Amazon fungi found to eat plastic

  • Thread starter Greg Bernhardt
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In summary, this development is not a viable solution to the issue of plastic waste. The fungi only grew on PUR, a plastic readily recycled now, and it is not clear how this would break down plastics. Additionally, this species is a plant pathogen and may not be able to be applied to other parts of the world without risking economic crops.
  • #1
Greg Bernhardt
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Anyone have an update on this development? Is it a viable solution? Are the mushrooms tasty? :)

http://aem.asm.org/content/77/17/6076
 
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  • #2
It doesn't appear that anyone's cited it yet, according to google scholar. I don't think they're mushrooms though, more of a fungal "growth".

http://nhregister.com/content/articles/2011/08/02/news/new_haven/doc4e38a3be0000b2026019331.jpg
 
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  • #3
Not sure what you mean by "more of a fungal 'growth' " but you're right - Pestalotiopsis are ascomycetes - and "mushrooms" are typically basidiomycetes. This genus includes plant pathogens. "Solution" to what? Consider this is polyurethane so not all plastics - it may be useful for disposal of that material but probably brings a lot more cost than landfill or recyle.
 
  • #4
Perhaps you could take the enzyme from this fungus, put it into yeast or bacterium, and engineer these microorganisms to break down plastics. You could even take it a step further and engineer the microorganisms to use the breakdown products of the plastics to create biofuels or other industrially useful carbon compounds.
 
  • #5
Two Pestalotiopsis microspora isolates were uniquely able to grow on PUR as the sole carbon source under both aerobic and anaerobic conditions.

That might be a big deal. The ability to digest the carbon with or without the presence of an oxidizer could allow greater flexibility in the application of these fungi to break down plastics.
 
  • #6
I saw that and it's not for "plastics" - it's for polyurethane, a plastic readily recycled now. From the abstract, it is remarkable that fungal growth was demonstrated under both aerobic and anaerobic conditions and polyurethane served as the sole surce of carbon. The extent to which PU material was physically degraded is not reported in the abstract but it is clear that energy would needed to produce and ferment/treat particluate material. Further this is an ednohyte and a plant pathogen.so it's also nt evident that this species/isolate requires an associated plant or that it's repplicatio in other parts of the world wouldnot place economic crops at risk.

On a slow news day, I'm sure this will be magnified to mean the end of plastic waste but it may be more apparent than real that this offers a useful means of addressing this material.
 

1. How do Amazon fungi eat plastic?

Amazon fungi have enzymes that break down the chemical bonds in plastic, allowing them to use it as a source of energy.

2. What types of plastic can Amazon fungi eat?

Studies have shown that Amazon fungi can consume a wide range of plastic types, including polyethylene, polypropylene, and polystyrene.

3. Is this a natural process or have humans introduced these fungi?

While there is still ongoing research on the topic, it is believed that these fungi have evolved naturally in response to the increasing amount of plastic pollution in the Amazon rainforest.

4. Can Amazon fungi completely eliminate plastic pollution?

It is unlikely that Amazon fungi can completely eliminate plastic pollution on their own. However, they can play a significant role in reducing the amount of plastic waste in the environment.

5. Are there any potential negative effects of Amazon fungi consuming plastic?

There is currently not enough research on the long-term effects of Amazon fungi consuming plastic. However, it is important to note that plastic is not a natural food source for these fungi and could potentially disrupt their natural ecosystem.

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