Provided is a cultivating material composition including a cultivating substrate and a bio-cellulose film, wherein the bio-cellulose film is in contact with the cultivating substrate, such that highly increased yield and quality of crops, a shorter harvest period, less water and nutrient sources, and low cost can be achieved.

A seed ball for use in reforestation and horticulture, the seed ball comprising a seed encapsulated within a seed encapsulant, comprising soil, clay and biochar. Apparatus for making the seed ball include a roller mill and a press mill.

A seed ball for use in reforestation and horticulture, the seed ball comprising a seed encapsulated within a seed encapsulant, comprising soil, clay and biochar. Apparatus for making the seed ball include a roller mill and a press mill.

The present invention relates to an organic soil builder, conditioner and/or biofertilizer, and to the production method thereof, which organic soil conditioner and/or biofertilizer has an organic base that allows the availability of nutrients in the soil to be increased for use when the plant requires, or the recovery of degraded soils. The method of the invention uses any type of animal waste sludges together with dry matter and granulated minerals. This mixture is fermented for 40 to 210 days, thus obtaining the organic soil builder, conditioner and/or biofertilizer of the invention.

A plant growth media composition, articles made therefrom, and methods of making and using the same are described. The plant growth media composition includes a combination of one or more plant growth substrate materials and an additive such as cellulose fibers, clay, carrageenan, alginate, chitosan, or combinations thereof.

A plant growth media composition, articles made therefrom, and methods of making and using the same are described. The plant growth media composition includes a combination of one or more plant growth substrate materials and an additive such as cellulose fibers, clay, carrageenan, alginate, chitosan, or combinations thereof.

An apparatus for treating water in soil-less growing systems has a container having a cross-sectional area and a height, with a first access port for liquid at an upper end, and a second access port for liquid at a lower end, and a porous matrix filling the container, the matrix comprising a hydrophilic polymer mixed with rocks and natural minerals. Water drawn from a soil-less growing system, is urged into the container through one of the liquid access ports, causes the water to flow through the matrix in the container, the water in contact with the rocks and natural minerals in the matrix, leaching elements from the matrix, and causes the water to exit the container at the other of the liquid access ports, to flow back to the soil-less growing system.

An apparatus for treating water in soil-less growing systems has a container having a cross-sectional area and a height, with a first access port for liquid at an upper end, and a second access port for liquid at a lower end, and a porous matrix filling the container, the matrix comprising a hydrophilic polymer mixed with rocks and natural minerals. Water drawn from a soil-less growing system, is urged into the container through one of the liquid access ports, causes the water to flow through the matrix in the container, the water in contact with the rocks and natural minerals in the matrix, leaching elements from the matrix, and causes the water to exit the container at the other of the liquid access ports, to flow back to the soil-less growing system.

A structure has a high-impact plastic polymer tile comprising interconnected individual cells, each having an outer wall of a vertical dimension forming a closed outer periphery, and a matrix filling the cells from a lowermost extremity of the walls of the cells, to level below an uppermost extremity of the internal walls of the cells, the matrix comprising material supporting plant growth. With the tile lying on a base surface, the individual cells of the tile constrain the matrix material from horizontal translation, and wherein the walls of the cells, extending above the level of the matrix in the cells, provide support for any wheeled vehicle without disturbing the matrix.

A process of plant fertilization includes adsorbing phosphorus from an anthropogenic phosphorus source onto a plurality of particles of phosphorus adsorbent and then applying the plurality of particles of phosphorus adsorbent to a plant medium. A composition includes a soil amendment and a plant medium. The soil amendment includes a plurality of particles of phosphorus adsorbent and phosphorus from an anthropogenic phosphorus source adsorbed onto the particles. A process includes adsorbing a first amount of phosphorus from a phosphorus source onto a plurality of particles of phosphorus adsorbent to saturate the particles of phosphorus adsorbent with phosphorus. The process also includes processing the particles to maintain the first amount of phosphorus on the particles and permit additional adsorption of phosphorus onto the particles. The process further includes adsorbing an additional amount of phosphorus from the phosphorus source onto the particles to saturate the particles with phosphorus.