CORVALLIS, Ore. – An outright ban on the common use of plastic “microbeads” from products that enter wastewater is the best way to protect water quality, wildlife, and resources used by people, a group of conservation scientists suggest in a new analysis.
These microbeads are one part of the microplastic problem in oceans, freshwater lakes and rivers, but are a special concern because in many products they are literally designed to be flushed down the drain. And even at conservative estimates, the collective total of microbeads being produced today is enormous.
In an article just published in the journal Environmental Science and Technology, scientists from seven institutions say that nontoxic and biodegradable alternatives exist for microbeads, which are used in hundreds of products as abrasive scrubbers, ranging from face washes to toothpaste. Around the size of a grain of sand, they can provide a gritty texture to products where that is needed.
“We’re facing a plastic crisis and don’t even know it,” said Stephanie Green, the David H. Smith Conservation Research Fellow in the College of Science at Oregon State University, and co-author of this report.
“Part of this problem can now start with brushing your teeth in the morning,” she said. “Contaminants like these microbeads are not something our wastewater treatment plants were built to handle, and the overall amount of contamination is huge. The microbeads are very durable.”
In this analysis, and using conservative methodology, the researchers estimated that 8 billion microbeads per day are being emitted into aquatic habitats in the United States – about 2.9 trillion beads per year, enough to wrap around the Earth more than seven times if lined up end to end.
The other 99 percent of the microbeads – another 800 billion – end up in sludge from sewage plants, which is often spread over areas of land. Many of those microbeads can then make their way into streams and oceans through runoff.
“Microbeads are just one of many types of microplastic found in aquatic habitats and in the gut content of wildlife,” said Chelsea Rochman, the David H. Smith Conservation Research Postdoctoral Fellow at the University of California/Davis, and lead author on the analysis.
“We’ve demonstrated in previous studies that microplastic of the same type, size and shape as many microbeads can transfer contaminants to animals and cause toxic effects,” Rochman said. “We argue that the scientific evidence regarding microplastic supports legislation calling for a removal of plastic microbeads from personal care products.”
Even though microbeads are just one part of the larger concern about plastic debris that end up in oceans and other aquatic habitat, they are also one of the most controllable. With growing awareness of this problem, a number of companies have committed to stop using microbeads in their “rinse off” personal care products, and several states have already regulated or banned the products.
The researchers point out in their analysis, however, that some bans have included loopholes using strategic wording. Many microbeads are used in personal care products that are not “rinse off,” such as deodorants and cleaners. And some regulations use the term “biodegradable” to specify what products are allowed – but some microbeads can biodegrade just slightly, which may allow their continued use.
If legislation is sought, “new wording should ensure that a material that is persistent, bioaccumulative, or toxic is not added to products designed to go down the drain,” the researchers wrote in their report.
“The probability of risk from microbead pollution is high, while the solution to this problem is simple,” they concluded.
All the authors on this study were funded by the David H. Smith Postdoctoral Research Fellowship Program, which works to develop science-based policy options for conservation and environmental issues. Other collaborators were from the University of Wyoming, University of California/Berkeley, Wildlife Conservation Society, College of William and Mary, and Georgia State University.
(Editor's Note: A data error was printed in the sixth paragraph of an earlier version of this story that was publicly released. That error has been fixed and this version of the story is now accurate. OSU News and Research Communications regrets the error.)