This Is Plastiglomerate

Plastic is melding with marine debris in Hawaii.

Plastiglomerate from Kamilo Beach, Hawaii. Photo by Patricia Corcoran, University of Western Ontario

Not all the beaches on the Hawaiian Islands have pristine, sandy shorelines. Kamilo Beach on the southeast end of the Big Island, for one, tends to attract more trash than sunbathers.

As a result, the remote beach has become a site for what researchers have dubbed “plastiglomerate”: rocks of sediment and marine debris melted together with plastic. Patricia Corcoran, an associate professor of geology at the University of Western Ontario, found more than 200 pieces of plastiglomerate at 21 sites along Kamilo Beach a couple summers ago. She reported her findings last June in GSA Today.

The pieces that Corcoran found contained various natural material, including sand, volcanic rock, wood, and shells. But “all of them had plastic for sure, because that’s what melded everything together,” says Corcoran. The variety of plastic ranged from ropes, nets, and fishing tubes, to bottle lids and package containers.

Corcoran first heard about these “plastic rocks” from Charles Moore, a captain of the oceanographic research vessel Alguita, who told her in 2012 that he found a piece that was as large as the flatbed of a pickup truck. (Corcoran was unable to find any that massive; she assumes beach cleaners might have incinerated them by the time she got there.)


Do you have an eye on a Sci Candy?

A photo is worth a thousand words—or maybe even a Sci Candy. Nominate an image that you’d like us to explore! Email scicandy@sciencefriday.com.


According to Corcoran, Moore had initially suggested that lava flowing out of a volcano formed the rocks by melting the plastic. “But in looking at the volcanological history of the island, it had been centuries—or even longer—since there was an active flow in that region near Kamilo Beach,” Corcoran says, and plastic has been manufactured en masse only since the 1950s.

The sun’s rays probably weren’t responsible, either, because temperatures of 185 degrees Fahrenheit (85 degrees Celsius) or higher are necessary to melt most common plastics. “We knew it couldn’t have been a natural process that melted the plastic,” she says.

Corcoran suspects that campfires are instead to blame. Kamilo Beach is mostly deserted, but of those who visit, many cook out on the beach. When they build campfires, the hot coals burn the surrounding trash.

“I think most of the time, these people don’t really realize that they’re burning plastic,” says Corcoran. “Kamilo Beach is so littered with plastic debris that it’s hard to make a fire without burning some. It’s just everywhere.”

Plastiglomerate from Kamilo Beach, Hawaii. Photo by Patricia Corcoran, University of Western Ontario
Photo by Patricia Corcoran, University of Western Ontario

Much of the plastic and other garbage gets washed in by the North Pacific Gyre, which circulates clockwise around the Hawaiian Islands, depositing materials along the southeastern shorelines. Because of its location at the southern tip of the Big Island, Kamilo Beach likely snags flotsam as ocean currents sweep by. Based on visible markings on some of the products, a lot of the rubbish comes from other countries such as China and Japan, as well as parts of Europe, according to Corcoran. “It’s coming from all over the world,” she says.

Corcoran is the first to publish research on the phenomenon. But considering the huge amount of plastics consumed globally, and that these plastiglomerates form anthropogenically, she says she wouldn’t be surprised if other people have noticed the rocks in different locales. Still, since publishing her study, she’s only heard from one other person who’s discovered a fragment outside of Kamilo Beach—and that was on another Hawaiian island.

On the off chance you happen across a piece of plastiglomerate, what should you do? Though there’s no definitive solution, leaving it on the beach could be environmentally hazardous—the debris could get buried and potentially disrupt the flow of nutrients in the groundwater, posits Corcoran. While incineration is better than simply burning the rocks—the former can contain plastic pollutants—the process is expensive, and facilities are hard to find.

“In the end, the best thing we can do is just reduce the amount of plastic that we use,” says Corcoran. Currently, she collects the plastiglomerate specimens she finds. “I’ve gotten many requests from museums to feature this material,” she says. “It’s used as a symbol to show, ‘What has this world come to?’”



Donate To Science Friday

Invest in quality science journalism by making a donation to Science Friday.

Donate

Meet the Writer

About Chau Tu

Chau Tu is an associate editor at Slate Plus. She was formerly Science Friday’s story producer/reporter.