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This is not exactly news. Most have heard at least some rumors of a possible major breakthrough of biologically breaking down plastics. Among the many aspects of the environmental crises that humanity seems to be careening toward, what to do with plastics is one of the greatest problems of all. 

While the current administration is doing all it can to halt and even destroy scientific research it was good to hear that progress was still going on in this area. 

From Wired magazine we get this brief overview: 

Hungry Worms Could Help Solve Plastic Pollution 

Researchers are working on manipulating the digestive systems of wax worms to create a scalable way of disposing of plastic.

Plastics that support modern life are inexpensive, strong, and versatile, but are difficult to dispose of and have a serious impact when released into the environment. Polyethylene, in particular, is the most widely produced plastic in the world, with more than 100 million tons distributed annually. Since it can take decades to decompose—and along the way can harm wildlife and degrade into harmful microplastics—its disposal is an urgent issue for mankind.

In 2017, European researchers discovered a potential solution. The larvae of wax moths, commonly known as wax worms, have the ability to break down polyethylene in their bodies. Wax worms have been considered a pest since ancient times because they parasitize beehives, feeding on beeswax. However, we now know that they also spontaneously feed on polyethylene, which has a chemically similar structure.

“Around 2,000 wax worms can break down an entire polyethylene bag in as little as 24 hours, although we believe that co-supplementation with feeding stimulants like sugars can reduce the number of worms considerably,” said Dr Bryan Cassone, a professor of biology at Brandon University in Canada, in a news release. Cassone and his team have been researching how these insects could be harnessed to help combat plastic pollution. “Understanding the biological mechanisms and consequences on fitness associated with plastic biodegradation is key to using wax worms for large-scale plastic remediation,” he says.

In previous experiments, Cassone and his team found out exactly how wax worms break down polyethylene. To understand their digestive mechanism, Cassone’s team fed polyethylene to wax worms for several days and followed the insects’ metabolic processes and changes in their gut environment. They found that as the wax worms ate the polyethylene, their feces liquefied and contained glycol as a byproduct. 

As we hear more and more stories of plastics getting into all aspects of our lives from drinking water to food it is good to know that science is still working on solutions. The environmental situation is one of the most important issues for those under 30. Their concern is whether or not there will be a planet left for them to live on. 

Of course we all know there is no “Planet B” for us to move to.