Apparel Industry Leaks Millions of Tons of Plastic Into Environment Each Year, Study Finds
A new study finds that waste from the global apparel industry is leaking millions of tons of plastic into the environment each year – an overlooked pollution source which may be getting worse over time.
The findings are detailed in a recent study from North Carolina State University researchers, which found that global apparel consumption resulted in over 20 million tons of plastic waste in 2019. Around 40% of that waste may have been improperly managed and become environmental pollution, a process known as “plastic leakage.”
Textile waste was divided between two sources; clothing made from synthetic materials like polyester, nylon and acrylic, and clothing made from cotton and other natural fibers. Researchers looked at plastic waste generated across an apparel product’s “value chain,” which refers to the entire lifecycle of a product – including, for example, not only the piece of apparel itself, but the plastics used to wrap it.
“We analyzed data on imports, exports and apparel production in countries all over the world,” said Richard Venditti, professor of paper science and engineering at NC State and co-author of the study. “Then we compared that to existing global information on different stages of the apparel value chain to estimate how much plastic leaks into the environment at each of those points.
“Much of the plastic waste that leaks into the environment comes from clothes that are thrown away, especially synthetic apparel,” Venditti said. “There is also waste from manufacturing, packaging and even from tire abrasion during transport, as well as microplastics which get pulled into the water when we wash our clothes.”
Researchers found that synthetic apparel was by far the largest source of plastic waste. The synthetic value chain accounted for 18 million tons of waste in 2019, making up 89% of all plastic waste from the global apparel industry that year. Of that, researchers estimated that around 8.3 million tons may have leaked into the environment.
Meanwhile, cotton clothing accounted for 1.9 million tons of plastic waste, with the final 0.31 million tons coming from fibers other than synthetic textiles or cotton. As opposed to the end-of-life plastic waste created by discarded synthetic apparel, plastic waste from cotton and other fibers came almost entirely from the plastic used in packaging.
Researchers found that where apparel was sold is not necessarily where plastic waste leaks into the environment. For apparel originally sold in high-income countries like the United States, Japan and many others, most of the resulting pollution happened in lower-income countries where these pieces of clothing might be sold in the secondary market.
This finding points to a major concern with how people in higher-income countries consume apparel.
“What we’re seeing is that in countries like the United States, we have a ‘fast fashion’ culture where we buy a lot of clothes and don’t keep them for very long,” Venditti said. “When we discard those clothes, they either go into landfills or, more often, they end up in thrift stores. Some of the clothes that go to these stores are sold in the U.S., but often they end up going to other countries that do not have waste management systems robust enough to handle that kind of volume. That is where you end up with a large amount of plastic leaking into the environment.”
The study concludes that significant changes in the apparel sector need to be made to move the industry toward a more circular framework, where materials are recycled and do not become waste. The study also recommends increasing the use of renewable, non-synthetic textiles.
The paper, “The global apparel industry is a significant yet overlooked source of plastic leakage” appears in the open-access journal Nature Communications. The paper’s corresponding author is Anna Kounina of Quantis. Co-authors include Jesse Daystar, Sophie Chalumeau, Jon Devine, Roland Geyer, Steven T. Pires, Shreya Uday Sonar and Julien Boucher.
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This post was originally published in NC State News.
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