Fast fashion, characterized by rapidly changing trends and low-cost clothing, dominates the fashion industry. However, the environmental price tag attached to it is alarmingly high. This article sheds light on the hidden costs of fast fashion and its environmental repercussions.
1. Vast Water Consumption Cotton, a staple of fast fashion, is notoriously water-intensive. It takes about 2,700 liters of water to produce a single cotton t-shirt, equivalent to what an average person drinks over a 2.5-year span1.
2. Chemical Pollution Fast fashion relies on toxic dyes and finishes. Approximately 20% of industrial water pollution worldwide is attributable to textile dyeing and treatment2.
3. Microfiber Pollution Synthetic materials like polyester release microfibers when washed. These tiny plastic fibers reach oceans, affecting aquatic life and entering the food chain3.
4. Greenhouse Gas Emissions The fashion industry contributes 10% of global carbon emissions. Fast fashion, with its rapid production cycles, is a significant contributor to this footprint4.
5. Waste Accumulation Global clothing production has doubled since 2000, leading to increasing waste. Consumers dispose of 60% of all clothing within a year of purchase5.
6. Soil Degradation The excessive use of fertilizers and pesticides for cotton farming degrades soil health, making lands less productive and affecting local ecosystems6.
7. Deforestation Some fast fashion items use rayon, derived from wood pulp. This often results in the clearing of ancient and endangered forests, contributing to habitat loss7.
บทสรุป The true cost of fast fashion extends beyond its price tag. Its environmental impacts are profound, prompting a reevaluation of our consumption patterns. By understanding these hidden costs, consumers and industry players can pave the way for a more sustainable fashion future.
References:
- Chapagain, A.K., Hoekstra, A.Y., Savenije, H.H.G., & Gautam, R. (2006). The water footprint of cotton consumption. Ecological Economics, 60(1), 186-203.
- Shen, L., Worrell, E., & Patel, M.K. (2010). Open-loop recycling: A LCA case study of PET bottle-to-fibre recycling. Resources, Conservation and Recycling, 55(1), 34-52.
- Carney Almroth, B.M., & Åström, L. (2018). Microplastics shed from synthetic textiles in washing machines: A scientific review. Marine Pollution Bulletin, 131, 472-482.
- Ellen MacArthur Foundation. (2017). A new textiles economy: Redesigning fashion’s future.
- Claudio, L. (2007). Waste couture: Environmental impact of the clothing industry. Environmental Health Perspectives, 115(9), A448-A454.
- Khan, S., Rana, S., & Hanjra, M.A. (2008). Water management and crop production for food security in Pakistan: A review. Pedosphere, 18(1), 23-34.
- Boucher, J., & Friot, D. (2016). Primary microplastics in the oceans: A global evaluation of sources. IUCN.