Abstract: This application relates generally to aerial mycelium and methods of making aerial mycelium suitable for use as a food or textile product or ingredient. The aerial mycelium can be grown using a growth matrix provided into a growth environment and introducing aqueous mist into the growth environment. The aqueous mist has a mean mist deposition rate to allow for aerial mycelial growth from the growth matrix.

Abstract: A mycological biopolymer material is subjected to treatment in one or more solutions that work to enhance and/or retain the inherent material properties of the material. In one embodiment, the solution is an organic solution; in another embodiment, the solution is an organic solvent with a salt; in another embodiment, the solution is an organic solvent phenol and/or polyphenol; and in another embodiment, a series of such solutions is used.

Abstract: This application relates generally to aerial mycelium and methods of making aerial mycelium suitable for use as a food or textile product or ingredient. The aerial mycelium can be grown using a growth matrix provided into a growth environment and introducing aqueous mist into the growth environment. The aqueous mist has a mist deposition rate and a mean mist deposition rate to allow for aerial mycelial growth from the growth matrix.

Abstract: The method grows a mycelial mass over a three-dimensional lattice such that a dense network of oriented hyphae is formed on the lattice. Growth along the lattice results in mycelium composite with highly organized hyphae strands and allows the design and production of composites with greater strength in chosen directions due to the organized nature of the supporting mycelia structure.

Abstract: A mycological composite material is made by inoculating a substrate of fibrous material with an inoculum of mycelial tissue; rolling the inoculated substrate into a roll; and thereafter incubating the rolled inoculated substrate for a time sufficient for the mycelial tissue to grow hyphae that enmesh with the substrate to form a cohesive unified filamentous network with the rolled inoculated substrate being characterized in being flexible. The rolled inoculated substrate is subsequently processed by subjecting lengths of the roll to heat and pressure in molds to form rigid products.