November 1, 2011
Greening Laundry Day: Avoid Polyester Fabrics
by Sarah (Steve) Mosko, PhD
- Algalita Marine Research Blog, 20 Aug ’12
- Natural Life Magazine, Mar/Apr issue 2012
- Surf City Voice as “Microplastics: Avoid polyester fabrics to help prevent ocean pollution,” 06 Nov 11
- Culture Change, 05 Nov 11
A single polyester garment can shed >1900 plastic microfibers per wash
If you have already switched to an eco-friendly laundry detergent, as many people do to contribute less to water pollution, you might be surprised to learn that the pollution you generate on wash day has as much to do with the kind of fabrics your clothes, bedding and towels are made of as the detergent you wash them in. Recent studies have revealed that a single garment made of polyester can shed innumerable tiny fibers into the wash water, and those fibers are finding their way to the ocean. The pollution they cause is worsened by the fact that, like plastic materials in general, polyester attracts oily pollutants in seawater so is a vehicle for the transfer of potentially dangerous chemicals into the food web when the fibers are ingested by sea creatures.
Although we don’t usually think of polyester fabrics as plastic per se, polyester is nonetheless a plastic material synthesized from crude oil and natural gas. And, like other plastics, polyester is a long polymer chain, making it non-biodegradable in any practical human scale of time, especially in the ocean because of the cooler temperatures.
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Posted by Sarah (Steve) Mosko
September 1, 2005
Appeared in Vall-E-Vents, the San Fernando Valley Sierra Club Newsletter, Sept., 2005.
Plastics in the Food Chain
(#3 of the Plastic Plague Series)
by Sarah S. Mosko, Ph.D.
Japanese researchers suggest that plastic debris is a transporter of toxic chemicals into the marine food chain. Illustration by Willis Simms.
Plastics are petroleum products that never biodegrade…they just break up into smaller and smaller fragments of plastic.
Worldwide plastics production has grown to over 150 million tons/year, and lots of it finds its way into our oceans. Captain Charles Moore of the Algalita Marine Research Foundation in Long Beach, Calif. has trawled the surface waters of the N. Pacific central gyre, a Texas-sized whirlpool of ocean debris sometimes referred to as the Pacific Garbage Patch. He compared the weight of plastic fragments to that of zooplanktons. Zooplanktons are tiny animal planktons at the bottom of the aquatic food chain and a prime food source for a myriad of sea creatures.
Quite alarmingly, Captain Moore found that plastics outweighed zooplanktons by a factor of 6-to-1.1 Even off the Southern California coastline, plastics were found to outweigh zooplanktons 2.5 to 1.2 Since fish, turtles, jellies, seabirds and other sea creatures are not equipped to distinguish plastics from real food, plastics have become a routine part of the marine food chain. Microscopic bits of plastic are even being incorporated into plankton,3 showing that plastics have entered the very bottom of our food chain.
Adding to the alarm are the findings of Japanese researchers suggesting that plastic debris is a transporter of toxic chemicals into the marine food chain. Because plastics are petroleum-based, they are oily and so attract oily toxins like PCBs and DDE (PCBs are a family of toxic, persistent chemicals previously used in electrical equipment, and DDE is a breakdown product of the now banned pesticide DDT). The study focused on plastic resin pellets, the pearl-sized materials that are melted down to form plastic products. The pellets were found to accumulate PCBs and DDE at levels up to one million times their concentrations in the surrounding seawater.
Oily toxins are stored generally in fatty tissues and consequently get concentrated as they are passed up the food chain (plankton are eaten by jellyfish, salmon eat the jellyfish, you serve salmon for dinner). The potential threat to humans eating at the top of the food chain is obvious. We don’t know yet how big a role plastic ocean debris plays in the elevated levels of PCBs, DDE and other toxins now commonly measured in human tissues. The studies needed to assess this simply have not been done. However, two things are abundantly clear – our oceans are turning into cesspools of plastic trash because of human negligence, and we will eventually eat everything we throw into the sea. We don’t need new studies to tell us this!
1Moore et al.Marine Poll. Bull., 42, 2001.
2Moore et al. Marine Poll. Bull., 44, 2002.
3Thompson et al. Science 304, 2004.
4Mato et al. Environ. Sci. Bull. 35, 2001.
To participate in a California-based statewide plastics reduction campaign, contact Earth Resource Foundation or call (949) 645-5163.
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Posted by Sarah (Steve) Mosko