Polyester sweaters may seem cozy on a winter day, but environmental scientists say microscopic plastic fibers released when they are washed have the potential to harm marine life.
Nearly 2,000 polyester fibers can float away, unseen, from a single fleece sweater in one wash cycle, a new study reports. Synthetic lint likely makes its way through sewage-treatment systems and into oceans around the world.
The consequences of this widespread pollution are still hazy, but environmental scientists say the microscopic plastic fibers have the potential to harm marine life.
Larger bits of plastic, such as those in the infamous Great Pacific Garbage Patch, gradually break down into microscopic fragments. And minute plastic fibers have turned up before in treated sewage and on beaches. But no one had looked at the issue on a global scale, said ecologist Mark Browne of University College Dublin.
Browne and his team recruited colleagues on six continents to scoop sand from 18 beaches. Back in the lab, the researchers painstakingly separated the plastic from the sand; the process involved, among other things, hand-plucking microscopic fibers from filter papers. A chemical analysis showed that nearly 80 percent of those filaments were made of polyester or acrylic, compounds common in textiles.
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Not a single beach was free of the colorful synthetic lint. Each cup of sand contained at least two fibers and as many as 31. The most contaminated samples came from areas with the highest human population density, suggesting that cities were an important source of the lint.
Cities come with sewers, and Browne’s team thought the plastic fibers might enter the ocean via sewage. Sure enough, synthetic lint was relatively common in both treated wastewater and in ocean sediments from sites where sewage sludge had been dumped. In all the samples, the fibers were mainly polyester and acrylic, just like the ones from the beaches.
Finally, the researchers wanted to see how synthetic lint got into sewage in the first place. Given its polyester-acrylic composition, they thought clothing and blankets were a good bet. So they purchased a pile of polyester blankets, fleeces and shirts and commandeered three volunteers’ home washing machines for several months.
They collected the wastewater from the machines and filtered it to recover the lint. Each polyester item shed hundreds of fibers per washing, the team reports in the Nov. 1 issue of Environmental Science and Technology.
A polyester sweater may seem cozy and innocent on a winter day, but its disintegrated fibers could be bad news in marine environments, Browne said. Other studies have found that microplastics in the ocean absorb pollutants such as DDT.
Browne’s own work has shown that filter-feeding mussels will consume tiny plastic particles, which then enter the animals’ bloodstreams and even their cells. If the same thing happens in nature, the plastic fibers could “end up on our dinner plates,” incorporated into seafood, Browne warns.
There is still no direct evidence that the fibers, pollutant-tainted or otherwise, harm marine life, but Browne says it’s worth figuring out. He argues that the fibers are “guilty until proven innocent” and says that textile and washing-machine manufacturers, as well as sewage-treatment plants, should be looking for ways to keep the fibers out of the ocean.
Garments that shed less lint, or new washing-machine filters might help.