Polyurethane plastic substitute can biodegrate in seawater, say scientists
September 27, 2022, 21:40:02 CEST | Wikinews
September 27, 2022, 21:40:02 CEST | Wikinews
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Tuesday, September 27, 2022 
On Thursday, September 23, scientists at the University of California San Diego reported in the journal Science of the Total Environment that a type of polyurethane already used in biodegradable land-based products can also break down when immersed in seawater. This polyurethane is already used as a substitute for plastic in foams and shoes.
The research team performed their experiments at the Ellen Browning Scripps Memorial Pier and Experimental Aquarium. They cut the polyurethane into cubes similar in size and shape to those naturally formed by EVA plastics. They wrote that several types of marine bacteria and fungi stick to the polyurethane and break it down to its component chemicals, which they then consume for food. The polyurethane microbes had already made detectable progress when the scientists checked the samples after four weeks in the water.
"Improper disposal of plastic in the ocean breaks down into microplastics and has become an enormous environmental problem," said study co-author Stephen Mayfield, director of the California Center for Algae Biotechnology. "We've shown that it's absolutely possible to make high performance plastic products that also can degrade in the ocean."
Humans deposit roughly 8 billion kg of plastic in the ocean each year, where it can be mistaken for food by marine organisms. Natural forces break the plastic into the small pieces that we call microplastic, while larger chunks forms near-islands, such as the Great Pacific Garbage Patch. By mass, about half the patch is commercial fishing waste, such as discarded nets, but reducing the amount of post-consumer plastic in the ocean would still make a considerable dent in the planet's plastic problem.
This type of polyurethane is can be used to make flip-flops and parts of other shoes, which make up a considerable portion of the world's plastic waste.
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Sources[edit]
University of California - San Diego. "A sea change for plastic pollution: New material biodegrades in ocean water" — Univeristy of California - San Diego, September 22, 2022
Natasha R.Gunawana, Marissa Tessmana, Daniel Zhena, Lindsey Johnson, Payton Evans, Samantha M. Clements, Robert S. Pomeroy, Michael D. Burkart, Ryan Simkovsky, and Stephen P. Mayfield. "Biodegradation of renewable polyurethane foams in marine environments occurs through depolymerization by marine microorganisms" — Science of the Total Environment, September 22, 2022
Pail Allingham. "Scientists create biodegradable shoes that sea creatures can eat" — MSN, September 22, 2022
Liz Allen. "Why Seaspiracy’s Focus On The Great Pacific Garbage Patch Is Misleading" — Forbes, April 13, 2021
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Source: Wikinews
Related articles
Albania blames Iran for cyberattacks
First deep space images from James Webb Space Telescope released
Scientists discover seagrass off Australia is world's largest plant
Scientists announce decoy-proof Ebola antibodies
Lost Antarctic shipwreck from 1915 Shackleton expedition, Endurance, rediscovered
Collaborate!
Pillars of Wikinews writing
Writing an article
Tuesday, September 27, 2022 
On Thursday, September 23, scientists at the University of California San Diego reported in the journal Science of the Total Environment that a type of polyurethane already used in biodegradable land-based products can also break down when immersed in seawater. This polyurethane is already used as a substitute for plastic in foams and shoes.
The research team performed their experiments at the Ellen Browning Scripps Memorial Pier and Experimental Aquarium. They cut the polyurethane into cubes similar in size and shape to those naturally formed by EVA plastics. They wrote that several types of marine bacteria and fungi stick to the polyurethane and break it down to its component chemicals, which they then consume for food. The polyurethane microbes had already made detectable progress when the scientists checked the samples after four weeks in the water.
"Improper disposal of plastic in the ocean breaks down into microplastics and has become an enormous environmental problem," said study co-author Stephen Mayfield, director of the California Center for Algae Biotechnology. "We've shown that it's absolutely possible to make high performance plastic products that also can degrade in the ocean."
Humans deposit roughly 8 billion kg of plastic in the ocean each year, where it can be mistaken for food by marine organisms. Natural forces break the plastic into the small pieces that we call microplastic, while larger chunks forms near-islands, such as the Great Pacific Garbage Patch. By mass, about half the patch is commercial fishing waste, such as discarded nets, but reducing the amount of post-consumer plastic in the ocean would still make a considerable dent in the planet's plastic problem.
This type of polyurethane is can be used to make flip-flops and parts of other shoes, which make up a considerable portion of the world's plastic waste.
Have an opinion on this story? Share it!
Sources[edit]
University of California - San Diego. "A sea change for plastic pollution: New material biodegrades in ocean water" — Univeristy of California - San Diego, September 22, 2022
Natasha R.Gunawana, Marissa Tessmana, Daniel Zhena, Lindsey Johnson, Payton Evans, Samantha M. Clements, Robert S. Pomeroy, Michael D. Burkart, Ryan Simkovsky, and Stephen P. Mayfield. "Biodegradation of renewable polyurethane foams in marine environments occurs through depolymerization by marine microorganisms" — Science of the Total Environment, September 22, 2022
Pail Allingham. "Scientists create biodegradable shoes that sea creatures can eat" — MSN, September 22, 2022
Liz Allen. "Why Seaspiracy’s Focus On The Great Pacific Garbage Patch Is Misleading" — Forbes, April 13, 2021
Share this: 
Source: Wikinews
Tags: University of California San Diego plastic Great Pacific Garbage Patch flip-flops Univeristy of California - San Diego Science of the Total Environment MSN Forbes
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