VANESSA SILVA GRANADEIRO GARCIA
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Artigo IPEN-doc 28348 Multiple adverse effects of textile effluents and reactive Red 239 dye to aquatic organisms2021 - GARCIA, VANESSA S.G.; TALLARICO, LENITA de F.; ROSA, JORGE M.; SUZUKI, CELSO F.; ROUBICEK, DEBORAH A.; NAKANO, ELIANA; BORRELY, SUELI I.Textile dyeing consumes high volumes of water, generating proportional number of colored effluents which contain several hazardous chemical. These contaminants can implicate in significant changes in aquatic environmental, including several adverse effects to organisms in different trophic levels. The present study was developed to assess the ecotoxicological effects of textile effluent samples and reactive Red 239 dye (used in cotton dyeing) to aquatic organisms Vibrio fischeri bacteria, Daphnia similis crustacean, and Biomphalaria glabrata snail (adults and embryos). Chronic assays with lethal and sublethal effects for Daphnia similis were included and performed only for textile effluents samples. The mutagenicity was also evaluated with Salmonella/microsome assay (TA98, TA100, and YG1041 strains). V. fischeri bacteria was the most sensitive to reactive Red 239 dye (EC50 = 10.14 mg L−1) followed by mollusk embryos at all stages (EC50 = 116.41 to 124.14 mg L−1), D. similis (EC50= 389.42 mg L−1), and less sensitive to adult snails (LC50= 517.19 mg L−1). The textile effluent was toxic for all exposed organisms [E(L)C50 < 15%] and B. glabrata embryos showed different responses in the early stages of blastulae and gastrulae (EC50 = 7.60 and 7.08%) compared to advanced development stages trochophore and veliger (EC50 = 21.56 and 29.32%). Developmental and sublethal effects in B. glabrata embryos and D. similis were evidenced. In the chronic assay with effluent, the EC10/NOEC = 3% was obtained. Mutagenic effects were not detected for dye aqueous solutions neither for effluents samples. These data confirmed the importance of evaluating the effects in aquatic organisms from different trophic levels and reinforce the need for environmental aquatic protection.Artigo IPEN-doc 27915 Electron beam irradiation of combined pharmaceuticals2021 - BOIANI, NATHALIA F.; GARCIA, VANESSA S.G.; BORRELY, SUELI I.There are serious evidences that justify the search for treatment technologies or processes combination for the improvement of decomposition for dozens of pharmaceuticals in wastewaters. Electron beam irradiation may play an important role in this scenario and relatively low doses have been reported for such purposes. The aim of the present study was to evaluate the toxic response of the crustacean Daphnia similis exposed to individual and combined pharmaceuticals, before and after electron beam irradiation treatment. Several experimental trials of an acute immobilization test were performed with a mixture of pharmaceuticals composed of fluoxetine hydrochloride (Prozac®), and propranolol. Single pharmaceuticals were first tested separately. Toxicity of binary mixture was then assessed using five concentrations and five percentages of each substance in the mixture (0, 25, 50, 75, and 100%). Acute EC50% values ranged from 5.0 to 7.4 for fluoxetine and from 11.3 to 13.7 for propranolol. In mixture, values ranged from 6.4 to 9.8. Fluoxetine was more toxic than propranolol for D.similis. The different pharmaceuticals concentrations employed in a mixture showed no difference in toxicity values. When electron beam irradiation was applied, approximately 80% of acute effects were reduced at 5 kGy, and the mixture containing a higher percentage of fluoxetine, also showed a greater reduction of toxicity.Artigo IPEN-doc 26658 Electron beam irradiation of pharmaceuticals aiming at toxicity reduction2019 - BOIANI, N.F.; SILVA, V.H.O.; GARCIA, V.S.G.; DEL SOLE, S.V.; BORRELY, S.I.Significant evidence is available in the literature justifying the search for treatment technologies or process combinations to improve the decomposition of dozens of pharmaceuticals in wastewater. Conventional processing techniques are insufficient in removal of the pharmaceuticals, for having resistant waste and low biodegradability. Electron beam irradiation (EBI) may play an important role in this context, and relatively low doses have been reported for such purposes. The objective of this study was to apply the process of irradiation with electron beam in order to reduce the toxic effects of fluoxetine, propranolol, and a binary mixture of these pharmaceuticals in aqueous solution. Ecotoxicological tests conducted in two model organisms, Daphnia similis microcrustacean, and Vibrio fischeri bacterium. It was observed that D. similis was more sensitive to the pharmaceuticals and binary mixture, when compared to V. fischeri. When EBI was applied, all doses showed significant reduction of toxicity for D. similis, and the opposite for V. fischeri, when only 5.0 kGy showed a significant reduced of toxicity for the pharmaceuticals and binary mixture. 5.0 kGy was the best removal efficiency for toxicity, approximately 80% for D. similis and 20% for V. fischeri.Artigo IPEN-doc 26168 Electron beam irradiation of combined pharmaceuticals2019 - BOIANI, NATHALIA F.; VILLARDI, BRUNO D.Q.; GARCIA, VANESSA S.G.; BORRELY, SUELI I.There are serious evidences that justify the search for treatment technologies or processes combination for the improvement of decomposition for dozens of pharmaceuticals in wastewaters. Electron beam irradiation may play an important role in this scenario and relatively low doses have been reported for such purposes. The aim of the present study was to evaluate the toxic response of the crustacean Daphnia similis exposed to individual and combined pharmaceuticals. Several experimental trials of an acute immobilization test were performed with a mixture of pharmaceuticals composed of fluoxetine hydrochloride (Prozac®), and propranolol. Single pharmaceuticals were first tested separately. Toxicity of binary mixture was then assessed using five concentrations and 5 percentages of each substance in the mixture (0, 25, 50, 75, and 100%). Acute EC50% values ranged from 5.0 to 7.4 for fluoxetine and from 11.3 to 13.7 for propranolol. In mixture, values ranged from 6.4 to 9.8. Fluoxetine was more toxic for D.similis than propranolol. The different pharmaceuticals concentrations employed in a mixture showed no difference in toxicity values. When electron beam irradiation was applied, approximately 80% of acute effects were reduced at 5 kGy, and the mixture containing a higher percentage of fluoxetine, also showed a greater reduction of toxicity.Artigo IPEN-doc 25837 Toxicity and environmental impacts approached in the dyeing of polyamide, polyester and cotton knits2019 - ROSA, JORGE M.; GARCIA, VANESSA S.G.; BOIANI, NATHALIA F.; MELO, CAMILA G.; PEREIRA, MARIA C.C.; BORRELY, SUELI I.Three colouration process was analyzed, in which consumption of water, the spent of electrical and thermal energy, emission of carbon dioxide besides effluent toxicity of dyeing of polyamide, cotton and polyester knits were approached. the dyeing of polyamide knit presented lowest consumption of electrical energy, the dyeing of polyester knit presented the lowest consumption of thermal energy and emission of co2 molecules into atmosphere, and the effluent of cotton dyeing presented lowest acute toxicity (CE50) to Daphnia similis.Artigo IPEN-doc 25766 Electron beam irradiation of textile effluents and non-ionic ethoxylated surfactant for toxicity and color removal2019 - BORRELY, S.I.; SILVA, L.G.A.; DEL SOLE, S.V.; GARCIA, V.S.G.; BOIANI, N.F.; ROSA, J.M.Textile industry has an expressive scenario in the world economy and Brazil is the 5th in the textile production. By 2015, Brazilian textile production represented US $ 39.3 billion, accounting for more than 1.8 million tons of fabric. The effluents from textile industry are highlighted by quantity of wastewater discharged and variety of substances (dyes, bleaching agents, surfactants, salts, acids, among others). Such compounds often prove to be toxic to aquatic biota. This present study aims to assess toxicity of whole effluents, before and after irradiation (by electron beam accelerator, EBI). In addition, the reduction of the effluent color after irradiation is also very important. Daphnia similis and Vibrio fischeri were the biological systems applied for toxicity evaluations. Previous results demonstrated the surfactant as the main toxic compound, in the untreated and irradiated forms, EC 50 = 0.44 ppm ± 0.02 (untreated); EC 50 = 0.46 % ± 0.07 (irradiated). The irradiation was effective for reducing color of the effluent, starting from 0.5 kGy. EB irradiation may be proposed as an alternative treatment for the final effluent from textile processing, mainly for reuse purposes.Artigo IPEN-doc 25723 Emerging pollutants, related toxicity, and water quality decreasing2018 - BORRELY, S.I.; ROSA, J.M.; BOIANI, N.F.; GARCIA, V.S.G.; SOUSA, A.L.The quality of drinking water is decreasing in distinct parts of the globe. Among the major sources of aquatic environmental pollution we have tannery wastewaters (TW). Pharmaceuticals into waters are reported as emerging pollutants and both of them are also related to surfactants and dyes usage during the manufacture. TW was the worst in terms of toxicity and organic matter, referred as chemical oxygen demand, when compared to surfactants, textile and pharmaceuticals considered in the present study. From the five surfactants alkylene oxide was relatively more toxic than the others to dafnids. The intention of the selected results, figures and discussion was to highlight so wide types and ways for water contamination as well as to demonstrate health and ecological risks related to effluent emissions by different productive sectors. When excessive amount of pollutants are introduced into the rivers they may reduce their biodegradation dynamics, reducing aquatic life diversity and relevant ecological services. Some important contributions to improve effluents control and treatment have also been discussed.Artigo IPEN-doc 24132 Electron beam irradiation of textile effluents and non-ionic ethoxylated surfactant for toxicity and color removal2017 - SOLE, STEPHANIE V. DEL; GARCIA, VANESSA S.G.; BOIANI, NATHALIA F.; ROSA, JORGE M.; SILVA, LEONARDO G. de A. e; BORRELY, SUELI I.Textile industry has an expressive scenario in the world economy and Brazil is the 5th in the textile production. By 2015, Brazilian textile production represented US $ 39.3 billion, accounting for more than 1.8 million tons of fabric (ABIT, 2017). The effluents from textile industry are highlighted by quantity of wastewater discharged and variety of substances (dyes, bleaching agents, surfactants, salts, acids, among others). Such compounds often prove to be toxic to aquatic biota. This present study aims to assess toxicity of whole effluents, before and after irradiation (by electron beam accelerator, EBI). In addition, the reduction of the effluent color after irradiation is also very important. Daphnia similis and Vibrio fischeri were the biological systems applied for toxicity evaluations. Previous results demonstrated the surfactant as the main toxic compound, in the untreated and irradiated forms, EC 50 = 0.44 ppm ± 0.02 (untreated); EC 50 = 0.46 % ± 0.07 (irradiated). The irradiation was effective in reducing the color of the effluent, starting from 0.5 kGy. EB radiation may be proposed as an alternative treatment for the final effluent from textile processing, mainly for reuse purposes.Dissertação IPEN-doc 18165 Avaliação da toxicidade em água e sedimento do Rio Cubatão-SP2012 - GARCIA, VANESSA S.G.O monitoramento de corpos hídricos receptores de efluentes pode ajudar na manutenção e conservação desses locais, pois os poluentes podem alterar o equilíbrio, a estrutura e o funcionamento do ecossistema. Neste aspecto, o estudo em sedimentos é importante ao permitir uma avaliação mais abrangente do ecossistema aquático, onde diferentes contaminantes podem estar associados ao sedimento em concentrações superiores às das águas, podendo resultar em impactos negativos à biota aquática, a depender da biodisponibilidade. A cidade de Cubatão abriga um dos maiores pólos industriais do Brasil, onde a descarga constante de efluentes industriais e domésticos no rio Cubatão e seus afluentes acabou ocasionando um panorama de degradação dos rios. A Bacia do Rio Cubatão esta localizada entre a Grande São Paulo e a Baixada Santista, com área de 177 km2, aproximadamente. O rio Cubatão é o principal rio da região, abastecendo as cidades de Cubatão, Santos, São Vicente e parte dos municípios de Praia Grande e Guarujá. Além do abastecimento de água para a população, o rio também abastece o pólo industrial de Cubatão. O objetivo deste trabalho foi avaliar efeitos agudos e crônicos de amostras de água e de sedimento do rio Cubatão e dois de seus afluentes (Perequê e Pilões), por meio de ensaios ecotoxicológicos. Os organismos aquáticos empregados nos ensaios foram Ceriodaphnia dubia e Vibrio fischeri para avaliação de água e Hyalella azteca para avaliação de sedimento integral. A análise de crescimento corpóreo destes últimos também foi realizada. Além disso, foram realizadas Análises Químicas Instrumentais e Análise por Ativação Neutrônica em amostras de sedimentos. O estudo foi realizado entre 2010 e 2011, totalizando quatro campanhas. Foram coletadas amostras de água em nove pontos da Bacia do Rio Cubatão, e amostras de sedimento em seis pontos. Através dos ensaios realizados com V. fischeri pôde ser verificada toxicidade em todos os pontos amostrados com valores de CE(I)50 que variaram entre 31,25% e 71,61%. Os resultados obtidos com exposição de C. dubia não identificaram toxicidade, com base na análise estatística utilizada (Teste t por bioequivalência). Os ensaios de toxicidade para efeitos agudos do sedimento integral em H.azteca resultaram em toxicidade para as amostras de P2 e P5 (2ª e 4ª campanhas), com uma mortalidade superior a 50% dos organismos expostos. A análise de crescimento corpóreo identificou menor crescimento corpóreo nos organismos expostos ao sedimento coletado em P4 e P5. Com relação aos sedimentos coletados no ponto P5, os compostos endrin, dibenzeno(a,h)antraceno e antraceno ultrapassaram os valores recomendados pela Resolução Conama 344/04. Os resultados das Análises por Ativação Neutrônica evidenciaram maior contaminação por metais nos sedimentos originários de P5 e PI.