Academic literature on the topic 'Disperse Red 73'

The level dyeing index (LDI) is a measure of dye performance influenced by the dye migration process, ensuring the maximum uniformity of dye redistribution onto the fabric surface. The current study evaluates the level dyeing performance on polyester according to the energy level (low and high) and chemical classes (azo and anthraquinone based) of the three disperse dyes studied. The best levelness was obtained using C.I. Disperse Red 73 (an azo-based, low-energy level disperse dye), which exhibited the highest migration index (MI%) value. LDI results were obtained from the ratio of the exhaustion at the critical dyeing temperature (ECDT% and the final exhaustion Ef%), and the migration index (MI%). Each dye's LDI can be used to determine the compatibility of disperse dyes for combination dyeing.

Invasion by weeds and other undesirable plants threatens global biodiversity. However, the role of mammals in maintaining and spreading weeds is often overlooked. Here we confirm that two widely distributed and abundant Australian mammalian pests, the European Rabbit (Oryctolagus cuniculus) and the Red Fox (Vulpes vulpes), can spread viable seed. Our assessment mainly involved determining the number and viability of seeds recovered from faeces of free-ranging individuals inhabiting several areas within the Mediterranean region of south-western Australia, an internationally recognized biodiversity hotspot. In summer, viable seeds were recovered from 3?4% of the rabbit faecal pellets (n = 190) compared to 21?40% of pellets in autumn (n = 235). Ten (77%) of the 13 species of seed identified were weeds. Of the 1,136 seeds recovered, 16% germinated. In all, 13-30% of rabbits passed viable seeds in summer, increasing to 44?73% of rabbits in autumn. In captive wild rabbits, mean passage time of marked seed through the intestinal tract ranged from 4?7 h. This, together with the small home ranges of Australian European rabbits, suggests that they may generally disperse seeds over 1?2 km. Nine to 27% of foxes passed viable seed. Although 48% of scats (n = 62) contained whole seed, only 12.9% of all scats contained viable seed (range 9.1%?19.0%). Viable seeds (4/8) were also recovered from the hides of some shot foxes. In all, 63% (12/19) of seed species identified in the scats and pelts of foxes were weeds. Rabbits (primary dispersal) and foxes (primary, and secondary dispersal via seeds ingested with prey) may be important dispersers of viable seed, and may be essential for less common, but important, long-distance plant dispersal, particularly by some invasive species. Thus, suppression of weeds can be added to the benefits of reducing the abundance of rabbits and foxes to protect the unique biota and agricultural production in southwestern Australia.

Os corantes possuem grande importância nos diversos segmentos industriais, sendo utilizados em medicamentos, cosméticos, alimentos, roupas, plásticos, borracha, dentre outros. Atualmente, são produzidos no mundo mais de 7 x 105 toneladas de corantes por ano, sendo que aproximadamente 26.500 toneladas/ano são consumidas no Brasil. A produção desses compostos, apesar de ter grande importância econômica é alvo da preocupação ambiental, pois cerca de 2 a 50% dos corantes utilizados na indústria alcançam o ambiente aquático durante o processo de produção e de processamento têxtil. Desta forma aproximadamente 280.000 toneladas de corantes da indústria têxtil são descarregados nos efluentes industriais a cada ano no mundo. Dentro desse contexto, os estudos envolvendo a avaliação de risco de corantes e seus produtos de degradação são de grande importância para a análise do impacto que esses compostos podem causar à saúde humana e ao ecossistema. O Acid Black 210 é um azo corante frequentemente utilizado no tingimento do couro, algodão e tecido de lã, representando aproximadamente 80 a 90% do corante de cor preta utilizado na indústria. O Disperse Red 73 é um azo corante de cor vermelha, frequentemente utilizado no tingimento de tecidos. No entanto, não existem estudos publicados na literatura científica sobre o potencial genotóxico e toxicológico desses corantes e sobre o monitoramento da presença desses corantes em águas superficiais. Estudos preliminares realizados em nosso laboratório, mostraram que o corante Disperse Red 73 induziu mutagenicidade nas linhagens TA98 e TA100 de Salmonella typhimurium e que foi extremamente tóxico para a espécie de Daphnia similis em ensaios de toxicidade aguda. Desse modo, esse trabalho teve como objetivo avaliar o potencial mutagênico dos corantes Acid Black 210 e Disperse Red 73 através do ensaio de micronúcleo em células HepG2 e avaliar os efeitos ecotoxicológicos agudos do corante Acid Black 210 utilizando os organismos da espécie Daphnia similis. Adicionalmente foram realizados os ensaios de avaliação de proliferação celular, ensaio de avaliação da morte celular por necrose e apoptose e ensaio de parada do ciclo celular utilizando o corante Acid Black 210 em células HepG2. Os resultados obtidos mostraram que o corante Disperse Red 73 não induziu danos cromossômicos em células HepG2 nas condições testadas. O Acid Black 210 não provocou a morte celular por apoptose e/ou necrose, em altas concentrações provocou parada no ciclo celular e induziu a citotoxicidade nos ensaios de proliferação celular. Os ensaios de micronúcleo realizados com o corante Acid Black 210 foram inconclusivos. Portando, os resultados obtidos nesse trabalho mostram que não ha indícios de que o corante Disperse Red 73 induza mutações cromossômicas e sugerem que o corante Acid Black 210 possua baixa toxicidade. No entanto, outros ensaios serão necessários, para que seja realizada uma avaliação de risco ambiental e para os seres humanos. Os resultados obtidos nesse trabalho juntamente com outros resultados do nosso grupo de pesquisa fornecerão subsídios para a realização da avaliação do perigo e caracterização do risco de exposição dos seres vivos a esses corantes.
Dyes and pigments are important compounds in different areas, for example in the medicine, cosmetic, food, clothing, plastic, rubber, and other industries. Currently, the production of these compounds is around 7 x 106 tons per year all over the world, with 26,500 tons per year being consumed in Brazil. The production of dyes, despite its economic relevance, is a subject of environmental concern, because 2 to 50 % of dyes are discharged directly into wastewater during their production process, corresponding to approximately 280,000 t of textile dyes being discharged in the environment worldwide through industrial effluents every year. In this context, the studies of the risk assessment of the dyes and their degradation products are very relevant to assess the impact of these compounds to the human health and the ecosystem. The Acid Black 210 is an azo dye commonly used in the dyeing of leather, cotton, and wool, representing approximately 80 to 90 % of the black dye used in the industry. However, there are not published studies in the scientific literature about the genotoxic potential and the toxicological concerns of this dye, including its monitoring presence in surface waters. Preliminary studies in our laboratory had shown that the Disperse Red 73 dye induces mutagenicity in the TA98 and TA100 Salmonella typhimurium strains and it is extremely toxic to Daphnia similis in acute toxicity tests. Thus, this study aimed to evaluate the mutagenic potential of the dyes Acid Black 210 and Disperse Red 73 through the micronucleus assay in HepG2 cell, and the acute ecotoxicological effects of the dye Acid Black 210 using the Daphnia similis test. Additionally, it was performed cell proliferation tests, the evaluation of the cell death by apoptosis and necrosis, and the cell cycle arrest assay using the Acid Black 210 dye in HepG2 cells. The results obtained in this study showed that the Disperse Red 73 dye did not induce chromosomal damage in HepG2 cells under the conditions tested. Acid Black 210 dye did not cause cell death by apoptosis and/or necrosis, at higher concentrations cause arrest cell cycle and induced cytotoxicity in cell proliferation assays. Micronucleus assays performed with the dye Acid Black 210 showed inconclusive. Therefore, the results of this study show that there is no evidence that the Disperse Red 73 dye induces chromosomal mutations and suggest that the Acid Black 210 dye has low toxicity. However, other tests will be required to do environmental and human risk assessments of these dyes. The results of this study along with other results of our research group will provide these additional requirements.