An environment-controllable cultivation device for Morchella esculenta planting is provided, relating to the technical field of Morchella esculenta planting. The device includes a fixing seat and a Morchella esculenta cultivation cover. The Morchella esculenta cultivation cover is fixedly connected with the fixing seat, and a supporting top plate is fixedly installed at a top of the Morchella esculenta cultivation cover, and a water tank is fixedly installed on the supporting top plate; a mounting plate, where the mounting plate is located in the Morchella esculenta cultivation cover and is fixedly connected with the supporting top plate; and a cultivating mechanism, where the cultivating mechanism is located in the Morchella esculenta cultivation cover and is connected with the mounting plate, and the cultivating mechanism is also connected with the water tank. The cultivating mechanism includes a variable detection assembly, a soil moisturizing assembly and a cultivation assembly.

An environment-controllable cultivation device for Morchella esculenta planting is provided, relating to the technical field of Morchella esculenta planting. The device includes a fixing seat and a Morchella esculenta cultivation cover. The Morchella esculenta cultivation cover is fixedly connected with the fixing seat, and a supporting top plate is fixedly installed at a top of the Morchella esculenta cultivation cover, and a water tank is fixedly installed on the supporting top plate; a mounting plate, where the mounting plate is located in the Morchella esculenta cultivation cover and is fixedly connected with the supporting top plate; and a cultivating mechanism, where the cultivating mechanism is located in the Morchella esculenta cultivation cover and is connected with the mounting plate, and the cultivating mechanism is also connected with the water tank. The cultivating mechanism includes a variable detection assembly, a soil moisturizing assembly and a cultivation assembly.

A consumer product for supplementing CO.sub.2 is provided with delayed activation control and multiple chambers formed by folding and clamping or with multiple clamps. A bag, having a top and a bottom seal and a filter, contains organisms and food substrate, each prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. The mycelial mass having mycelia and food, or mycelia separate from the food may be sealed or partially sealed away from the air exchange portal by clamps or folds. With selective chamber isolation, the organisms are manipulated to delay optimized carbon dioxide generation. Utilizing the present invention will extend the product shelf-life, delaying the expiration of the product for storage and shipping. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants.

A consumer product for supplementing CO.sub.2 is provided with delayed activation control and multiple chambers formed by folding and clamping or with multiple clamps. A bag, having a top and a bottom seal and a filter, contains organisms and food substrate, each prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. The mycelial mass having mycelia and food, or mycelia separate from the food may be sealed or partially sealed away from the air exchange portal by clamps or folds. With selective chamber isolation, the organisms are manipulated to delay optimized carbon dioxide generation. Utilizing the present invention will extend the product shelf-life, delaying the expiration of the product for storage and shipping. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants.

The method grows a mycelial mass over a three-dimensional lattice such that a dense network of oriented hyphae is formed on the lattice. Growth along the lattice results in mycelium composite with highly organized hyphae strands and allows the design and production of composites with greater strength in chosen directions due to the organized nature of the supporting mycelia structure.

The method grows a mycelial mass over a three-dimensional lattice such that a dense network of oriented hyphae is formed on the lattice. Growth along the lattice results in mycelium composite with highly organized hyphae strands and allows the design and production of composites with greater strength in chosen directions due to the organized nature of the supporting mycelia structure.

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.

An inflatable monotub system includes a body having plural surfaces defining an interior cavity. One or more of the plural surfaces includes a pocket disposed within the one or more of the plural surfaces. The plural surfaces define plural side surfaces and a bottom surface of the body. The body includes a first passage extending into at least a portion of one of the plural surfaces and fluidly coupled with one or more of the pockets of the plural surfaces. A first fluid is directed into or out of the first passage. Directing the first fluid into the first passage inflates at least one of the one or more pockets within the first fluid, and directing the first fluid out of the first passage deflates the at least one of the one or more pockets.

An inflatable monotub system includes a body having plural surfaces defining an interior cavity. One or more of the plural surfaces includes a pocket disposed within the one or more of the plural surfaces. The plural surfaces define plural side surfaces and a bottom surface of the body. The body includes a first passage extending into at least a portion of one of the plural surfaces and fluidly coupled with one or more of the pockets of the plural surfaces. A first fluid is directed into or out of the first passage. Directing the first fluid into the first passage inflates at least one of the one or more pockets within the first fluid, and directing the first fluid out of the first passage deflates the at least one of the one or more pockets.