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Microplastics increasing in freshwater, directly related to plastic production

  • Microplastics increasing in freshwater, directly related to plastic production
    Jill Arriola, left, and Daniel Guarin collecting cores at the inlet to the John Heinz National Wildlife Refuge at Tinicum, which houses the largest remaining freshwater tidal marsh in Pennsylvania.
    Lisa Emili. All Rights Reserved.

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Penn State
Penn State is in the top 1 percent of universities worldwide. It has the largest alumni network in the nation. Founded in 1855, it combines academic rigor with a vibrant campus life.

Microplastics have been steadily increasing in freshwater environments for decades and are directly tied to rising global plastic production since the 1950s, according to a new study by an interdisciplinary team of Penn State researchers. The findings provide insight into how microplastics move and spread in freshwater environments, which could be important for creating long-term solutions to reduce pollution, the researchers said. 

The work is available online now and will be published in the December issue of Science of the Total Environment.  

“Few studies examine how microplastics change over time,” said Nathaniel Warner, associate professor of civil and environmental engineering and the corresponding author on the paper. “Ours is one of the first to track microplastic levels in freshwater sediment from before the 1950s to today, showing that concentrations rise in line with plastic production.” 

Microplastics are tiny plastic particles that range in size from one micrometer, or 1/100 of the width of a human hair, to five millimeters, which is about the size of a pencil eraser. They can come from larger plastics that break down into smaller pieces or be made directly by manufacturers. For this study, the team examined freshwater sediment cores from four watersheds in Pennsylvania: Kiskiminetas River, Blacklick Creek, Raystown Lake and Darby Creek.  

The John Heinz National Wildlife Refuge at Tinicum, the beginnings of the Delaware Estuary environment, while the tide was out. Credit: Lisa Emili. All Rights Reserved.

Contrary to the team's expectations, the study found no correlation between population density or land use and high levels of microplastics.  

“Based on other findings in the literature, what we thought would be important turned out not to be driving forces in microplastic variation across sites, notably the percentage of microplastics related to developed area and population density,” said Lisa Emili, associate professor of physical geography and environmental studies at Penn State Altoona and a co-author on the paper. 

The researchers also said they were surprised to discover that while microplastic accumulation increased each decade through 2010, it decreased from 2010 to 2020.  

“Although this is a preliminary finding that requires further study, this decrease could be related to increased recycling efforts,” Emili said. 

According to the U.S. Environmental Protection Agency, recycling efforts for plastic increased significantly between 1980 and 2010. Although plastic production also increased, the percentage of recycled plastic increased from less than 0.3% in 1980 to nearly 8% in 2010. 

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