Microplastics are tiny pieces of plastic debris measuring less than 0.2 inches (5 millimeters) long, according to the National Oceanic and Atmospheric Administration (NOAA).
These broken-down remnants of industrial waste and consumer goods are impossible to avoid: they are found across the ocean and atmosphere, inside bottled water and even in human poop.
[adinserter name="One"]Studies into how microplastics impact human health are still scant and inconclusive, according to the World Health Organization.
So far, some plastics are thought to be harmless, whereas others, such as polystyrene, have been shown to kill human cells, cause bowel inflammation and reduce fertility in mice.
[adinserter name="Two"]In a new study, published Feb. 28 in the journal Environmental Science and Technology Letters, scientists looked into practical home methods to remove the tiny plastics from drinking water.
One question they were particularly concerned with was whether boiling water could rid it of microplastic contamination.
“Drinking boiled water, an ancient tradition in some Asian countries, is supposedly beneficial for human health, as boiling can remove some chemicals and most biological substances,” the researchers wrote in the new study.
“However, it remains unclear whether boiling is effective in removing NMPs [nano/microplastics] in tap water.”
[adinserter name="Three"]To investigate, the researchers created samples of tap water containing many of the commonly occurring minerals alongside three commonly occuring microplastic compounds: polystyrene, polyethylene, and polypropylene.
[adinserter name="Four"]The researchers also varied the “hardness” of the water samples by adjusting the concentrations of calcium carbonate. (A vast majority of American homes use hard water, meaning the water has a high mineral content.)
[adinserter name="Five"]After boiling the samples for 5 minutes and leaving them to cool, the researchers noted a drastic decline in the amount of microplastics.
[adinserter name="Six"]In harder water, there was a nearly 90% reduction in microplastics, because the calcium carbonate in the water became solid at higher temperatures, trapping the plastic particles within.
[adinserter name="Seven"]The researchers say that using this method alongside a simple coffee filter to remove the solidified calcium could be an easy way to remove the potentially health-damaging particles.
[adinserter name="Eight"]The effectiveness of point-of-use filters on their own is unclear due to insufficient research, although one study suggested that microfiltration filters could be used to snag and remove stray particles.
