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Researchers find microplastics in clouds

The chemical composition of the plastic pieces suggests they could promote cloud formation, indirectly affecting the climate

by Krystal Vasquez
October 2, 2023

Mount Fuji in the distance. The mountain's summit is covered by some clouds.
Credit: Richie Johns/Flickr
Researchers found microplastics in cloud water collected on the summit of Mount Fuji.

Microplastics have infiltrated nearly every corner of the globe. Now, a new study suggests they’ve made their way into the clouds.

Researchers from Waseda University identified nine types of microplastics in cloud water that they collected from the summit and foothills of Mount Fuji and the summit of Mount Oyama, both of which sit to the southwest of Tokyo (Environ. Chem. Lett. 2023, DOI: 10.1007/s10311-023-01626-x) .

The number of microplastic particles that the researchers found in the cloud water was low—between 7 and 14 pieces per L on average—but that number is likely an underestimate, says Hiroshi Okochi, an environmental chemist at Waseda University and one of the study’s authors. Okochi explains that the collection equipment he and his team used was not originally developed to sample microplastics.

Even so, “it’s a unique dataset which fills in some knowledge gaps regarding microplastics environmental distributions,” says Denise Mitrano, an environmental chemist at the Swiss Federal Institute of Technology (ETH), Zurich, who wasn’t involved in the study.

After collecting the cloud water samples, Okochi and his team analyzed the chemical properties of the microplastics to determine how they might be influencing the atmosphere. The scientists found that the microplastics contained a high number of hydrophilic groups, which form as the plastic deteriorates. “Hydroxyl and carboxyl groups are formed, making it easier to absorb water,” Okochi explains in an email.

This finding led Okochi and his team to conclude that, more than just floating in the clouds, these plastics could be playing a role in forming them. That would mean that microplastics could indirectly alter how rain is distributed or change how much solar radiation reaches the ground, Okochi explains. “At present, we do not know the extent of this risk, so this is an issue for further study,” he adds.

Mitrano agrees that further study is needed, but she is hesitant to draw the same conclusions as Okochi and his colleagues. Just because microplastics are present in clouds doesn’t mean they’re influencing them, she says. “It could mean that they are just being transported with the airmass,” she says in an email.

Even if future research determines that microplastics do play a role in cloud formation, how large of an impact they have on the climate remains to be seen. Mitrano suspects their effect is small, except in more pristine locations where microplastics could outnumber other cloud-forming particles.



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