A system for growing fungi, the system comprising a nutritive vehicle, a porous material, an administrable space, fungal tissue comprising fungal hyphae having a growth pattern, the fungal tissue connecting said nutritive vehicle to said porous material to said administrable space, wherein the fungal tissue within said space defines at least one successive fungal material layer; and a chemically or physically altered separated portion of fungal material, the separated portion separated from said fungal tissue.

A system for growing fungi, the system comprising a nutritive vehicle, a porous material, an administrable space, fungal tissue comprising fungal hyphae having a growth pattern, the fungal tissue connecting said nutritive vehicle to said porous material to said administrable space, wherein the fungal tissue within said space defines at least one successive fungal material layer; and a chemically or physically altered separated portion of fungal material, the separated portion separated from said fungal tissue.

A lockable equipment rack for a backpack blower is presented. A lockable equipment rack includes adjustable components configured to storage of a variety of backpack blowers. The equipment rack can be installed in a variety of locations, for example a trailer, and securely store the backpack blower. The lockable equipment rack prevents theft of the backpack blower and tampering of its components.

A lockable equipment rack for a backpack blower is presented. A lockable equipment rack includes adjustable components configured to storage of a variety of backpack blowers. The equipment rack can be installed in a variety of locations, for example a trailer, and securely store the backpack blower. The lockable equipment rack prevents theft of the backpack blower and tampering of its components.

An aquaponics and greenhouse system, includes a solar greenhouse insulated on north, east and west sides and with glazing on a south side at an angle to maximize winter sunlight, and housing a fish tank, grow beds, and a hard filter. The grow beds and hard filter include geyser pumps in the fish tank powered by air pumps that pump water from the fish tank to the grow bed or hard filter and aerate fish tank water. The hard filter includes algae layer with an air stone powered by an air pump underneath to aerate the algae. Grow beds on the north side have a barrier layer over media, and with a mushroom bulk substrate layer disposed thereover. The air intake of the air pump of the hard filter or the air stone extract CO2 from the mushroom bulk substrate and pump the extracted CO2 to the algae layer.

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.

A perforating, oxygenating and water injection integrated apparatus for mushroom sticks of edible mushrooms includes a support component that can realize lifting motion; a perforating, oxygenating and water injection component includes a needle head fastener, the needle head fastener is connected to the support component via lifting pieces, a plurality of hollow needle heads are fastened to the needle head fastener, and the needle heads are respectively in communication with a water supply pipeline and an oxygen supply pipeline; mushroom stick support frames are installed on the support component, and can expand and contract relative to the support component; the mushroom stick support frames are located below the perforating, oxygenating and water injection component; and mushroom stick grabbing components are fastened to the support component, and includes grabbing mechanisms that grab the mushroom sticks to the mushroom stick support frames and then release.

A perforating, oxygenating and water injection integrated apparatus for mushroom sticks of edible mushrooms includes a support component that can realize lifting motion; a perforating, oxygenating and water injection component includes a needle head fastener, the needle head fastener is connected to the support component via lifting pieces, a plurality of hollow needle heads are fastened to the needle head fastener, and the needle heads are respectively in communication with a water supply pipeline and an oxygen supply pipeline; mushroom stick support frames are installed on the support component, and can expand and contract relative to the support component; the mushroom stick support frames are located below the perforating, oxygenating and water injection component; and mushroom stick grabbing components are fastened to the support component, and includes grabbing mechanisms that grab the mushroom sticks to the mushroom stick support frames and then release.

A method using a system adapted for continuous growth and harvesting of fungal fruiting bodies. The system includes a growth chamber, one or more mycelium feed assemblies, a nutrient reservoir with liquid media, one or more environmental controls to control an environment within the growth chamber and of the liquid media within the nutrient reservoir. One or more mycelium feed assemblies are arranged within the growth chamber. Each of the one or more mycelium feed assemblies includes a nutrient supply member and a mycelium colony which grows around the nutrient supply member, that continuously supplies liquid media to the mycelium colony. The method includes starting one or more mycelium colonies on the nutrient supply member, establishing that a mature colony has formed, and then maintaining the mature mycelium colony by continuous delivery of liquid medium to the mycelium colony, thus allowing for contiguous generation and harvesting of fungal fruiting bodies.