BIOREMEDIATION OF HEAVY METALS FROM THE TEXTILE EFFLUENT AND ITS IMPACT ON CROP PLANTS
Keywords:
Bioremediation,, Textile Effluent, Heavy Metals, Biosorption, Microbial DegradationAbstract
This research paper provides an in-depth analysis of the environmental impacts of the textile industry, focusing on the challenges posed by dye-laden wastewater. It highlights the limitations of conventional physical, chemical, and biological treatment methods and emphasizes the potential of bioremediation as an effective alternative. The study showcases the roles of various microorganisms, particularly bacteria and fungi, in biosorption and biodegradation processes. Additionally, it underscores the benefits of using treated effluents for agricultural purposes, assessing crop yield and biochemical parameters. This comprehensive examination offers valuable insights into sustainable wastewater management and its implications for environmental and agricultural applications.
References
Anon D.B. 1949, Copper enzymes in isolated choloroplasts, polyphenols oxidase in Beta vulgaris plant physiol.24:1-5
APHA, AWWA and WPCF (1989). Standard methods for the examination of water and waste water 17th edn, Am. Wat. Works assoc., wat.pollut. control fedn., Washington, D.C
Asoka C., Geetha Ms SB, sullia SB (2002). Asian J.Microbial. Biotech. Environ. Sci 4:65-68
Bates, LS., Waldeen, R.P and Teare, I.D(1973). Rapid determination of free proline in water stress studies. Plant soil. 39;205-208
Bremner J.M 1979. Total nitrogen. In Black C.A (ed), Methods of soil analysis, chemical and microbiological properties, 5th Ed. Agronomy 9. Part 2, Madison, Wiscongin U. S.A.
Dagley, s. (1965). Degradation of the benzene nucleus by bacteria. Sci.Progr. 53:381-392.
Dubois, M.K, M/K Gilles, J.k Hamilton, P.A and Smith F. (1951). A colorimetric method for the determination of sugars, Nat, 166-167.
Glazer AN (1997) Microbial Biotechnology WH Freeman and Company New York. pp 54-58.
Hardman Dj, Mc Eldowny S, watie S (1993). Pollution ecology and biotreatment, long scientific and technical publishers Singapore, pp.1056-1059
Hu.,T.L Water Sci Technol, 1992, 26, 357-366.
Mala, R and saravana Babu, S. (2004) Management of textile mill primary slude through vermin biotechnology, In: Nat. Conf. on perspectives and Futristic Bioscience and Research. Nov: 18-20 Holy cross college, Trichy, India.
Mayer A.M and Harel, E. (1979). Polyphenol oxidases in plants. Phytochem 18:193-215.
Misra, P.S., Mertz, E.T and Glover, D.V (1975). Estimation of free amino acid General Chem., 52:844
Rajendran,P and Gunasekaran, MJP Publishers,2006,138-159
Robinson,T., G.Mc.Mullan ., Mardhant P., Nigam., P. Bioresource Technol, 2001-77. 247-255
Smith P.B 1985. Biochemical identification of new species and bio groups of Enterobacteriaceae isolated from clinical specimens. J. Clin. Microbiol. 21:46-76.
Zollinger, H., VCH Publishers, NewYork, 1987, 92-100.
Downloads
Published
Issue
Section
License
Copyright (c) 2024 P. Anu Priya (Author)
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
