Fungal Species: Polyporus brumalis

Effects of Environmental and Nutritional Conditions on Mycelium Growth of Three Basidiomycota

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Researchers tested how three types of edible and medicinal mushroom fungi grow on different substrate mixtures to develop better biodegradable materials for packaging and insulation. They found that substrates rich in cotton fibers combined with specific carbon dioxide levels produced the fastest and densest fungal growth. These findings help optimize the production of eco-friendly mushroom-based materials that could replace plastic and foam products while being fully compostable.

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Quantification of fungal biomass in mycelium composites made from diverse biogenic side streams

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Scientists have developed a new method to measure how much fungal material is actually in mushroom-based composites, which are sustainable alternatives to plastics. By extracting and analyzing fungal DNA, they found that different mushroom species require different amounts of fungal growth to create stable materials, and the type of waste material used also matters significantly. This research helps manufacturers optimize production of these eco-friendly composites while also showing that various agricultural and industrial waste streams can be successfully converted into useful materials.

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Binder Jetting 3D Printing of Biomass–Fungi Composite Materials: A Preliminary Experimental Study

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Researchers developed a new 3D printing method called binder jetting to create eco-friendly materials made from agricultural waste and fungi. The fungi’s root-like structures naturally bind plant particles together, creating a biodegradable alternative to plastic. This method produces complex shapes with better precision than previous techniques and could revolutionize sustainable manufacturing for packaging and furniture.

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