The invention provides a callus induction medium for blueberry tissue culture, taking woody plant medium (WPM) as a basic medium, and including: 0.5-5.0 mg/L forchlorfenuron (CPPU) and 0.1-0.4 mg/L 2-isopentenyladenine (2-ip). The present invention also provides a callus culture method for blueberry, including inoculating the blueberry explant into the above callus induction medium to conduct induction culture in order to form blueberry callus. The present invention also discloses the medium combination and culture method to culture the above blueberry callus to blueberry tissue culture plant. For the above medium and culture method, the differentiation effect is good, efficiency is high, one can conduct continuous differentiation, and the effect is better on multiple varieties.

The invention provides a callus induction medium for blueberry tissue culture, taking woody plant medium (WPM) as a basic medium, and including: 0.5-5.0 mg/L forchlorfenuron (CPPU) and 0.1-0.4 mg/L 2-isopentenyladenine (2-ip). The present invention also provides a callus culture method for blueberry, including inoculating the blueberry explant into the above callus induction medium to conduct induction culture in order to form blueberry callus. The present invention also discloses the medium combination and culture method to culture the above blueberry callus to blueberry tissue culture plant. For the above medium and culture method, the differentiation effect is good, efficiency is high, one can conduct continuous differentiation, and the effect is better on multiple varieties.

Described is a hydroponic system wherein a feed formulation comprising a plant's nutritionally required mineral nutrients is applied to the foliage of the plant and the roots of the plant are in contact with an incomplete water solution that may comprise only hydrogen and oxygen. The feed formulation, methods of feeding a plant or plant seed, and plants produced thereby are also described.

A mechanically resilient variety of Rushia lineolata is presented, particularly in combination with a conditioned growth medium. In preferred aspects, the variety is clonally selected for a small growth profile and mechanical resiliency to resist damage from foot traffic, and the growth medium includes a porous low-density glass component, an acidic organic absorbent component, and a microbial organic component to enhance the desired properties.

Described herein are methods, compositions, products, and processes that utilize bioceramics in traditional agricultural and hydroponic systems. The bioceramics are utilized in powder form, as films, as aerosols, as water based treatment systems, or in solid forms. The methods and bioceramic compositions described here are also used for growing a Cannabis plant. One or more cannabinoids within the plant can be used in therapeutic compositions for the treatment of glaucoma, AIDS wasting syndrome, neuropathic pain, cancer, multiple sclerosis, chemotherapy-induced nausea, and certain seizure disorders.

Described herein are methods, compositions, products, and processes that utilize bioceramics in traditional agricultural and hydroponic systems. The bioceramics are utilized in powder form, as films, as aerosols, as water based treatment systems, or in solid forms. The methods and bioceramic compositions described here are also used for growing a Cannabis plant. One or more cannabinoids within the plant can be used in therapeutic compositions for the treatment of glaucoma, AIDS wasting syndrome, neuropathic pain, cancer, multiple sclerosis, chemotherapy-induced nausea, and certain seizure disorders.

The present invention relates to a plant regeneration medium composition and a plant regeneration method using same. More specifically, the present invention relates to a plant regeneration medium composition using a medium composition containing Shungite as an active ingredient to increase the rates of shoot organogenesis and root organogenesis, thereby shortening the time required for organogenesis using a plant explant and improving the efficiency of ontogeny, and to a plant regeneration method using same.

The presently claimed invention is related to a method for vegetative propagation of poplar trees (Populus sp.), from prepared leaf cuttings, wherein the method comprises the steps of: a) providing cuts of leaf cuttings from a donor tree, b) immersing the prepared leaf cutting into a combination of growth regulators, c) planting the prepared leaf cutting into a solid substrate of organic and/or inorganic origin, d) inducing sprouting and rooting of the prepared leaf cutting, by means of controlled ambient temperature, humidity and illumination, wherein steps a) through d) always occur outside an in vitro environment; and embodiments thereof.

A method of producing artificial bio-soil aggregates based on foamed concrete for plant growth that can ensure sufficient moisture and plant nutrients for the habitat of plants in non-soil conditions; obtain a lightweight, durable, and deep soil layer, and continuously provide a favorable environment for plant growth. A paste is prepared by mixing cement with an admixture, such as ochre and burnt-furnace slag; foamed concrete is formed by adding foam bubbles with an appropriate foaming rate to said paste, thereby producing soil concrete. When the foamed concrete is used, a designated compressive strength can be ensured and a number of pore spaces are formed, which allow the air to be sucked and expelled therethrough and store moisture therein. Also, hydrogel that is incorporated into the foamed concrete may supply nutrients required for plant growth, improve pest resistance, and store and supply a large amount of water.

An improved soilless media composition including (a) green tuff; and (b) a substrate such as peat or bark. A method of enhancing the growth of plants including adding plant propagative material to a soilless media composition comprising (a) green tuff; and (b) a substrate.