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.

Methods for culturing filamentous fungi, in which the filamentous fungi are grown in a colloid of air and a fermentation medium, are provided. The methods result in more rapid and prolific growth of the filamentous fungus than has been achieved by previous methods. Biomats produced by the methods and air-medium colloids for use in the methods are also provided.

Microsclerotia of entomopathogenic fungi, including Metarhizium species, Beauveria species, and Lecanicillium species, may be produced. These microsclerotia are effective for the control of a wide variety of insect pests, particularly soil-dwelling insect pests.

Microsclerotia of entomopathogenic fungi, including Metarhizium species, Beauveria species, and Lecanicillium species, may be produced. These microsclerotia are effective for the control of a wide variety of insect pests, particularly soil-dwelling insect pests.

A culture of the Agaricus bisporus strain B12998 is provided, the culture of the strain B12998 having been deposited under the NRRL Accession Number 50902. Other embodiments include a hybrid strain of Agaricus bisporus having BP-1 as one parent and an OW, SW, HW or experimental BW strain as a second parent. Still other embodiments include a hybrid strain of Agaricus bisporus having strain B12998 as at least one parent. Methods are provided for obtaining offspring including homokaryotic lines from select hybrid strain cultures of Agaricus bisporus, as well as methods and processes for producing hybrid mushroom cultures. A method of mushroom strain development is further provided.

A culture of the Agaricus bisporus strain B12998 is provided, the culture of the strain B12998 having been deposited under the NRRL Accession Number 50902. Other embodiments include a hybrid strain of Agaricus bisporus having BP-1 as one parent and an OW, SW, HW or experimental BW strain as a second parent. Still other embodiments include a hybrid strain of Agaricus bisporus having strain B12998 as at least one parent. Methods are provided for obtaining offspring including homokaryotic lines from select hybrid strain cultures of Agaricus bisporus, as well as methods and processes for producing hybrid mushroom cultures. A method of mushroom strain development is further provided.

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.

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.

A molding system for forming an inoculated lignocellulose based medium into a fungal molded shape, the molding system comprising a vessel within which environmental conditions are regulated, the vessel comprising an inoculated lignocellulose based medium capable of supporting growth of saprophytic fungi without any secondary organisms displacing the process through infection. a secondary organic material layered near the top and bottom of the inoculated lignocellulose based medium, a hard mold containing the flexible vessel; and a compressive system for applying a primary compressive pressure of at least 10 PSI to the lignocellulose based medium such that it takes on a fungal molded shape.