Effects of textile dyes on health and the environment and bioremediation potential of living organisms
Bruno Lellis, Cíntia Zani Fávaro-Polonio, João Alencar Pamphile, Julio Cesar Polonio
Abstract
The water is an essential resource for life on the planet and for human development. The textile industry is one of the anthropogenic activities that most consume water and pollute water bodies. Therefore, the present work aims to undertake a review on the main effects of the release of industrial dyes and the essential bioremediation mechanisms. The textile dyes significantly compromise the aesthetic quality of water bodies, increase biochemical and chemical oxygen demand (BOD and COD), impair photosynthesis, inhibit plant growth, enter the food chain, provide recalcitrance and bioaccumulation, and may promote toxicity, mutagenicity and carcinogenicity. In spite of this, the bioremediation of textile dyes, that is, the transformation or mineralization of these contaminants by the enzymatic action of plant, bacteria, extremophiles and fungi biomasses is fully possible. Another option is the adsorption. Despite some disadvantages, the bioremediation is essentially positive and can be progressively enhanced by modern biotechnological techniques that are related to the generation of more degrading and more resistant engineered organisms. This is a sustainable solution that provides a fundamental and innovative contribution to conventional physicochemical treatments. The resources of environmental biotechnology can, therefore, be used as tangible technological solutions for the treatment of textile dye effluents and are related to the ethical imperative of ensuring the minimum necessary for a quality life for the humankind.
Keywords
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Exploring the phytoremediation potential of cactus (Nopalea cochenillifera Salm. Dyck.) cell cultures for textile dye degradation
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Environmental Monitoring and Assessment, 189 (2) (2017), p. 88
Chandanshive et al., 2016
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L.N. Du, B. Wang, G. Li, S. Wang, D.E. Crowley, Y.H. Zhao
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Journal of Hazardous Materials, 205 (2012), pp. 47-54
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M.R. El-Aassar, H. Fakhry, A.A. Elzain, H. Farouk, E.E. Hafez
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International Journal of Biological Macromolecules, 120 (2018), pp. 1508-1514
Farraji, 2014
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H.A. Aziz, A Mojiri (Eds.), wastewater engineering: Advanced wastewater treatment systems, IJSR Publications, Penang (2014)
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S.K. Kadam, V.V. Chandanshive, N.R. Rane, S.M. Patil, A.R. Gholave, R.V. Khandare, et al.
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The role of Aster amellus Linn. in the degradation of a sulfonated azo dye Remazol Red: a phytoremediation strategy
Chemosphere, 82 (8) (2011), pp. 1147-1154
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R.V. Khandare, N.R. Rane, T.R. Waghmode, S.P. Govindwar
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