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.

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.

Substrates for mushroom growth comprise bokashi growth mediums. Bokashi growth mediums comprise acid and chitin sources. Bokashi growth mediums may further comprise an inoculant. Exemplary inoculants provided include a bokashi tea. Methods of providing a substrate for mushroom growth. Methods of growing a mushroom.

A method of culturing Antrodia cinnamomea with high Triterpenoids includes mixing a malt extract, glucose, peptone, agar, and a mushroom's extract with distilled water to obtain a culture medium; providing the culture medium to a high-pressure sterilization machine for sterilization to obtain a sterilized culture medium; providing the sterilized culture medium to an incubator in a disinfection environment to obtain a solidified culture medium after a predetermined time; transplanting Antrodia cinnamomeas strains to the solidified culture medium at separated positions; and exposing the solidified culture medium under a beam.

A method for cultivating Cordyceps militaris fruiting body capable of improving C. militaris fruiting body morphology is provided, wherein rice absorbed with a tea liquid is used as a solid-state culture medium. In comparison to using rice absorbed with water as a solid-state culture medium, the C. militaris fruiting body cultivated by using the solid-state culture medium of the present invention under the same cultivation condition are significantly more robust.

Disclosed is a chemical-physical method of producing mushrooms enriched with biologically active substances including steps of isolation and pre-seeding development of the mycelium of a desired fungal species, maturation of the substrate, mycelium sowing and incubation with development of fungal primordia under conditions controlled and assisted by machines and processors designed to adjust temperature, humidity and radiation, development of carpophores, their collection and treatment with pulsed light in order to stimulate the production of vitamin D2. Physical treatment includes exposing the environment to electromagnetic fields (EMF) during all the previous steps the collection, and chemical treatment includes adding the substrate with egg powder. After the mycelium sowing, the substrate is enriched with inorganic trace elements, with a result of obtaining officinal mushrooms that are provided with therapeutic capacities in particular in oncology field and, in general, adapted to counter cell degeneration in a variety of diseases.

Techniques for generating high-yield fungi production are disclosed. In one particular embodiment, the techniques may be realized as a system for generating high-yield fungi production, the system comprising at least one modular container and a growing system housed within the modular container. The growing system may include a substrate preparation system configured to accept substrate and prepare substrate for pasteurization, a pasteurization system configured to pasteurize prepared substrate received from the substrate preparation system, a draining, cooling, and packing system configured to cool and drain pasteurized prepared substrate from the pasteurization system and to pack pasteurized and cooled substrate into at least one growing container, an inoculation system configured to inoculate the pasteurized and cooled substrate, and a plurality of vertical racks coupled to a ceiling of the modular container and configured to hold the at least one growing container.

A mushroom compost leveling apparatus includes a panel with a bottom edge where the panel is vertically suspended in a mushroom compost receptacle leaving a gap between the bottom edge and the floor of the receptacle. The panel reciprocates from side to side as mushroom compost is conveyed under the panel. Optionally, the panel includes vanes extending outwardly from a first face surface, and a rake outwardly and downwardly extending from the panel at or near the bottom edge. Optionally, a pair of wheels are mounted for rotation either to the first face of the panel or to a rail of a frame to be isolated from the panel, and the wheels each include paddles that push compost toward the side edges of the mushroom compost receptacle as the wheels are rotated. Optionally, the leveling apparatus is removably attached to sleeves depending over sidewalls of the compost receptacle, and a roller assembly is removably attached to such sleeves downstream of the leveling apparatus.

A mushroom compost leveling apparatus includes a panel with a bottom edge where the panel is vertically suspended in a mushroom compost receptacle leaving a gap between the bottom edge and the floor of the receptacle. The panel reciprocates from side to side as mushroom compost is conveyed under the panel. Optionally, the panel includes vanes extending outwardly from a first face surface, and a rake outwardly and downwardly extending from the panel at or near the bottom edge. Optionally, a pair of wheels are mounted for rotation either to the first face of the panel or to a rail of a frame to be isolated from the panel, and the wheels each include paddles that push compost toward the side edges of the mushroom compost receptacle as the wheels are rotated. Optionally, the leveling apparatus is removably attached to sleeves depending over sidewalls of the compost receptacle, and a roller assembly is removably attached to such sleeves downstream of the leveling apparatus.

The use of particular terpenes, or of essential oils that are mainly composed thereof, as biostimulants in the production of mycelia and the cultivation of mushrooms. More particular, the invention relates to the use of at least one beta-pinene, delta-3-carene or beta-phellandrene chemotyped essential oil, or of at least one terpene selected from beta-pinene, delta-3-carene or beta-phellandrene, or one of the mixtures thereof, for stimulating the development and growth of mycelia and of edible mushrooms.