International Journal of Academic Research in Business and Social Sciences

search-icon

A Review on Textile and Clothing Industry Impacts on The Environment

Open access

Nur Farzanah Binti Norarmi, Noor Husna Binti Tajudin, Nur Syafiqah Hadirah Binti Hafizo, Wan Nur Syahiidah Binti Wan Mohd Luzi, Nur Aiffa Binti Md. Amin, Siti Fahada Noor Binti Aziz, Atiyyah Binti Haji Musa

Pages 2047-2055 Received: 13 Aug, 2022 Revised: 17 Sep, 2022 Published Online: 19 Oct, 2022

http://dx.doi.org/10.46886/IJARBSS/v12-i10/11996
The textile industry is a vital industry in the world in which the products serve the basic needs of people, as well as giving a quality enhancement or luxury in our daily life. This includes clothing, home furnishing, automotive textile, and many others. Nevertheless, textile processing is known to bring pollution to the environment and has a major effect on water, air, and soil. Hence, this review paper is divided into several sections. In the first part, factors and impacts of the textile industry on the environment are discussed. Next, the literature which discussed the effects of the pollution caused by the textile industry on others is reviewed. The following part is about the effect of pollution on humans, aquatic life, and plants. Several aspects of water pollution, air pollution, and soil pollution consequences are reviewed and the last part is ways to overcome the pollution. A variety of approaches were suggested and implemented globally such as chemical method, physical method and biological method, soil washing, and organic cotton production to combat the pollution or lessen the damage caused by the industry to the environment. As much as people need to live with textiles around them, they also need to ensure that the environment is not harmed by their actions.
Ananthashankar, A. G. R. (2013). Production, characterization and treatment of textile effluents: a critical review. J. Chem. Eng. Process Technol., 5(1), 1–18.
Annamalai, S., Santhanam, M., Selvaraj, S., Sundaram, M., Pandian, K., & Pazos, M. (2018). Green technology: bio-stimulation by an electric field for textile reactive dye contaminated agricultural soil. Sci. Total Environ., 624, 1649–1657.
Arachchige, U. S. P. R., Vithanage, K. D., Wadanambi, R. T., Wandana, L. S., Wijerathne, W. M. M. P., & Wimalarathne, N. R. G. S. S. (2019). Environmental impacts of textile industry in Sri Lanka. Int. J. Sci. Technol. Res., 8(9), 251–253.
Ardusso, L. R. F., and Fernandez-Caldas, E. (2018). The association between ambient air pollution and allergic rhinitis inception and control. Curr. Treat. Options Allergy, 5(2). 221–235.
Awomeso, J. A., Taiwo, A. M., Gbadebo, A. M., and Adenowo, J. A. (2010). Studies on the pollution of water body by textile industry effluents in Lagos, Nigeria. J. Appl. Sci. Environ., 5(4). 353–359.
Berradi, M., Hsissou, R., Khudhair, M., Assouag, M., Cherkaoui, O., El Bachiri, A., & El Harfi, A. (2019). Textile finishing dyes and their impact on aquatic environs. Heliyon, 5(11), e02711.
Brysson, R. J., Trask, B. J., Upham, J. B., & Booras, S. G. (1967). The effects of air pollution on exposed cotton fabrics. Journal of the Air Pollution Control Association, 17(5), 294-298.
Chhonkar, P. K., Datta, S. P., Joshi, H. C., & Pathak, H. (2000). Impact of industrial effluents on soil health and Agriculture-Indian experience: Part II-Tannery and textile industrial effluents. J. Sci. Ind. Res. (India), 59(6), 446–454.
Chinta, S. K., Wasif, A., Kane, C. D., & Desai, J. R. (1995). Pollution in Textile Industry: Part-1 Air pollution. COLOURAGE, 42, 25-28.
Deng, H., Wei, R., Luo, W., Hu, L., Li, B., & Shi, H. (2020). Microplastic pollution in water and sediment in a textile industrial area. Environmental Pollution, 258, 113658.
Dheeba, B., & Sampathkumar, P. (2012). Evaluation of heavy metal contamination in surface soil around industrial area, Tamil Nadu, India. International Journal of ChemTech Research, 4(3), 1229-1240.
Gita, S., Hussan, A., & Choudhury, T. G. (2017). Impact of textile dyes waste on aquatic environments and its treatment. Environ. Ecol, 35(3C), 2349-2353.
Gupta, S., & Srivastava, R. K. (2020). Health Risk Assessment of a Soil Contaminated by the Textile Industry Waste (Sludge), (assessed Jan 20, 2021)
https://www.researchgate.net/publication/346965702_Health_Risk_Assessment_of_a_Soil_Contaminated_by_the_Textile_Industry_Waste_Sludge
Haseeb, M., Haouas, I., Nasih, M., Mihardjo, L. W., & Jermsittiparsert, K. (2020). Asymmetric impact of textile and clothing manufacturing on carbon-dioxide emissions: Evidence from top Asian economies. Energy, 196, 117094.
Holkar, C. R., Jadhav, A. J., Pinjari, D. V., Mahamuni, N. M., & Pandit, A. B. (2016). A critical review on textile wastewater treatments: possible approaches. Journal of environmental management, 182, 351-366.
Hossain, L., & Khan, M. S. (2020). Water Footprint management for sustainable growth in the bangladesh apparel sector. Water, 12(10), 2760.
Hubler, J., and Metz, K. (2013). Soil Washing, Geoengineer.org,” The International Information Center for Geotechnical Engineers, USA. (accessed Jan. 04, 2021).
https://www.geoengineer.org/education/web-class-projects/cee-549-geoenvironmental-engineering-winter-2013/assignments/soil-washing
Imran, M., Shaharoona, B., Crowley, D. E., Khalid, A., Hussain, S., & Arshad, M. (2015). The stability of textile azo dyes in soil and their impact on microbial phospholipid fatty acid profiles. Ecotoxicology and Environmental Safety, 120, 163-168.
Imtiazuddin, S. M., Tiki, S., & Chemicals, A. V. M. (2018). Impact of textile wastewater pollution on the environment. Pakistan Textile J, 10, 38-39.
Parvin, F., Islam, S., Akm, S. I., Urmy, Z., & Ahmed, S. (2020). A study on the solutions of environment pollutions and worker’s health problems caused by textile manufacturing operations. Biomedical Journal of Scientific & Technical Research, 28(4), 21831-21844.
Jaganathan, V., Cherurveettil, P., Chellasamy, A., & Premapriya, M. S. (2014). Environmental pollution risk analysis and management in textile industry: a preventive mechanism. European Scientific Journal.
Kant, R. (2011). Textile dyeing industry an environmental hazard. Nat. Sci., 4(1), 22–26.
Kolekar, Y. M., Pawar, S. P., Gawai, K. R., Lokhande, P. D., Shouche, Y. S., & Kodam, K. M. (2008). Decolorization and degradation of Disperse Blue 79 and Acid Orange 10, by Bacillus fusiformis KMK5 isolated from the textile dye contaminated soil. Bioresource technology, 99(18), 8999-9003.
Manzoor, S., Shah, M. H., Shaheen, N., Khalique, A., & Jaffar, M. (2006). Multivariate analysis of trace metals in textile effluents in relation to soil and groundwater. Journal of hazardous materials, 137(1), 31-37.
Mia, R., Selim, M., Shamim, A. M., Chowdhury, M., Sultana, S., Armin, M., ... & Naznin, H. (2019). Review on various types of pollution problem in textile dyeing & printing industries of Bangladesh and recommandation for mitigation. Journal of Textile Engineering & Fashion Technology, 5(4), 220-226.
Migo, V. P., Mendoza, M. D., Alfafara, C. G., & Pulhin, J. M. (2018). Industrial water use and the associated pollution and disposal problems in the Philippines. In Water Policy in the Philippines (pp. 87-116). Springer, Cham.
Muezzinoglu, A. (1998). Air pollutant emission potentials of cotton textile manufacturing industry. Journal of Cleaner Production, 6(3-4), 339-347.
Parvin, F., Ferdaus, Z., Tareq, S. M., Choudhury, T. R., Islam, J. M., & Khan, M. A. (2015). Effect of gamma-irradiated textile effluent on plant growth. International Journal of Recycling of Organic Waste in Agriculture, 4(1), 23-30.
Pokhriya, P., Rajput, R., Nautiyal, P., Panwar, P., Pandey, D., Daverey, A., ... & Arunachalam, K. (2020). Impact assessment of textile effluent on health and microbiota of agricultural soil in Bhagwanpur (Uttarakhand), India. SN Applied Sciences, 2(9), 1-10.
Roy, D. C., Biswas, S. K., Sheam, M. M., Hasan, M. R., Saha, A. K., Roy, A. K., ... & Tang, S. S. (2020). Bioremediation of malachite green dye by two bacterial strains isolated from textile effluents. Current research in microbial sciences, 1, 37-43.
Saini, R. D. (2017). Textile organic dyes: polluting effects and elimination methods from textile waste water. Int J Chem Eng Res, 9(1), 121-136.
Sait, S. T., Sorensen, L., Kubowicz, S., Vike-Jonas, K., Gonzalez, S. V., Asimakopoulos, A. G., & Booth, A. M. (2021). Microplastic fibres from synthetic textiles: Environmental degradation and additive chemical content. Environmental Pollution, 268, 115745.
Sakamoto, M., Ahmed, T., Begum, S., & Huq, H. (2019). Water pollution and the textile industry in Bangladesh: flawed corporate practices or restrictive opportunities?. Sustainability, 11(7), 1951.
Sangeetha, B. M., Rajeswari, M., Atharsha, S., Saranyaa, K., & Ramya, S. (2013). Cotton dust level in textile industries and its impact on human. International Journal of Scientific and Research Publications, 3(4), 1-6.
Sen, S. K., Patra, P., Das, C. R., Raut, S., & Raut, S. (2019). Pilot-scale evaluation of bio-decolorization and biodegradation of reactive textile wastewater: an impact on its use in irrigation of wheat crop. Water Resources and Industry, 21, 100106.
Silverman, L., & Viles JR, F. J. (1950). The determination of cotton textile dusts in air. Textile Research Journal, 20(2), 109-122.
Singh, R., Glick, B. R., & Rathore, D. (2020). Role of textile effluent fertilization with biosurfactant to sustain soil quality and nutrient availability. Journal of Environmental Management, 268, 110664.
Sriram, N., Reetha, D., & Saranraj, P. (2013). Biological degradation of reactive dyes by using bacteria isolated from dye effluent contaminated soil. Middle–East Journal of Scientific Research, 17(12), 1695-1700.
Tripathi, P., Pranaw, K., Sahu, R., & Sexena, P. (2014). Evaluation of water pollution due to textile industries in Pali, Rajasthan. academia.edu.
Tufekci, N., Sivri, N., & Toroz, I. (2007). Pollutants of textile industry wastewater and assessment of its discharge limits by water quality standards. Turkish Journal of Fisheries and Aquatic Sciences, 7(2).
Turhan, K., Durukan, I., Ozturkcan, S. A., & Turgut, Z. (2012). Decolorization of textile basic dye in aqueous solution by ozone. Dyes and Pigments, 92(3), 897-901.
Watari, T., Hata, Y., Hirakata, Y., Nguyet, P. N., Nguyen, T. H., Maki, S., ... & Yamaguch, T. (2021). Performance evaluation of down-flow hanging sponge reactor for direct treatment of actual textile wastewater; Effect of effluent recirculation to performance and microbial community. Journal of Water Process Engineering, 39, 101724.
https://www.fibre2fashion.com/industry-article/3396/the-importance-of-textiles.
Yaseen, D. A., & Scholz, M. (2018). Treatment of synthetic textile wastewater containing dye mixtures with microcosms. Environmental Science and Pollution Research, 25(2), 1980-1997.
Yaylal?-Abanuz, G. (2011). Heavy metal contamination of surface soil around Gebze industrial area, Turkey. Microchemical Journal, 99(1), 82-92.
Zubair, M., Farid, M., Danish, M., & Zafar, M. N. (2017). Evaluation of air pollution sources in selected zone of textile industries in Pakistan. Environmental Engineering & Management Journal (EEMJ), 16(2).
In-Text Citation: (Norarmi et al., 2022)
To Cite this Article: Norarmi, N. F. B., Tajudin, N. H. B., Hafizo, N. S. H. B., Luzi, W. N. S. B. W. M., Amin, N. A. B. M., Aziz, S. F. N. B., & Musa, A. B. H. (2022). A Review on Textile and Clothing Industry Impacts on The Environment. International Journal of Academic Research in Business and Social Sciences, 12(10), 2047– 2055.