The composite material is comprised of a substrate of discrete particles and a network of interconnected mycelia cells bonding the discrete particles together. The composite material forms a core to which one or more boards of veneer material are bonded to form a panel.

A self-supporting composite material is made with a shape conforming to the shape of an enclosure within which the composite material is incubated and molded. In on embodiment, a lid with at least one extrusion is placed over the enclosure to form a void in the final product corresponding to the extrusion. In another embodiment, a tool with extruded features is pressed into a face of the product in the enclosure to mold features into the finished product.

A method of fermenting mycelium composite materials wherein layers of fermentable material are stacked in alteration with ventilation layers with air being passed through the ventilation layers to remove heat and gas generated in the layers of fermentable material during fermentation thereof. The obtained composite materials may be formed into cohesive flat boards, such as are used in the manufacture of insulation or furniture.

A growing medium for a plant production apparatus utilized in greenhouse crop production is provided. The growing medium comprises a fibrous, non-woven matrix media material wherein the media material is constructed from a plastic material.

A growing medium for a plant production apparatus utilized in greenhouse crop production is provided. The growing medium comprises a fibrous, non-woven matrix media material wherein the media material is constructed from a plastic material.

A hybrid mushroom culture of Agaricus bisporus, designated as strain J11500, includes a representative culture of the strain, which has been deposited under NRRL Accession No. 50895. A method of producing a hybrid mushroom culture of Agaricus bisporus comprising: mating a homokaryotic line J10102-s69 with a homokaryotic line OWNC. Additionally, mushrooms, parts of the culture and products incorporating the culture are provided.

This application relates to a method for growing aerial mycelium with a defined growth pattern and products of aerial mycelium materials with defined growth patterns based on controlled inoculation and either pasteurization or sterilization of a substrate in situ at the same select physical location. For example, a defined growth pattern can include a homogeneous growth topology or a geometrically regular pattern of bulbous forms, prompted by a defined geometrically regular inoculation of pasteurized or sterilized substrate from which the aerial mycelium is grown.

The composite material is comprised of a substrate of discrete particles and a network of interconnected mycelia cells bonding the discrete particles together. The composite material is a made by inoculating a substrate of discrete particles and a nutrient material with a preselected fungus. The fungus digests the nutrient material over a period of time sufficient to grow hyphae and to allow the hyphae to form a network of interconnected mycelia cells through and around the discrete particles thereby bonding the discrete particles together to form a self-supporting composite material. In another embodiment, the fungus is allowed to grow as a fruiting body out of the substrate and within an enclosure to completely fill the enclosure to form a self-supporting structure.

A growing medium for a plant production apparatus utilized in greenhouse crop production is provided. The growing medium comprises a fibrous, non-woven matrix media material wherein the media material is constructed from a plastic material.

The composite material is comprised of a substrate of discrete particles and a network of interconnected mycelia cells bonding the discrete particles together. The composite material is made by inoculating a substrate of discrete particles and a nutrient material with a preselected fungus. The fungus digests the nutrient material over a period of time sufficient to grow hyphae and to allow the hyphae to form a network of interconnected mycelia cells through and around the discrete particles thereby bonding the discrete particles together to form a self-supporting composite material.