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Invisible plastics in water

Date:
March 13, 2020
Source:
Washington State University
Summary:
A research team has found that nanoscale particles of the most commonly used plastics tend to move through the water supply, especially in fresh water, or settle out in wastewater treatment plants, where they end up as sludge, in landfills, and often as fertilizer.
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A Washington State University research team has found that nanoscale particles of the most commonly used plastics tend to move through the water supply, especially in fresh water, or settle out in wastewater treatment plants, where they end up as sludge, in landfills, and often as fertilizer.

Neither scenario is good.

"We are drinking lots of plastics," said Indranil Chowdhury, an assistant professor in WSU's Department of Civil and Environmental Engineering, who led the research. "We are drinking almost a few grams of plastics every month or so. That is concerning because you don't know what will happen after 20 years."

The researchers, including graduate students, Mehanz Shams and Iftaykhairul Alam, examined what happens to tiny, nanoscale plastics that are making their way into the aquatic environment. They have published their work in the high-impact journal, Water Research.

It's estimated that every day about eight trillion pieces of microplastics go through wastewater treatment plants and end up in the aquatic environment.

These little bits of plastic can come from the degradation of larger plastics or from microbeads that are used in personal care products.

A recent study showed that more than 90 percent of tap water in the U.S. contains nanoscale plastics that are invisible to the human eye, Chowdury said.

In their study, the researchers studied the fate of nanoparticles of polyethylene and polystyrene, which are used in a huge number of products, including plastic bags, personal care products, kitchen appliances, disposable drinking cups and packaging material. They examined how the tiny plastic particles behaved under various chemistries, ranging from salty seawater to water containing organic material.

"We're looking at this more in a fundamental way," Chowdury said. "Why are they becoming stable and remaining in the water? Once they're in different types of water, what makes these plastics remain suspended in the environment?"

The researchers found that while acidity of water has little impact on what happens to nanoscale plastics, salt and natural organic matter are important in determining how the plastics move or settle. What is clear is that tiny plastics are staying in the environment with unknown health and environmental consequences, he said.

"Our drinking water plants are not sufficient at removing these micro and nanoscale plastics," he said. "We're finding these plastics in the drinking water but we don't know why."

Chowdury and his team are now studying techniques for removing the plastics from water and have recently received a grant from the State of Washington Water Research Center for that work.

In the meantime, he encourages people to lessen the impact of nanoscale plastics by reducing their use of single-use plastics.

"Reuse plastics as much as possible," he said.


Story Source:

Materials provided by Washington State University. Original written by Jakob Thorington. Note: Content may be edited for style and length.


Journal Reference:

  1. Mehnaz Shams, Iftaykhairul Alam, Indranil Chowdhury. Aggregation and stability of nanoscale plastics in aquatic environment. Water Research, 2020; 171: 115401 DOI: 10.1016/j.watres.2019.115401

Cite This Page:

Washington State University. "Invisible plastics in water." ScienceDaily. ScienceDaily, 13 March 2020. <www.sciencedaily.com/releases/2020/03/200313155254.htm>.
Washington State University. (2020, March 13). Invisible plastics in water. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2020/03/200313155254.htm
Washington State University. "Invisible plastics in water." ScienceDaily. www.sciencedaily.com/releases/2020/03/200313155254.htm (accessed December 21, 2024).

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