UW News

June 29, 2017

UW oceanography senior finds plastic microfibers are common on Puget Sound beaches

UW News

As the infamous floating “garbage patch” churns up bits of plastic in the tropical Pacific Ocean, a University of Washington undergraduate has discovered a related problem much closer to home: nearly invisible bits of plastic on Puget Sound beaches.

person sitting on sand

Oceanography senior Frances Eshom-Arzadon collects beach sediment at Edmonds Marina Beach in February. She sampled each beach in the same way and at the same point in the tidal cycle to allow comparisons between sites.Earl Arzadon

As a year-long project toward a UW bachelor’s degree, the oceanography major visited 12 beaches around Puget Sound to tally the number of microplastics, generally classified as fragments between 0.3 and 5 millimeters (1/100 to 1/5 of an inch) or smaller than a grain of rice.

While she found all the Puget Sound beaches to be clean when compared with the Mediterranean Sea, local shores are far from pristine. Residents also may be surprised to learn that polar fleece and other synthetic fibers are the main source of plastic fragments on our beaches.

“Plastics can harm marine life, and can in some cases be the primary cause of death,” said Frances Eshom-Arzadon, who graduated in June. “Smaller organisms ingest microplastics, and then larger organisms, including humans, consume it indirectly.”

As part of her senior thesis project, Eshom-Arzadon visited each location once at the same time in the tidal cycle between November and February. She scraped sediment from an area just below the wrack line, the line of debris left by the high tide. She visited beaches from Tolmie State Park near Olympia, along the Seattle and Everett shorelines and as far out as Port Ludlow on the Olympic Peninsula, a control site far from populated areas.

Back in the lab, Eshom-Arzadon dried the samples, then used chemicals and weight-based techniques to separate the plastic from sand and other material.

map of Puget Sound

The study sampled 12 beaches from Olympia to Everett, and on the Olympic Peninsula

Her results show that small plastics are widespread along the shore of Puget Sound. All 12 samples contained microplastics, at an average of 1,776 pieces per 3-foot-square sampling plot. The highest concentration of plastics by number was at Howarth Park in Everett, followed by Carkeek Park and Alki Beach Park in Seattle. The cleanest beaches were at Mukilteo Lighthouse Park and Edmonds Marina Beach, both situated on points of land near ferry terminals.

Her sampling methods followed the procedures established by Julie Masura, a UW Tacoma lecturer who has been tracking marine microplastics in the region for almost a decade.

“Plastics, specifically microplastics, have been found in over 90 percent of the surface samples collected in Puget Sound since 2008,” said Masura, who was not involved in this course. “We have yet to correlate the presence of plastic and other environmental factors.”

Eshom-Arzadon’s project included counting the plastic fragments and classifying them into six types: Styrofoam, fibers, fragments, flakes, films and synthetic sponges. Some 73 percent of the pieces she collected on local beaches were microfibers. These thin strands are not from the breakdown of larger litter, such as plastic bottles or disposable cutlery; rather, they start when fabrics shed fibers that flow out with laundry water after washing synthetic fabrics, like polar fleece or other types of polyester.

graph of results

Results show that the most numerous plastic fragments on Puget Sound beaches were microfibers (orange), most likely from washing machine effluent or breakdown of fishing gear. Plastic flakes (light blue) were most common on Howarth Park in Everett, likely from flaking of marine paint in the nearby port and naval station. Plastic fragments (yellow) come from the disintegration of larger objects, such as buckets or bottles, while Styrofoam (bright blue) may come from restaurant to-go containers or fishing floats.Frances Eshom-Arzadon/University of Washington

 

“I wasn’t expecting to find so many fibers,” Eshom-Arzadon said. “When people do laundry, all their effluent with those microfibers is getting washed out. Those fibers come off clothes and get washed out already in the size of microplastics, so they can’t be filtered out.”

She noted that front-loading machines have been shown to generate fewer microfibers in washing water, while Patagonia and other clothing companies have recently begun efforts to produce synthetic fabrics that shed less fuzz.

The average overall concentration of microplastics was slightly higher on Seattle city beaches, providing only weak support for Eshom-Arzadon’s hypothesis that microplastics would be more common in densely populated areas. But she and her advisers concluded that a one-time sample was probably not enough to properly rank the locations.

“All of these beaches are cleaned by volunteer groups, and it’s not clear which are cleaned more regularly,” Eshom-Arzadon said. “Ocean currents can also carry debris to different places, and can affect how much litter you would find in a one-time sampling.”

Eshom-Arzadon became interested in this topic after doing an undergraduate service learning project with the UW-based Coastal Observation and Seabird Survey Team, COASST. She volunteered to survey beaches around Seattle and her native Edmonds looking for stranded birds and marine debris. She also took an undergraduate class on marine pollution that included a section on marine plastics.

Two other UW oceanography senior thesis projects this year also looked at microplastics. Ty Mahoney sampled microplastics in Hood Canal and faster-flowing waters around Whidbey Island, and found that the debris tends to accumulate in the more stagnant sections. Gerrad Hofmans sampled water from near the source of the glacier-fed Snohomish River down to its mouth in Puget Sound, finding that the concentration of microplastics increases on the way downstream.

“Over the past three years we’ve had a student each year looking at plastics, but Frances is the first student we’ve had that wanted to sample beaches,” said Kathy Newell, a research scientist in UW School of Oceanography who supervised all three undergraduate research projects. “Some studies suggest plastics accumulate in certain areas. There are so many variables — tides, winds, currents, time of year — and there hasn’t been a long-term study on plastics in Puget Sound.”

Those results could help inform the work of Masura and others who are trying to measure and understand plastic pollution locally.

“As with many research groups, we find that plastics are quite prolific,” Masura said.

Her group is working to develop an interactive map that will display the results of the samples collected with the support of government agencies, colleges, schools and nonprofits.

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For more information, contact Eshom-Arzadon at eshomf@uw.edu or 425-501-7018, Masura at 253-692-4317 or jmasura@uw.edu, and Newell at newell@ocean.washington.edu or 206-543-6119.

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