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Aron Stubbins, associate professor of marine and environmental sciences, inspects microplastics from the open ocean in the Mugar Life Sciences Building. Photo by Matthew Modoono/Northeastern University

USA - What Happens When Sunlight Breaks Down Ocean Plastic?

Potentially harmful chemical byproducts are left behind, research finds

Northeastern researchers found in 2021 that an estimated 4 million to 10 million tons of plastic carbon enter the ocean each year. Much of it ends up floating in subtropical currents.

Now, the researchers — led by Northeastern professor Aron Stubbins — have examined what happens when the plastics break down.

“We found that hundreds of chemicals are produced when plastics degrade in sunlight,” says Stubbins, professor of marine and environmental sciences, civil and environmental engineering, and chemistry and chemical biology at Northeastern. “This may have an impact on the ocean’s carbon cycle and marine chemistry as well as potential consequences for human health.”

Microplastics in a petri dish.
Aron Stubbins, associate professor of marine and environmental sciences, inspects microplastics from the open ocean in the Mugar Life Sciences Building. Photo by Matthew Modoono/Northeastern University
Aron Stubbins inspecting microplastics under a microscope.
Aron Stubbins, associate professor of marine and environmental sciences, inspects microplastics from the open ocean in the Mugar Life Sciences Building. Photo by Matthew Modoono/Northeastern University

Plastics are polymers formed from long chains of carbon that make them solid but also make them hydrophobic, or unable to be dissolved in water. Thus, they often end up floating in the ocean. Three plastics — polyethylene, polypropylene and expanded polystyrene — are particularly common marine sights; together making up roughly 70% of the plastics produced in the world.

Polyethylene and polypropylene are also particularly common in subtropical gyres where ocean currents cycle in a way that floating materials accumulate in a sort of patch. (Expanded polystyrene eventually becomes waterlogged and sinks, so it doesn’t usually make it past coastal waters, Stubbins notes).

And while we may hear of plastics lasting hundreds of years, that doesn’t mean plastics don’t degrade at all — particularly when exposed to intense ultraviolet rays from the sun beating down on the subtropical oceans.

So, Stubbins and post-doctoral fellow Lixin Zhu set out to find out what chemicals resulted from this photodegradation of polyethylene, polypropylene and expanded polystyrene.

To do so, they collected microplastic from the ocean and cut other, store-bought plastic containers such as a shampoo bottle and a food container, into 3 millimeter pieces. They sealed these in quartz jars (glass blocks out UV rays; which is why we don’t get sunburned from sitting in a window, Stubbins notes) half-filled with seawater that was collected from the South Atlantic.

The researchers then measured the amount of plastics and the chemistry of dissolved organic carbon in the jars.

Some of the samples were then placed in the dark and some in the light under what Stubbins described as a tanning bed. After two months, the researchers again measured the amount of plastics and chemistry of dissolved organic carbon in the jars.

They found that there was less plastic and more dissolved organic carbon in the jars kept under the light, indicating that sunlight had started to dissolve the plastics into new chemical products.

“The loss of plastics in sunlight is important as some people have suggested cleaning up the surface of the ocean to remove microplastics,” Stubbins says. “But this research suggests that if we were able to stop plastics being introduced into the ocean, then sunlight would remove smaller microplastics from surface waters within a few decades.

“However, we also need to know what happens to the chemicals produced by plastics in sunlight and that is why we also investigated the chemistry of the dissolved organic carbon — the molecular soup formed as plastics dissolve in seawater,” Stubbins continues.

Stubbins found 319 to 705 chemical products were formed from the plastics exposed to light.

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