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Study Reveals Microplastic Pollution in Great Lakes

Study Reveals Microplastic Pollution in Great Lakes

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Lake Erie, Dec. 23, 2012 – Numerous studies have been conducted on marine debris in our oceans. Much research has been completed on nurdles and microplastics in oceans around the world.

In the summer of 2012, for the first time, a study was conducted on the Great Lakes to determine the amount of pollution in the lakes. Lake Erie was the worst with estimates of 450,000 pieces of plastic per square kilometer. This compares to the plastic pollution in the Mediterranean Sea.

The fact that Lake Erie had the most human-generated pollution can probably be easily explained. Lake Erie gets its water mainly from the Detroit River. Flowing from Lake St. Claire to Lake Erie, it is the international border between the U.S. and Canada. The City of Detroit, Michigan, US, sits on the west side of the river and the City of Windsor, Ontario, Canada sits on the east side.

Detroit is the largest city along the river but other smaller cities line the river banks. Humans obviously contribute to the pollution in the Detroit River which then flows into Lake Erie.

The following article about the Great Lakes pollution study was published by Great Lakes Echo and is reprinted here by permission. Great Lakes Echo is a project of the Knight Center for Environmental Journalism at Michigan State University. The Knight Center has undergraduate and graduate programs and holds workshops for professional journalists.

Echo was created with assistance of MSU’s Department of Telecommunications, Information Studies and Media. Original content is produced by journalists working for the center. Additional content is provided by Capital News Service.

Written by James Dau
The Great Lakes have some of world’s most concentrated plastic pollution. Plastic pollutants circulate in pockets of the Great Lakes at concentrations higher than any other body of water on Earth, according to a recent State University of New York study.

The study is the first to look at plastic pollutants in the Great Lakes. It is part of a larger global endeavor to understand the origin and prevalence of plastic pollution in water and was conducted with the Los Angeles-based 5 Gyres Institute.

State University of New York researchers studied plastic pollution in the Great Lakes this summer aboard the US Brig Niagara, discovering deposits of plastic in greater concentrations than recorded anywhere else on earth. Photo from Bill Edwards.


“We had two samples in Lake Erie that we just kept going back and rechecking the data, because the count, the number of plastic particles in the sample, was three times greater than any sample collected anywhere in the entire world,” SUNY chemistry professor and project lead Sherri Mason said.

Mason’s team of 20 students embarked this summer aboard the US Brig Niagara, the rebuilt flagship that won the Battle of Lake Erie during the War of 1812. Beginning in Lake Superior, for three weeks in July the team sailed south through Lake Huron and into Lake Erie, collecting water samples as they traveled.

Twenty-one samples were collected with a net trailing from the vessel. The net’s mesh was a mere 333 micrometres, or 0.013 inch, wide.

They found the least plastic in Lake Superior, with the concentrations increasing as they sailed south. That’s because water flows south from Lake Superior through Lake Huron and into lakes Erie and Ontario. The water carries plastics from one lake to the next, compounding the concentration each time, Mason said.

That her team found plastic pollution was unsurprising to Mason or anyone involved with the project. But they were surprised by the volume of plastic, and even more by the kind of plastic they found.

“The reigning kind of thinking is that plastic moves from the land to the ocean through rivers and lakes, and that it gets smaller as it goes through erosion,” Mason said, “We thought we would find bigger pieces in the lakes than in the ocean, but we didn’t really. The vast majority of what we found was really, really small.”

Most of what the team found was what Mason refers to as microplastics, pieces less than 5 millimeters wide. Such fragments are much smaller than those Mason’s team expected to recover.

Why larger pieces were not more common baffles researchers.

“You don’t find microplastic in the ocean like we did in the lakes,” Mason said. “Somewhere in between there it disappears, and we want to know where it’s going.”

Mason and her colleagues think that the microplastics could be washing up on beaches, or that it may be entering the food chain if consumed by microorganisms or fish. “There’s this uncertainty right now, so one of the next things we have to do is get out on a boat and look at the food chain to see if the plastic shows up,” Mason said.

If plastic gets into the food chain, it presents a serious human health threat, Mason said. According to her research and those of her colleagues, many non-plastic pollutants, known as persistent organic pollutants or POPs, latch onto plastics in the water, which could then be consumed by aquatic life with a variety of consequences.

“All those chemicals leach from the plastic into the fat of the fish,” Mason said. “This has both direct ways of harming the fish, such as lining their intestines and interfering with their ability to absorb nutrients from food, and indirect ones.

“The fish may not immediately die, but they could remain toxic, and that’s really scary. If the plastics and chemicals are moving into the food chain, they’re moving into us.”

The dangers of plastic in the aquatic ecosystem is recognized by both scientists and the plastics industry. According to the American Chemistry Council, a national trade association representing a multitude of chemistry firms, including plastic manufacturers, any human debris is potentially destructive to the lakes.

“Discarded or littered items, of any material, whether plastic, paper, steel, or aluminum, doesn’t belong in the marine ecosystem,” said Allyson Wilson, a council spokesperson. “Litter can absolutely pose a threat to marine life when animals get entangled, trapped or mistake plastics for food”

Wilson added, however, that microplastics like those found by Mason could be less harmful than many fear. “This is an emerging area of research, and we’re all committed to better understanding microplastic’s effects on the marine environment,” she said. Some research indicates that persistent organic pollutants may bond so tightly to the plastic that they cannot be separated and digested by the fish.

Wilson noted that the Food and Drug Administration requires health and safety inspections of commercial fish catches, and that the Environmental Protection Agency regulates drinking water and requires water treatment facilities to filter particles from the water.

Much further study of plastic in the Great Lakes is necessary before concerns over it can be dismissed, Mason said. Her study plays into the larger goals of the 5 Gyres Institute, an environmental group that studies the causes and impacts of plastic pollution in the oceans, specifically in the five subtropical gyres. A gyre is a large area of rotating ocean currents in which plastics accumulate.

Having studied each of the five gyres, the institute is now turning its attention inland toward the source of the pollution.

“Most plastics that end up in the ocean start out on land,” said Marcus Eriksen, co-founder of 5 Gyres. “This project is us going upstream from the oceans and trying to trace them back to their origins.”

Great Lakes pollution has global consequences, Eriksen said.

“The gyres we study account for about 25 percent of the planet’s surface, and they draw pollution from all over the world, including the Great Lakes. They’re covered in a thin layer of plastic soup,” he said.

It would be a waste of time and money to try to clean up all the plastic in the gyres, he said. Identifying and reducing that pollution at its sources upstream is the only way to reduce it.

That’s why Mason and her team conducted the study this summer. Next summer, they aim to continue their work by sailing Lake Michigan.

“No amount of plastic in the lakes is acceptable,” Mason said. “The best cure is to find ways to reduce plastic use. We’re all part of the problem, and that means we’re all part of the solution. If we change our consumer habits, we change what’s in the water.”

© 2012, Great Lakes Echo, Michigan State University Knight Center for Environmental Journalism.

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