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1. Kapilraj, N., Keerthanan, S., Sithambaresan, S., Natural plant extracts as acid-base indicator and determination of their pka value, J. Chem., 2019, 6, 2019. https://doi.org/10.1155/2019/2031342.

2. Chukwu, O., Odu, C., Chukwu, D., Hafiz, N., Chidozie, V., Onyimba, L., Application of extracts of henna (Lawsonia inarmis) leaves as a counter stain. Afr. J. Microbiol. Res., 5, 3351, 2011.

3. Tiford, M., The long history of hematoxylin. J. Biotechnic Histochem., 80, 73, 2005.

4. Gharravi, A.M., Golarlipour, M.J., Ghorbani, R., Khazaei, M., Natural dye for staining astrocytes and neurons. J. Neuro. Sci. (Turkisk), 23, 215, 2006.

5. Avwioro, O.G., Onwuka, S.K., Moody, J.O., Agbedahunsi, J.M., Oduola, T., Ekpo, O.E., Oladele, A.A., Curcuma longa extract as a histological dye for collagen fibres and red blood cells. J. Anat., 210, 600, 2007.

6. Suabjakyong, P., Romratanapun, S., Thitipramote, N., Extraction of natural histological dye from black plum fruit (Syzygium cumini). J. Microsc. Soc. Thailand, 4, 13, 2011.

7. Muhammed, A.O., Olutunde, O.A., Benard, S.A., Muhammad Ahmad, A.T., Omoowo, B.T., Hibiscus-Shorgum: A New Morphological Stain in Neuro-Histology. Int. J. Health Res. Innovation, 4, 31, 2016.

8. Richhariya, G., Kumar, A., Tekasakul, P., Gupta, B., Natural dyes for dye sensitized solar cell: A review, Renew. Sustain. Energy Rev., 69,705, 2017.

9. Desalegn, J.G., Sisay, T.A., Teketel, Y.A., Dye sensitized solar cells using natural pigments from five plants and quasi-solid state electrolyte. J. Braz. Chem. Soc., 26, 1, 2015. http://dx.doi.org/10.5935/0103-5053.20140218.

10. Sivakumar, V., Vijaeeswarri, J., Anna, J.L., Effective natural dye extraction from different plant materials using ultrasound. Ind. Crops Prod., 33, 116, 2011.

11. Goktas, O., Duru, M.E., Yeniocak, M., Ozen, E., Determination of the color stability of an environmentally friendly wood stain derived from laurel (Laurus nobilis L.) leaf extracts under UV exposure. Forest Prod. J., 58, 77, 2008.

12. Savvidou, M.I. and Economides, D.G., Colour gamut produced by applying mixtures of natural dyes on de-inked mechanical pulp. Color Technol., 123, 2, 119–23, 2007.

13. Van Dam, J.E., Den, van, Oever, M.J., Keijsers, E.R., van der Putten, J.C., Anayron, C., Josol, F., Peralta, A., Process for production of high density/high performance binder less boards from whole coconut husk: Part 2: Coconut husk morphology, composition and properties. Ind. Crops Prod., 24, 96, 2006.

14. Mansour, R., Natural dyes and pigments: Extraction and applications. In: Handbook of Renewable Material for Coloration and Finishing, M. Yusuf (Ed.), pp. 75-102, Scrivener Publishing, Massachusetts, 2018.

15. Samantha, K. and Agarwal, P., Review article on application of natural dyes on textiles. Indian J. Fibre Text. Res., 34, 384, 2009.

16. Kumar, R. and Tripathi, Y. C., Natural dye from forest biomass. Training manual on extraction technology of natural dyes & aroma therapy and cultivation value addition of medicinal plants, 1, 51, 2011.

17. Petrakis, E.A., Cagliani, L.R., Tarantilis, P.A., Polissiou, M.G., Consonni, R., Sudan dyes in adulterated saffron (Crocus sativus L.): Identification and quantification by 1H NMR. Food Chem., 217, 418, 2017.

18. Piatkowska, M., Jedziniak, P., Olejnik, M., Żmudzki, J., Posyniak, A., Absence of evidence or evidence of absence? A transfer and depletion study of Sudan I in eggs. Food Chem., 239, 598, 2018.

19. Christie, R.M., Environmental aspects of textile dyeing. Woodhead Publishing, Cambridge, 2007.

20. National Toxicology Program. Carcinogenesis bioassay of CI solvent yellow 14 (CAS No. 842-07-9) in F344/N rats and B6C3F1 mice (feed study). National Toxicology Program Technical Report Series, 226, 1, 1982.

21. Duman, O., Tunc, S., Polat, T.G., Adsorptive removal of triarylmethane-dye (Basic Red 9) from aqueous solution by sepiolite as effective and low-cost adsorbent. Microporous Mesoporous Mater., 210, 176, 2015.

22. Lacasse, K. and Baumann, W., Textile chemicals: Environmental data and facts, Springer, Dortmund, 2012.

23. Foguel, M.V., Ton, X.A., Zanoni, M.V., Maria Del Pilar, T.S., Haupt, K., Bui, B.T.S., A molecularly imprinted polymer-based evanescent wave fiber optic sensor for the detection of basic red 9 dye. Sens. Actuators B, 218, 222, 2015.

24. Sivarajasekar, N. and Baskar, R., Adsorption of basic red 9 on activated waste Gossypium hirsutum seeds: Process modeling, analysis and optimization using statistical design. J. Ind. Eng. Chem., 20, 2699, 2014.

25. Pohanish, R.P., Sittig’s Handbook of Toxic Hazardous chemicals and carcinogens, William Andrew, Amsterdam: Elsevier, Cambridge, 2017.

26. National Toxicology Program. NTP Toxicology and Carcinogenesis Studies of CI Basic Red 9 Monohydrochloride (Pararosaniline)(CAS No. 569-61-9) In F344/N Rats and B6C3F1 Mice (Feed Studies). National Toxicology Program Technical Report Series, 285, 1, 1986.

27. Ali, H.M., Shehata, S.F., Ramadan, K.M.A., Microbial decolorization and degradation of crystal violet dye by Aspergillus niger. Int. J. Environ. Sci. Technol., 13, 2917, 2016.

28. Mani, S., Bharagava, R.N., Exposure to crystal violet, its toxic, genotoxic and carcinogenic effects on environment and its degradation and detoxification for environmental safety. Reviews of environmental contamination and toxicology, P. de Voogt (Ed.), Vol. 237, pp. 71–104, Springer, Cham, 2016. https://doi.org/10.1007/978-3-319-23573-8_4.

29. Azmi, W., Sani, R.K., Banerjee, U.C., Biodegradation of triphenylmethane dyes. Enzyme Microb. Technol., 22, 185, 1998.

30. Newman, M.C., Fundamentals of ecotoxicology: The science of pollution, CRC Press, Boca Raton, 2015.

31. Bharagava, R.N., Mani, S., Mulla, S.I., Saratale, G.D., Degradation and decolourization potential of an ligninolytic enzyme producing Aeromonas hydrophila for crystal violet dye and its phytotoxicity evaluation. Ecotoxicol. Environ. Saf., 156, 166, 2018.

32. Littlefield, N.A., Blackwell, B.N., Hewitt, C.C., Gaylor, D.W., Chronic toxicity and carcinogenicity studies of gentian violet in mice. Toxicol. Sci., 5, 902, 1985.

33. Chakraborty, J. N., Fundamentals and practices in colouration of textiles, pp. 241–244, Woodhead Publishing India Pvt. Ltd., New Delhi, 2014.

34. Sharma, D., Gupta, C., Aggarwal, S., Nagpal, N., Pigment extraction from fungus for textile dyeing. Indian. J. Fibre Text., 37, 73, 2012.

35. Kasiri, M.B. and Safapour, S., Natural dyes and Antimicrobials for textiles, in: Green Materials for Energy, Products and Depollution, E. Lichtfouse, J. Schwarzbauer, D. Robert (Eds.), p. 229–286, Springer, New York, 2013.

36. Gulrajani, M.L. and Gupta, D., Natural dyes and application to textiles, Department of textile technology. Indian Institute of Technology, New Delhi, India, 1992.

37. Dedhia, E., Natural Dyes. Colourage, 45, 3, 45, 1998.

38. Gupta, K.C., Gupta, P., Singh, P., Singh, S.V., Agarwal, S., Chemistry of natural dyes, in: Natural Dyes: Scope and Challenges, 3rd Ed, M. Daniel, S.D. Bhattacharya, A. Arun, M.R. Vinay (Eds.), p. 7–34, Scientific Publishers, Jodhpur, India, 2006.

39. Vankar, P.S., Handbook on natural dyes for industrial applications, pp. 36–42, NIIR Project Consultancy Services, New Delhi, 2016.

40. Samanta, A.K., Bio-dyes, bio-mordants and bio-finishes: scientific analysis for their application on textiles [Online First]. IntechOpen.

41. Sangeetha, K., Gomathi, R., Bhuvaneshwari, M., Dyeing of silk fabric using lemon leaves extract with the effect of different mordants. Int. J. Innovative Res. Sci. Eng. Technol., 4, 6, 2015.

42. Mansour, H.F. and Heffernan, S., Environmental aspects on dyeing silk fabric with Sticta coronata lichen using ultrasonic energy and mild mordants. Clean Techn. Environ. Policy, 13, 207, 2011.

43. USA Antique Rugs of the Future (2004–2009) Azerbaijan Rugs, AATCC (2002) Technical manual. AATCC, North Carolina, 2002.

44. Teklemedhin, T.B. and Gopalakrishnan, L.H., Environmental friendly dyeing of silk fabric with natural dye extracted from Cassia singueana plant. J. Textile Sci. Eng., 3, 1, 2018.

45. Adeel, S., Habib, N., Arif, S., Rehman, F., Azeem, M., Batool, F., Amin, N., Microwave-assisted eco-dyeing of bio mordanted silk fabric using cinnamon bark (Cinnamomum verum) based yellow natural dye, Sustain. Chem. Pharm., 17,1, 2020.

46. Abdul Rahman, N.A., Tajuddin, R., Tumin, S.M., Optimization of natural dyeing using ultrasonic method and biomordant. Int. J. Chem. Eng. Appl., 4, 3, 2013.

47. Yusuf, M., Khan, S., A., Shabbir, M., Mohammad, F., Developing a shade range on wool by madder (Rubia cordifolia) root extract with gallnut (Quercus infectoria) as biomordant. J. Nat. Fibre, 14, 4, 2017.

48. Rani, N., Jajpura, L., Butola, B.S., Ecological dyeing of protein fabrics with Carica papaya l. leaf natural extract in the presence of bio-mordants as an alternative copartner to metal mordants. J. Inst. Eng. India Ser., 101, 19, 2020. https://doi.org/10.1007/s40034-020-00158-1.

49. Rather, L.J., Islam, S., Shabbir, M., Bukhari, M.N., Shahid, M., Khan, M.A., Mohammad, F., Ecological dyeing of Woolen yarn with Adhatoda vasica natural dye in the presence of biomordants as an alternative copartner to metal mordants. J. Environ. Chem. Eng., 4, 3041, 2016.

50. Aminoddin, H., Functional dyeing of wool with natural dye extracted from Berberis vulgaris wood and Rumex hymenosepolus root as biomordant. Iran. J. Chem. Chem. Eng., 29, 55, 2010.

51. Ansari, T.N., Iqbal, S., Barhanpurkar, S., Ecofriendly dyeing with Senegalia catechu using biomordant. Int. J. Creative Res. Thoughts, 6, 1351, 2018.

52. Yusuf, M., Green dyes and pigments: Classes and applications, pp. 30–41, Laxmi Book Publication, Solapur, 2016.

53. Maryam, A., Khan, S.I., Riaz, A., Ali, S., Noreen, S., Effect of mordants with the application of natural dye extracted from Allium cepa on natural fabric. Int. J. Home Sci., 5, 283, 2019.

54. Thangabai, T. and Kalaiarasi, K., Microwave-assisted natural dye extraction from Pterocarpus soyauxii.. Int. J. Eng. Technol. Sci. Res., 5, 4, 2018.

55. Wizi, J., Wang, L., Hou, X., Tao, Y., Ma, B., Yang, Y., Ultrasound-microwave assisted extraction of natural colorants from sorghum husk with different solvents. Ind. Crops Prod., 120, 203, 2018.

56. Merdan, N., Eyupoglu, S., & Duman, M. N., Ecological and sustainable natural dyes. In: Textile and Clothing Sustainability, S. S. Muthu (Ed.), pp. 1–42, Springer, Singapore, 2017.

57. Furry, M. S. and Morrison, B. V., Home dyeing with natural dyes, pp. 5–6, U.S. Department of Agriculture Miscellaneous publication no. 230, Washington, 1935.

58. Yusuf, M., Shabbir, M., Mohammad, F., Natural Colorants: Historical, Processing and Sustainable Prospects. Nat. Prod. Bioprospect., 7, 123, 2017.

59. Vankar, P.S. and Shankar, R., Ecofriendly ultrasonic natural dyeing of cotton fabric with enzyme pretreatments. Desalination, 230, 62, 2008.

60. Raja, A.S.M. and Thilagavathi, G., Influence of enzyme and mordant treatments on the antimicrobial efficiency of natural dyes on wool materials. Asian J. Text., 1, 138, 2011.

61. Kamel, M.M., El-Shishtawy, R.M., Yussef, B.M., Mashaly, H., Ultrasonic assisted dyeing: III. Dyeing of wool with lac as a natural dye. Dyes Pigm., 65, 103, 2005.

62. Vankar, P.S., Shanker, R., Srivastava, J., Ultrasonic dyeing of cotton fabric with aqueous extract of Eclipta alba. Dyes Pigm., 72, 33, 2007.

63. Vankar, P.S., Shanker, R., Dixit, S., Mahanta, D., Sonicator dyeing of cotton, wool and silk with the leaves extract. JTATM, 6, 1, 2009.

64. Haji, A., Naebeb, M., Cleaner dyeing of textiles using plasma treatment and natural dyes: A review, J. Clean. Prod., 265, 1, 2020.

65. Habip, D., Nigar, M., Mehmet, K., Dilek, K., The effect of plasma treatment on the dyeability of silk fabric by using Phytolacca decandra L. natural dye extract. Tekst. ve Konfeksiyon, 26, 262, 2016.

66. Haji, A., Improved natural dyeing of cotton by plasma treatment and chitosan coating. Optimization by response surface methodology. Cellulose Chem. Technol., 51, 975, 2017.

67. Saxena, S. and Raja, A., Natural Dyes: Sources, Chemistry, Application and Sustainability Issues, in: Roadmap to Sustainable Textiles and Clothing. Textile Science and Clothing Technology, S. Muthu (Ed.), p. 37–80, Springer, Singapore, 2014, https://doi.org/10.1007/978-981-287-065-0_2.

68. Boruah, S. and Kalita, B., Eco-printing of eri silk with turmeric natural dye. International Journal of Textile and Fashion Technology (IJTFT), 5, 27, 2015.

69. Kavyashree, M., Printing of textiles using natural dyes: A global sustainable approach [Online First]. IntechOpen.

70. Jimmy, K., Sung, W.P., Chen, R., Silk fabric painted with natural dye from Acacia catechu Willd–By using flour of wild taro (Colocasia esculenta (L.) Schott) as resist printing paste. Adv. Mater. Res., 1030, 434, 2014.

71. Teli, M.D. and Paul, R., Novel natural dye from coffee seed coat. Int. Dyer, 191, 29, 2006.

72. Lee, Y.H., Dyeing, fastness, and deodorizing properties of cotton, silk, and wool fabrics dyed with coffee sludge (Coff a arabica L.) extract. J. Appl. Polym. Sci., 103, 251, 2007.

73. Shanker, R. and Vankar, P.S., Dyeing cotton, wool and silk with Hibiscus mutabilis (Gulzuba). Dyes Pigm., 74, 464, 2007.

74. Dayal, R., Dobhal, P.C., Kumar, R., Onil, P., Rawat, R.D., Natural dye from Parthenium hysterophorus. Colourage, 55, 75, 2008.

75. Indi, Y.M. and Chinta, S.K., Application and properties of natural dye on cotton Phyllanthus reticulatus. Colourage, 55, 52, 2008.

76. Vankar, P.S. and Shanker, R., Ultrasonic Dyeing of cotton and silk with Nerium oleander flower. Colourage, 55, 90, 2008.

77. Mukherjee, A., Mitra, S., Konar, P., Mukherjee, A., Modification of natural yellow dyes for improvement of washing and light fastness. Colourage, 56, 74, 2009.

78. Kulkarni, S.S., Gokhale, A.V., Bodake, U.M., Pathade, G.R., Cotton dyeing with natural dye extracted from pomegranate (Punica granatum) Peel. Universal J. Environ. Res. Technol., 1, 135, 2011.

79. Srivastava, A., Priyanka, Parmar, M.S., Eco-friendly dyeing of natural fabrics using discarded litchi fruit peel., 2012. https://www.fibre2fashion.com/industry-article/6402/eco-friendly.

80. Jain, H., Dyeing of cotton fabrics with extracts of jamun tree and its products using natural mordants. Colourage, 60, 40, 2013.

81. Mohammad, S.I., Sarker, P., Mamun, A.A., Iqbal, S.M.F., Influence of natural mordants in coloration of cotton knitted fabric with mango seed kernel extract dyes. Int. J. Curr. Eng. Technol., 10, 358, 2020.

82. Rachel, D.A. and Hussain, B.M.Z., Healthcare textile dyed natural socks. Int. J. Res. Trends Innovation, 4, 79, 2019.

83. Chandel, S., Patel, J., Chauhan, A., Organic dye extraction from Brassica oleracea var. botrytis (cauliflower). Int. Res. J. Eng. Technol., 6, 498, 2019.

84. Singam, R.T., Marsi, N., Mamat, H., Rus, A.Z.M., Nasir, S.H., Shaari, M.F., Physical properties of natural dyes based on Lawsonia inermis, Azadiractha indica and Curcuma longa coated with superhydrophobic coating for textile applications. Int. J. Adv. Res. Eng. Technol., 11, 301, 2020.

85. Pan, N.C., Chattopadhay, S.N., Day, A., Dyeing of jute with natural dyes. Indian J. Fibre Text. Res., 28, 339, 2003.

86. Mathur, J.P., Mehta, A., Karnawat, R., & Bhandari, C.S.., Use of neem bark as wool colourant Optimum conditions of wool dyeing. Indian J. Fibre Text. Res., 28, 94-99, 2003.

87. Bechtold, T. and Mahmud-Ali, A., Mussak, Reuse of ash-tree (Fraxinus excelsior L.) bark as natural dyes for textile dyeing: Process conditions and process stability. Color. Technol., 123, 271, 2007.

88. Jayalakshmi, I. and Amsamani, S., Dyeing wool using biomordants. Colourage, 55, 102, 2008.

89. Mohammad, F., Yusuf, M., Shahid, M., Khan, S.A., Khan, M.I., Shahidul, I., Khan, M.A., Dyeing of wool with the extract of henna leaves using mixed metal mordants. Colourage, 59, 51, 2012.

90. Uddin, M.G., Extraction of eco-friendly natural dyes from mango leaves and their application on silk fabric. Text Cloth Sustain, 1, 7, 2015.

91. Swamy, V.N., Assessment of calorimetric, antibacterial and fastness properties of silk fabric dyed with Casuarina equisetifolia L. leaf extract. Indian J. Tradit. Knowl., 16, 714, 2017.

92. Banerjee, A.N., Kotnala, O.P., Maulik, S.R., Dyeing of eri silk with natural dyes in presence of natural mordants. Indian J. Tradit. Knowl., 17, 396, 2018.

93. Shukla, P., Upreti, D.K., Nayaka, S., Tiwari, P., Natural Dyes from Himalayas Lichens. Indian J. Tradit. Knowl., 13, 195, 2014.

94. Khan, M.A., Khan, M., Srivastava, P.K., Mohammad, F., Extraction of natural dyes from myrobalan, gallnut and pomegranate, and their application on wool. Colourage, 52, 53, 2005.

95. Lokhande, H.T. and Dorugade, V.A., Dyeing nylon with natural dyes. Am. Dyest. Rep., 88, 29, 1999.

96. Miah, M.R., Zakaria, Hossain, M.A., Dipto, A.I., Telegin, F.Y., Quan, H., Ecodyeing of nylon fabric using natural dyes extracted from onion outer shells: assessment of the effect of different mordant on color and fastness properties. Int. J. Sci. Eng. Res., 7, 1043, 2016.

97. Purwar, S., Application of natural dye on synthetic fabrics: A review. Int. J. Home Sci., 2, 283, 2016.

98. Elnagar, K., Elmaaty, T.A., Raouf, S., Dyeing of polyester and polyamide synthetic fabrics with natural dyes using ecofriendly technique. Journal of Textiles, 2014, 8, 2014.

99. Shahin, M.F., Ahmed, R.M., Marie, M.M., Optimizing the dyeing process of alkali-treated polyester fabric with dolu natural dye. Int. J. Eng. Res. Appl., 4, 35, 2014.

100. Guizhen, K., Dyeing properties on natural dye extracted from Rhizoma coptidis on acrylic fiber. Indian J. Fiber Text. Res., 39, 102, 2014.

101. Pruthi, N., Chawla, G.S., Yadav, S., Dyeing of silk with Barberry bark dye using mordant combination. Nat. Prod. Radiance, 7, 40–44, 2008.

102. Iqbal, S. and Ansari, T.N., Natural dyes: Their sources and ecofriendly use as textile materials. J. Environ. Res. Dev., 8, 683, 2014.

103. Shabbir, M., Islam, S.U., Bukhari, M.N., Application of Terminalia chebula natural dye on wool fiber–Evaluation of color and fastness properties. Text. Cloth. Sustain., 2, 1, 2017.

104. Susmitha, S., Vidyamol, K.K., Ranganayaki, P., Vijayaragavan, R., Phytochemical extraction and antimicrobial properties of Azadirachta indica (Neem). Global J. Pharmacol., 7, 316, 2013.

105. Feng, X.X., Zhang, L.L., Chen, J.Y., Zhang, J.C., New insights into solar UV-protective properties of natural dye. J. Cleaner Prod., 15, 366, 2007.

106. Grifoni, D., Bacci, L., Zipoli, G., The role of natural dyes in the UV protection of fabrics made of vegetable fibres. Dyes Pigm., 91, 279, 2011.

107. Mongkholrattansit, R., Krystufek, J., Wiener, J., Vikova, M., Dyeing, fastness and UV protection properties of silk and wool fabrics dyed with eucalyptus leaf extract by the exhaustion process. Fibres Text., 86, 94, 2011.

108. Desore, A. and Narula, S.A., An overview on corporate response towards sustainability issues in textile industry. Environ. Dev. Sustainability, 20, 1439, 2018.

109. Bhatia, S. C., Pollution control in textile industry. WPI Publishing. New Delhi, 2017.

110. Hossain, M.S., Das, S.C., Islam, J.M., Al Mamun, M.A., Khan, M.A., Reuse of textile mill ETP sludge in environmental friendly bricks–effect of gamma radiation. Radiat. Phys. Chem., 151, 77, 2018.

111. Muthu S.S., Introduction. In: Sustainability in the Textile Industry, Muthu S. (Ed.). pp. 1–7, Textile Science and Clothing Technology. Springer, Singapore, 2017.

112. Setiadi, T., Andriani, Y., Erlania, M., Treatment of textile wastewater by a combination of anaerobic and aerobic processes: A denim processing plant case, in: Southeast Asian Water environment (Biodiversity and Water environment), S. Ohgaki, K. Fukushi, H. Katayama, S. Takizawa, C. Polprasert (Eds.), p. 159–166, IWA Publishing, Oxford, 2006.

113. Vigneshpriya, D. and Shanthi, E., Physicochemical Characterization of Textile Wastewater. Int. J. Innovative Res. Dev., 4, 48, 2015.

114. Mahapatra, N.N., Textile dyes, p. 1–7, CRC Press, Woodhead Publishing India Pvt, Boca Raton, 2016.

115. Hassan, M.M. and Carr, C.M., A critical review on recent advancements of the removal of reactive dyes from dye house effluent by ion-exchange adsorbents. Chemosphere, 209, 201, 2018.

116. Shamey, R. and Zhao, X., Modelling, simulation and control of the dyeing process, p. 31–53, Elsevier, Amsterdam, 2014.

117. Imran, M., Crowley, D.E., Khalid, A., Hussain, S., Mumtaz, M.W., Arshad, M., Microbial biotechnology for decolorization of textile wastewaters. Rev. Environ. Sci. Biotechnol., 14, 73, 2015.

118. Aquino, J.M., Rocha-Filho, R.C., Ruotolo, L.A., Bocchi, N., Biaggio, S.R., Electrochemical degradation of a real textile wastewater using β-PbO2 and DSA® anodes. Chem. Eng. J., 25, 138, 2014.

119. Khatri, J., Nidheesh, P.V., Singh, T.A., Kumar, M.S., Advanced oxidation processes based on zero-valent aluminium for treating textile wastewater. Chem. Eng. J., 348, 67, 2018.

120. Sandhya, S., Biodegradation of azo-dyes under anaerobic condition: Role of azoreductase, in: Biodegradation of Azo-dyes, H.A. Erkurt (Ed.), p. 39–57, Springer, Berlin, 2010.

121. Rehman, K., Shahzad, T., Sahar, A., Hussain, S., Mahmood, F., Siddique, M.H., Siddique, M.A., Rashid, M.I., Effect of reactive black 5 azo-dye on soil processes related to C and N cycling. Peer J., 6, e4802, 2018.

122. Sharma, B., Dangi, A.K., Shukla, P., Contemporary enzyme based technologies for bioremediation: A review. J. Environ. Manage., 210, 10, 2018.

123. Khan, S. and Malik, A., Toxicity evaluation of textile effluents and role of native soil bacterium in biodegradation of a textile dye. Environ. Sci. Pollut. Res. Int., 25, 4446, 2018.

124. Clark, M., (Ed.), Handbook of textile and industrial dyeing: Principles, processes and types of dyes. Woodhead Publishing, Philadelphia, 2011.

125. Hunger, K., Industrial Dyes: Chemistry, Properties and Applications, Willey-VCH, Weinheim, 2003.

126. Thakur, I.S., Environmental Biotechnology: Basic Concepts and Applications, I.K. International Pvt, New Delhi, 2006.

127. Tiwari, S., Tripathi, A., Gaur, R., Bioremediation of plant refuges and xenobiotics, in: Principles and Applications of Environmental Biotechnology for a Sustainable Future, R.L. Singh (Ed.), p. 85–142, Springer Science, Singapore, 2016.

128. Mondal, S., Purkait, M.K., De, S., Advances in dye removal technologies, Springer, Singapore, 2018.

129. Asthana, V. and Shukla, A.C., Water security in India: Hope, despair, and the challenges of human development, Bloomsbury Publishing USA, 2014.

130. Chavan, R.B., Health and Environmental Hazards of Synthetic Dyes, https://www.fibre2fashion.com/industry-article/6909/health-and-environmental-hazards-of-synthetic-dyes, 2003.

*Corresponding author: taiyaba_ansari@rediffmail.com