UT researchers collaborated with the city of Austin to conduct a study on microplastic levels in local lakes and presented their findings to the city on Sept. 3.
The team found five times the number of microplastics in Lady Bird Lake than in Lake Austin, with the most common microplastic being tire and road wear fragments, according to the presentation. Brent Bellinger, conservation program supervisor with the Watershed Protection Department, said microplastics could enter the food web of Lady Bird Lake, but that the microplastics’ effects on the lake’s ecosystem remain unknown.
“This is a first step, if you will, dipping our toes into the water of, ‘What do these things look like?’” Bellinger said during the presentation. “We know microplastics are out there, but what does that look like for Austin?”
Microplastics are pieces of plastic less than five millimeters in size, said Marcy Davis, an engineering scientist at the Institute for Geophysics who studied the presence of microplastics in soil for the project. She said the microplastics the team sorted included three types: fibers, which come from clothes; fragments, which come from pieces of plastic; and tires and road wear particles, which come from the wear and tear of driving.
Davis said she mainly studied microplastics in sediments, and one of the team’s concerns is how the microplastics will behave during a flood.
“We, as the scientific community, don’t understand a lot about how microplastics behave,” Davis said. “They have a different density, even though their particle size might be the same as regular sediments. We don’t really understand how they behave when they’re in water and sediment.”
Danielle Zaleski, a graduate student at the Jackson School of Geosciences who contributed to this study as an undergraduate research assistant, said one of the team’s main concerns was that researchers did not know what microplastics could do to humans.
Zaleski said the team is still writing up their final report and is looking to expand their research to other lakes in the future. Since Lady Bird Lake was originally a river that turned into a lake, floods no longer flush the lake floor. As a result, microplastics accumulate on the lake floors, said Bellinger. The team started their research by collecting samples of sediment or parts of the lake floor, said Bellinger.
“Lady Bird Lake flows through a very dense, very populous city,” Bellinger said. “It drains urban creeks, and those creeks capture stormwater runoff.”
Bellinger said the team’s research is the first step toward further University studies to understand the relationship between Austin lakes and microplastics.
“We want to develop something that’s truly informative to the Austinites, to what the water body represents (and) how (microplastics) might be impacting our use (of local waterways),” Bellinger said.
