The present invention relates to the promotion of the growth of at least one plant by providing a fertilizer composition-comprising at least one zeolite, into the pores of which at least one basic L-amino acid has been adsorbed; adding the fertilizer composition to a medium for plant growth; and culturing a plant therein. The invention will provide the release of nitrogen from the fertilizer composition during culture of the plant at a rate which is advantageously used by the plant. The invention also relates to a fertilizer composition as such, optionally combined with a medium for plant growth to make up a growth-promoting material. The invention is advantageously used to reduce the resources required in the fertilization of slowly growing plants, where repeated supply of nutrients as well as leakage of nitrogen amounts to large costs to society.

The present invention relates to a method for treating a plastic and/or paper waste material having steps including collecting a plastic and/or paper waste material, preferably paper, and highly preferably a release coated cellulose or polymeric sheet material. The material already includes a selected new-use additive preferably selected from flame retardant, hydrophobic material, pesticide, herbicides, minerals, nutrients, and/or mixtures thereof. The method includes the step of preparing the collected material by mixing, separating foreign bodies like metals, etc., and feeding it to a grinding station. The method also includes the step of, in one or several grinding stations, shredding and grinding the materials into small pieces.

To provide a fungus bed cultivation bag that prevents mushroom spawn film from tearing when the fungus bed is removed from the bag and can surely form the fungus bed in an appropriate shape. The fungus bed cultivation bag includes body parts opposing in the front and the back, a folding gusset part connecting to both sides of the body parts, a bottom seal part formed by heat-sealing the lower ends of the body parts and an inclined seal part formed by heat-sealing the lower end sides of the body parts and the folding gusset part in an oblique direction.

To provide a fungus bed cultivation bag that prevents mushroom spawn film from tearing when the fungus bed is removed from the bag and can surely form the fungus bed in an appropriate shape. The fungus bed cultivation bag includes body parts opposing in the front and the back, a folding gusset part connecting to both sides of the body parts, a bottom seal part formed by heat-sealing the lower ends of the body parts and an inclined seal part formed by heat-sealing the lower end sides of the body parts and the folding gusset part in an oblique direction.

A method of making a food source or medicinal composition and a mycotecture construction unit includes (a) cultivating a mycelium/substrate composite and edible mushrooms, and (b) manufacturing the mycotecture construction unit. A mycelium inoculum is formed of a preselected fungus and used to inoculate a substrate. Mycelium are grown in the inoculated substrate in a growing column and edible mushrooms are harvested from the mycelium, leaving a mycelium-substrate composite. The manufacture of the mycotecture construction unit includes placing the mycelium-substrate composite into a modular, reconfigurable press having a cavity with a predetermined shape; pressing the mycelium-substrate composite at a predetermined pressure; and heating the mycelium-substrate composite in a heating chamber. The construction unit is packaging, an insulation panel, a building construction material, or a household fitting with excellent compression strength, compressive modulus, flexural strength, flexural modulus, insulative properties, and fire retardant properties.

A method of making a food source or medicinal composition and a mycotecture construction unit includes (a) cultivating a mycelium/substrate composite and edible mushrooms, and (b) manufacturing the mycotecture construction unit. A mycelium inoculum is formed of a preselected fungus and used to inoculate a substrate. Mycelium are grown in the inoculated substrate in a growing column and edible mushrooms are harvested from the mycelium, leaving a mycelium-substrate composite. The manufacture of the mycotecture construction unit includes placing the mycelium-substrate composite into a modular, reconfigurable press having a cavity with a predetermined shape; pressing the mycelium-substrate composite at a predetermined pressure; and heating the mycelium-substrate composite in a heating chamber. The construction unit is packaging, an insulation panel, a building construction material, or a household fitting with excellent compression strength, compressive modulus, flexural strength, flexural modulus, insulative properties, and fire retardant properties.

Methodologies and apparatuses are provided for producing new anti-cancer compounds and compositions by placing mushrooms or mushroom mycelia in contact with cancer cells or tissues and harvesting secretions produced by the mushrooms or mushroom mycelia which will destroy cancer cells without harming normal cells and tissues. The anti-cancer compounds are administered to humans or other mammals for cancer treatment.

Methodologies and apparatuses are provided for producing new anti-cancer compounds and compositions by placing mushrooms or mushroom mycelia in contact with cancer cells or tissues and harvesting secretions produced by the mushrooms or mushroom mycelia which will destroy cancer cells without harming normal cells and tissues. The anti-cancer compounds are administered to humans or other mammals for cancer treatment.

Techniques for generating high-yield fungi production are disclosed. In one particular embodiment, the techniques may be realized as a system for generating high-yield fungi production, the system comprising at least one modular container and a growing system housed within the modular container. The growing system may include a substrate preparation system configured to accept substrate and prepare substrate for pasteurization, a pasteurization system configured to pasteurize prepared substrate received from the substrate preparation system, a draining, cooling, and packing system configured to cool and drain pasteurized prepared substrate from the pasteurization system and to pack pasteurized and cooled substrate into at least one growing container, an inoculation system configured to inoculate the pasteurized and cooled substrate, and a plurality of vertical racks coupled to a ceiling of the modular container and configured to hold the at least one growing container.

The process aseptically inoculates a liquid media with a vegetative Xylaria fungal species to form a culture; statically incubates the culture in a vessel for a time sufficient to begin initiation of fruit body development and asexual sporulation and halts incubation at maximum conidia production prior to the beginning of sexual sporulation. Thereafter, the entire culture contents of the incubation vessel are macerated to homogenize the fungal biomass and conidia therein and form an inoculum.