Plastic waste is recognized as a major cause of environmental harm, with products like water bottles, plastic bags and clothing fibres acknowledged as major contributors to plastic pollution - but research by University of Toronto environmental scientists shows another source deserves more attention: paint.
In a study published in the journal Environmental Toxicology & Chemistry , researchers in the Faculty of Arts & Science's department of ecology and evolutionary biology show how paint has been severely understudied when it comes to research on microplastics.
Defined as plastic particles less than five millimetres in size, microplastics are known to accumulate in air, water, food and even our bodies over time - and have been shown to have toxic effects on both marine life and human health.
The researchers say paint has been severely underestimated as a microplastic pollutant because it can be difficult to identify.
"Often, paint will show up as 'anthropogenic unknowns' when characterizing microplastics," says Zoie Diana, post-doctoral researcher who co-authored the study with Assistant Professor Chelsea Rochman and master's student Yuying Chen. "Researchers have been wondering what such particles are and hypothesizing, based on computer modelling, that paint might be responsible for a large portion of them."
To investigate this further, the researchers surveyed existing literature to determine where paint pollution comes from. They found there were around 800 studies published on microplastics in 2019, but only 53 focused on paint - making for a significant research gap.
Although paint has traditionally been considered a form of plastic, on average, 37 per cent of it is composed of synthetic resins that bind pigments together.
To help fill the gap in the research, Diana is creating a spectral library - a technique to identify the molecular structure of unknown fragments.
She notes that there are many measures being employed to reduce microplastic pollution - for example, rain gardens: landscape sites which absorb polluted stormwater. "Rain gardens installed by major highways in San Francisco have been shown to reduce downstream microplastic emissions by 91 per cent, which is a really high success rate," she says. "You can also install a filter in your washing machine that will capture microfibres before they're passed along to the wastewater treatment plant."
Where paint is concerned, some existing measures include special vacuums that can prevent paint emissions from leeching into the environment during building construction.
Diana says it's vital to devise and deploy more measures to reduce paint pollution, given the ubiquitous nature of paint. "There's paint from boats. There's also paint on buildings, on our roads. Once you walk around the city, you start to see it everywhere you look," she says.
She's also optimistic that a global plastics treaty will be signed in the near future. "That's something that's in the works, and I'm excited to see where it lands - particularly to reduce microplastics, which as we've seen are found everywhere."
Diana, who earned her PhD at Duke University, is carrying out her postdoctoral research in the Rochman Lab with the support of a Liber Ero postdoctoral fellowship , which aims to assist exceptional early-career scientists in carrying out research on conservation and management issues relevant to Canada.
She credits the program with enabling her to pursue collaborative, creative research that has both fundamental and applied impacts. "The Liber Ero program is different from other postdocs, in that you work with both academic mentors as well as institutions and organizations," she says. "The program supports academic research and also has global impacts beyond academia."
