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AlterNet reports
Thanks to a group of [students from Yale's Department of Molecular Biophysics and Biochemistry] who discovered a new type of fungus in the Ecuadorian rainforest, a semi-solution may soon be available to help speed up the decomposition process of plastics sitting in landfills.
[...]The fungus is the first one that is known to survive on polyurethane alone, and it can do so in an anaerobic (oxygen-free) environment, suggesting it could be used at the bottom of landfills.
[...]A large reason plastics like polyurethane take so long to break down is that microorganisms don't typically recognize it as food, therefore it can take centuries for man-made polymers to break down into microscopic granules. The discovery of Pestalotiopsis microspora may change all that.
The students of Yale isolated the enzyme that enables the fungus to break down plastic then observed its potential.
"The broad distribution of activity observed and the unprecedented case of anaerobic growth using [polyester polyurethane] as the sole carbon source suggest that endophytes are a promising source of biodiversity from which to screen for metabolic properties useful for bioremediation," they wrote in a report published in the journal Applied and Environmental Microbiology
(Score: 3, Interesting) by TK on Monday June 22 2015, @09:20PM
Is CO2 a byproduct of fungal growth? Anaerobic means no O2, which I am guessing means no CO2?
I am not a biologist, but my limited understanding is that the fungus will convert carbon in plastics into carbon in fungal cells, which other critters will eat.
Anyone with more than a highschool level of biology want to weigh in? Do we have those here?
The fleas have smaller fleas, upon their backs to bite them, and those fleas have lesser fleas, and so ad infinitum