their safe application and no environmental impacts. In this paper, we evaluated the toxicological effects of two kinds of atrazine nanoformulations (ATZ NPs) in different biological models (Raphidocelis subcapitata, Danio rerio, Lemna minor, Artemia salina, Lactuca sativa and Daphnia magna) and compared the results with nanoparticle stability over time and the presence of natural organic matter (NOM). The systems showed different characteristics for Zein (ATZ NPZ) (184 ± 2 nm with a PDI of 0.28 ± 0.04 and zeta potential of (30.4 ± 0.05 mV) and poly(epsilon-caprolactone (ATZ PCL) (192 ± 3 nm, polydispersity (PDI) of 0.28 ± 0.28 and zeta potential of -18.8 ± 1.2 mV) nanoparticles. The results showed that there is a correlation between nanoparticles stability and the presence of NOM in the medium and Environmental Concentrations (EC) values. The stability loss or an increase in nanoparticle size result in low toxicity for R. subcapitata and L. minor. For D. magna and D. rerio, the presence of NOM in the medium reduces the ecotoxic effects for ATZ NPZ nanoparticles, but not for ATZ NPs, showing that the nanoparticles characteristics and their interaction with NOM can modulate toxic effects. Nanoparticle stability throughout the evaluation must be considered and become an integral part of toxicity protocol guidelines for nanopesticides, to ensure test quality and authentic results regarding nanopesticide effects in target and non-target organisms.

Insecticide distribution model in human tissues viewing worker's health monitoring programs

This work aimed at evaluating the characteristics of thirty nine insecticides on tissue distribution and accumulation, using their physico-chemical characteristics and the tissues lipid contents to calculate the compounds distribution among the tissues. The insecticides evaluated were selected among those registered in Brazil for agriculture use. The level I fugacity model was used for the calculations of insecticide distribution among the tissues of muscles, viscera, skin, fat, blood, liver, kidneys and gut. The octanol-water partition coefficient, water solubility and tissue lipid contents showed an insecticide distribution in human tissues. Cluster analysis was performed aiming the identification and separation of insecticides groups based on their physico-chemical characteristics as compounds with similar distribution within tissues and at the same time tissues with similar distribution of various insecticides. Cluster analysis pointed out three insecticide groups: in the first, 70 - 86 percent of insecticide accumulation was found in lipid tissues; in the second, 44 - 58 percent; and in the third, 9 -19 percent. These results could contribute to health monitoring programs of farmworkers.

O objetivo desse trabalho foi avaliar as características de 39 inseticidas quanto a sua distribuição e acumulação em tecidos humanos como também avaliar o grau de similaridade entre os inseticidas quanto a sua distribuição nos tecidos. Para tanto, foram utilizadas as características físico-químicas dos compostos e o conteúdo de lipídeos teciduais para calcular a distribuição dos inseticidas entre os tecidos estudados. Os inseticidas selecionados para o presente trabalho foram alguns daqueles que se encontram registrados no Brasil para uso agrícola. No cálculo da distribuição dos inseticidas entre os tecidos foi utilizado o modelo de fugacidade nível I em músculos, vísceras, pele, gordura, sangue, fígado, rins e intestinos. As características físico- químicas dos inseticidas e os conteúdos de lipídio dos tecidos foram usados para calcular a distribuição dos inseticidas entre os tecidos. O coeficiente de partição octanol-água, a solubilidade em água e o conteúdo de lipídio dos tecidos determinaram a distribuição de um inseticida entre tecidos humanos. Foram realizadas análises de agrupamento, para identificar grupos de inseticidas com distribuição similar nos tecidos. 90 por cento dos 39 inseticidas apresentaram distribuição em gordura maior do que 50 por cento. A análise de agrupamento indicou três grupos de inseticidas: no primeiro o percentual acumulado na gordura variou de 70 - 86 por cento, no segundo de 44 - 58 por cento e no terceiro de 9 - 19 por cento. Os resultados obtidos podem contribuir para os programas de monitoramento da saúde do trabalhador rural.