Mushrooms Turn Plastic Into Food - Fungi + Toxic Waste = Biomass
- 5 years ago
Austria-based Livin Studio has created a process to cultivate edible fungi that digests plastic as it grows. The aim of Livin Studio's project is to use commonly uneaten parts of fungi to break down plastic while simultaneously producing a novelty food product. First presented in Eindhoven, the Fungi Mutarium incubator was created as a prototype to grow the edible fungi around the plastic, breaking down and digesting the material as it develops.
Fungi Mutarium by Katharina Unger.
They began working with two widely consumed types of fungus: Pleurotus Ostreatus, more commonly known as Oyster Mushroom and found on Western supermarket shelves, and Schizophyllum Commune, colloquially named Split Gill that is eaten in Asia, Africa and Mexico.
"We mainly cultivated the 'mycelium' rather than the typical 'mushroom' fruit bodies," Livin Studio founder Katharina Unger told Dezeen. "Both fungi show characteristics to digest waste material while remaining edible biomass."
Mycelium is the propagating part of a fungus and grows in masses of thread-like structures.
The cultures are grown within egg-shaped pods made from agar – a gelatinous substance derived from seaweed – to simulate the natural surfaces that the fungi traditionally grows on.
Plastic is placed within the pods along with diluted mycelium cultures – which are stored in a holding tank on one side and delivered into each agar case via a large pipette.
These cultures develop over the agar as they slowly digest the waste material, filling the space inside the pod.
While the process takes place, the pods are left in a "growth sphere" covered by transparent domed structure to regulate humidity levels. The plastic "food" for the fungi is sterilized with UV light in a compartment underneath.
"It can take several months until the plastic is fully digested by the fungi," said Unger, who has previously designed a table-top insect breeding farm for producing edible fly larvae at home.
"This is the part of the project that is still ongoing research. Our research partner [Utrecht University] expects that the digestion will go much quicker once processes are fully researched and optimized."
For the prototype, the domes are placed within a table top so they can be monitored and viewed.
"We imagined it as being used with a community or small farm setting," Unger told Dezeen. "Our setup with the two domes being placed in a table-like structure is more of a presentation setup. The domes can be separated, so that they can be easily replicated and placed on a shelf to be grown in masses."
Once the samples are fully grown, the agar pods (FU) and their contents are removed and ready to consume.
"Pleurotus varies from very mild to very strong, sometimes described as sweet with the smell of anise or liquorice," explained Unger, who worked with designer Julia Kaisinger on the project. "Texture and flavor depend a lot on the strain."
Fungi Mutarium by Katharina Unger.
They began working with two widely consumed types of fungus: Pleurotus Ostreatus, more commonly known as Oyster Mushroom and found on Western supermarket shelves, and Schizophyllum Commune, colloquially named Split Gill that is eaten in Asia, Africa and Mexico.
"We mainly cultivated the 'mycelium' rather than the typical 'mushroom' fruit bodies," Livin Studio founder Katharina Unger told Dezeen. "Both fungi show characteristics to digest waste material while remaining edible biomass."
Mycelium is the propagating part of a fungus and grows in masses of thread-like structures.
The cultures are grown within egg-shaped pods made from agar – a gelatinous substance derived from seaweed – to simulate the natural surfaces that the fungi traditionally grows on.
Plastic is placed within the pods along with diluted mycelium cultures – which are stored in a holding tank on one side and delivered into each agar case via a large pipette.
These cultures develop over the agar as they slowly digest the waste material, filling the space inside the pod.
While the process takes place, the pods are left in a "growth sphere" covered by transparent domed structure to regulate humidity levels. The plastic "food" for the fungi is sterilized with UV light in a compartment underneath.
"It can take several months until the plastic is fully digested by the fungi," said Unger, who has previously designed a table-top insect breeding farm for producing edible fly larvae at home.
"This is the part of the project that is still ongoing research. Our research partner [Utrecht University] expects that the digestion will go much quicker once processes are fully researched and optimized."
For the prototype, the domes are placed within a table top so they can be monitored and viewed.
"We imagined it as being used with a community or small farm setting," Unger told Dezeen. "Our setup with the two domes being placed in a table-like structure is more of a presentation setup. The domes can be separated, so that they can be easily replicated and placed on a shelf to be grown in masses."
Once the samples are fully grown, the agar pods (FU) and their contents are removed and ready to consume.
"Pleurotus varies from very mild to very strong, sometimes described as sweet with the smell of anise or liquorice," explained Unger, who worked with designer Julia Kaisinger on the project. "Texture and flavor depend a lot on the strain."