An Antrodia cinnamomea cultivation method sequentially comprises the following steps: step 1, obtaining a nutrient solution by mixing in proportion, wherein ingredients of the nutrient solution comprises Cinnamomum kanehirai extracts, carbon sources and nitrogen sources, the nutrient solution is placed in a porous carrier, the porous carrier has a peripheral surface and multiple micropores recessed into the peripheral surface, the nutrient solution is able to infiltrate into the micropores to form a nutrient layer on the peripheral surface and inner peripheries of the micropores; step 2, performing a membrane treatment on the porous carrier to form a membrane on the nutrient layer; step 3, sterilizing the porous carrier; and step 4, growing Antrodia cinnamomea strains on the membrane on the porous carrier, and then placing the porous carrier in a sealed environment for cultivation at constant temperature and humidity.

An Antrodia cinnamomea cultivation method sequentially comprises the following steps: step 1, obtaining a nutrient solution by mixing in proportion, wherein ingredients of the nutrient solution comprises Cinnamomum kanehirai extracts, carbon sources and nitrogen sources, the nutrient solution is placed in a porous carrier, the porous carrier has a peripheral surface and multiple micropores recessed into the peripheral surface, the nutrient solution is able to infiltrate into the micropores to form a nutrient layer on the peripheral surface and inner peripheries of the micropores; step 2, performing a membrane treatment on the porous carrier to form a membrane on the nutrient layer; step 3, sterilizing the porous carrier; and step 4, growing Antrodia cinnamomea strains on the membrane on the porous carrier, and then placing the porous carrier in a sealed environment for cultivation at constant temperature and humidity.

A monokaryotic mycelium sheet producing system for creating a sheet of monokaryotic mycelial material. The mycelium sheet producing system includes a culture unit, a spore stock unit, a plating unit, a section unit, a sub-plating unit, an expanding unit and a colonization unit. The culture unit prepares a monokaryon culture. The spore stock unit grows a plurality of fruit bodies in sterile laboratory conditions to create a spore stock. The plating unit performs a peroxide-based spore rescue and a plating process. The section unit is adaptable to section robust hyphae. The sub-plating unit sub-plates and expands the robust hyphae onto a spawn grain master. The expanding unit subsequently expands the spawn grain master into appropriate production of spawn volume. The colonization unit is adaptable to perform a subsequent colonization of mycelium substrate thereby creating a substantially defect free sheet of mycelium.

A monokaryotic mycelium sheet producing system for creating a sheet of monokaryotic mycelial material. The mycelium sheet producing system includes a culture unit, a spore stock unit, a plating unit, a section unit, a sub-plating unit, an expanding unit and a colonization unit. The culture unit prepares a monokaryon culture. The spore stock unit grows a plurality of fruit bodies in sterile laboratory conditions to create a spore stock. The plating unit performs a peroxide-based spore rescue and a plating process. The section unit is adaptable to section robust hyphae. The sub-plating unit sub-plates and expands the robust hyphae onto a spawn grain master. The expanding unit subsequently expands the spawn grain master into appropriate production of spawn volume. The colonization unit is adaptable to perform a subsequent colonization of mycelium substrate thereby creating a substantially defect free sheet of mycelium.

A mycelium growth bed for optimal production of pure mycelium or a pure mycelium composite with controlled or predictable properties, the bed comprising a tray, a conveying platform, a permeable membrane, a substrate, and a porous material. The permeable membrane is positioned on the conveying platform within the tray. The substrate is positioned on the permeable membrane and the porous material is positioned on top of the substrate. The system provides a configuration wherein the CO.sub.2 concentration is held above 3%, the relative humidity is held above 40% and the O.sub.2 concentration is held below 20% in steady state conditions to produce leather-like mycelium without fruiting bodies.

A mycelium growth bed for optimal production of pure mycelium or a pure mycelium composite with controlled or predictable properties, the bed comprising a tray, a conveying platform, a permeable membrane, a substrate, and a porous material. The permeable membrane is positioned on the conveying platform within the tray. The substrate is positioned on the permeable membrane and the porous material is positioned on top of the substrate. The system provides a configuration wherein the CO.sub.2 concentration is held above 3%, the relative humidity is held above 40% and the O.sub.2 concentration is held below 20% in steady state conditions to produce leather-like mycelium without fruiting bodies.

Device for delivering at least a layer of compost and casing soil to a shelving for growing mushrooms, comprising a first conveyor, on which in a downstream direction are arranged a first hopper with a receiving opening for receiving compost and a dispensing opening for delivering a compost layer on the first conveyor and a second hopper with a receiving opening for receiving casing soil and a dispensing opening for delivering casing soil on the compost layer wherein at least one separator for separating in a direction perpendicular to the downstream direction at least two fractions of the layer of compost with casing soil.

An array system of passive solar aquaponic and mushroom production structures, each having a glazing on a sun facing side to maximize winter sunlight; a plant growing area; a mushroom growing area; a water wall thermal mass integrated and disposed between the plant and mushroom growing areas; a fish tank; a saltwater basin under the plant growing holding saltwater; a natural air ventilation system providing misted air to the mushroom growing area and receiving O2 from the plant growing provided to the mushroom growing area, and CO2 generated by the mushroom growing area provided to the plant growing area; and saltwater channels delivering saltwater to the saltwater basins from a saltwater source, and which is evaporated by solar heat generated by the plant growing areas in order to generate freshwater.

Device for delivering at least a layer of compost and casing soil to a shelving for growing mushrooms, comprising a first conveyor, on which in a downstream direction are arranged a first hopper with a receiving opening for receiving compost and a dispensing opening for delivering a compost layer on the first conveyor and a second hopper with a receiving opening for receiving casing soil and a dispensing opening for delivering casing soil on the compost layer wherein at least one separator for separating in a direction perpendicular to the downstream direction at least two fractions of the layer of compost with casing soil.

A monokaryotic mycelium sheet producing system for creating a sheet of monokaryotic mycelial material. The mycelium sheet producing system includes a culture unit, a spore stock unit, a plating unit, a section unit, a sub-plating unit, an expanding unit and a colonization unit. The culture unit prepares a monokaryon culture. The spore stock unit grows a plurality of fruit bodies in sterile laboratory conditions to create a spore stock. The plating unit performs a peroxide-based spore rescue and a plating process. The section unit is adaptable to section robust hyphae. The sub-plating unit sub-plates and expands the robust hyphae onto a spawn grain master. The expanding unit subsequently expands the spawn grain master into appropriate production of spawn volume. The colonization unit is adaptable to perform a subsequent colonization of mycelium substrate thereby creating a substantially defect free sheet of mycelium.