Plastic is both a super product and an ecological nightmare. It’s cheap, durable and won’t rot, which means it’s great for shopping bags and fast food, but also means it sticks around for hundreds of years. Plastic waste is creeping into every corner of the planet, It pollutes the water we drink and the food we eat. It suffocates wildlife.
But thanks to an unexpected ally in the form of a bacterial enzyme, we may have a chance at solving this growing pollution problem. Because of the new discovery, bottles made of polyethylene terephthalate or PET could be broken down much quicker than the 450 years it normally takes. The enzyme responsible for that is a mutant form of PET known as PETase, which was originally discovered in a Japanese landfill some years ago.
The bacteria was discovered back in 2016, but it wasn’t until recently that British and American scientists studying it created a mutant enzyme that can break the plastic down by eating it in a matter of days. Like so many scientific discoveries before it, the mutated enzyme came about by accident, when scientists shone an X-ray beam on it in order to look at its atoms. This process unexpectedly altered PETase and made it 20% more effective at eating PET.
What makes the discovery so exciting, in addition to clearing up the growing garbage heaps of plastic in our oceans, is that it will allow plastic bottles to be recycled back into plastic bottles. Currently, plastic bottles are only able to be recycled into the opaque fabric for things like clothing or carpeting. In order to make plastic bottles, virgin PET is used and because it is so cheap, companies don’t think twice about churning out more plastic bottles — to the tune of around a million a minute. PETase though would reverse the building blocks of plastic back to their original state in the manufacturing process.
A team of scientists led by McGeehan have filed a patent and will work to stabilize the enzyme at temperatures above 158 degrees Fahrenheit. This would make it possible to break down PET 10-100 times faster. The goal is to work on eventually rolling it out on a large scale for breaking down PET.
McGeehan and his team, of course, aren’t the only scientists working to solve our plastics problem. There’s also the worm solution! yes, worms. Waxworm caterpillars have the ability to break down plastic rather quickly and mealworms possess gut microbes that eat up polystyrene. The key is finding a way to ramp up the worm’s digestion of plastic. Right now it takes around 100 mealworms a day to consume a pill-sized amount of plastic.
Plastic-eating worms, mutant enzymes, whatever weird solutions that can help take more plastic out of the planet is very much a step in the right direction.