A process for growing mycelium with cannabis, by designing and filling a spawn bag with medium containing cannabis, water and optional grain, followed by inoculating and maturing mycelium spawn to grow and harvest mushrooms with optional drying thereafter.

A process for growing mycelium with cannabis, by designing and filling a spawn bag with medium containing cannabis, water and optional grain, followed by inoculating and maturing mycelium spawn to grow and harvest mushrooms with optional drying thereafter.

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.

Disclosed is a restoration material, a restoration method for abandoned ion-absorbed rare earth tailings area and use thereof, which belongs to the technical field of ecological restoration. The restore material for the abandoned ion-absorbed rare earth tailings area provided by the present disclosure comprises AM fungi and pioneer plants; the species of AM fungi is selected from one or more of G. intraradices, G. mosseae and P. occultum; the pioneer plants is selected from one or more of paspalum, ramie and awn.

Disclosed is a restoration material, a restoration method for abandoned ion-absorbed rare earth tailings area and use thereof, which belongs to the technical field of ecological restoration. The restore material for the abandoned ion-absorbed rare earth tailings area provided by the present disclosure comprises AM fungi and pioneer plants; the species of AM fungi is selected from one or more of G. intraradices, G. mosseae and P. occultum; the pioneer plants is selected from one or more of paspalum, ramie and awn.

A mycological biopolymer product consisting entirely of fungal mycelium is made by inoculating a nutritive substrate with a selected fungus in a sealed environment except for a void space, which space is subsequently filled with a network of undifferentiated fungal mycelium. The environmental conditions for producing the mycological biopolymer product, i.e. a high carbon dioxide (CO.sub.2) content (from 5% to 7% by volume) and an elevated temperature (from 85° F. to 95° F.), prevent full differentiation of the fungus into a mushroom. There are no stipe, cap, or spores produced. The biopolymer product grows into the void space of the tool, filling the space with an undifferentiated mycelium chitin-polymer, which is subsequently extracted from the substrate and dried.

The present invention relates to a mushroom mycelium complex composition having a liver function-improving activity and a preparation method therefor. The composition is prepared by collectively inoculating the mycelia of three kinds of mushrooms that are Inonotus obliquus, Ganoderma lucidum, and Phellinus linteus, into a naked barley culture medium to obtain a mushroom mycelium complex and extracting the mushroom mycelium complex to obtain an extract of the mushroom mycelium complex. The composition has an effect of improving liver function.

A planting method for morels is disclosed, including the following steps of: (1) preparing spawn; (2) flipping the spawn; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawn, thereby reducing planting costs and product costs.

A planting method for morels is disclosed, including the following steps of: (1) preparing spawn; (2) flipping the spawn; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawn, thereby reducing planting costs and product costs.