The described invention is directed to hydrogel-based transparent soils that can provide heterogeneous, aeration, and porous condition for plant growth. The hydrogel beads are highly tailorable in size and porosity providing an environment that is closer to natural soil. Index-matching allows the beads to appear transparent, facilitating the use of imaging and microscopy of the plant root system in vivo.

The described invention is directed to hydrogel-based transparent soils that can provide heterogeneous, aeration, and porous condition for plant growth. The hydrogel beads are highly tailorable in size and porosity providing an environment that is closer to natural soil. Index-matching allows the beads to appear transparent, facilitating the use of imaging and microscopy of the plant root system in vivo.

The present invention provides compositions, kits and methods for growing more vigorous, larger and healthier cannabis plants, including from clone cuttings.

This invention is related to a new substrate (6) for soilless cultivation consisting of a three-dimensional reticular structure which is elastically compressible, with empty cells bounded by threads made of polymer or any other material which are chemically inert, hydro-phobic or weakly hydrophilic. For example, the substrate which consists of a lattice made of threads in polyethylene (6) compressed into a container (4) equipped with an irrigation system (3) and with a support (2) where the plants have been inserted (5). The system is a closed cycle wherein the stored solution (1) is recirculated.

This invention is related to a new substrate (6) for soilless cultivation consisting of a three-dimensional reticular structure which is elastically compressible, with empty cells bounded by threads made of polymer or any other material which are chemically inert, hydro-phobic or weakly hydrophilic. For example, the substrate which consists of a lattice made of threads in polyethylene (6) compressed into a container (4) equipped with an irrigation system (3) and with a support (2) where the plants have been inserted (5). The system is a closed cycle wherein the stored solution (1) is recirculated.

A method and apparatus for cultivating vegetation at an arid location includes rooting immature vegetation in a mat combined with a super absorbent polymer (SAP) and, in embodiments, fertilizer, sand, and/or soil; placing the mat at the arid location; covering the mat with a perforated, transparent or semi-transparent cover; collecting urine in a water purification system; and providing purified water extracted from the urine to the mat. A water barrier can be placed below the mat. The cover can be placed on or suspended above the mat. SAP, seeds, and/or additional water barriers can be placed between mats in a stack. The opacity of the cover can be increased to emulate shade from natural vegetation. A water distribution system can be included for continued support of the vegetation, and can include a water reservoir and/or at least one solar still.

A method and apparatus for cultivating vegetation at an arid location includes rooting immature vegetation in a mat combined with a super absorbent polymer (SAP) and, in embodiments, fertilizer, sand, and/or soil; placing the mat at the arid location; covering the mat with a perforated, transparent or semi-transparent cover; collecting urine in a water purification system; and providing purified water extracted from the urine to the mat. A water barrier can be placed below the mat. The cover can be placed on or suspended above the mat. SAP, seeds, and/or additional water barriers can be placed between mats in a stack. The opacity of the cover can be increased to emulate shade from natural vegetation. A water distribution system can be included for continued support of the vegetation, and can include a water reservoir and/or at least one solar still.

The present invention is a plant cultivation device. The water tank supplies cultivation water to the cultivation tank via an irrigation conduit. The water tank also suctions cultivation water from the cultivation tank via a water-sucking pipe. The heat-collecting part receives sunlight, and the pressure of air that is heated inside the air-storage part presses the surface of the water inside the water tank. The water tank supplies cultivation water that has been pressed by the air to a culture medium material. The heat-collecting part raises the surface of the water inside the water tank as a result of the heated air being cooled by a decrease in the sunlight. The water tank suctions cultivation water from a bottom section of the cultivation tank.

A layered product including at least one natural fiber layer including a web of natural fibers and at least one SAP layer including a non-woven substrate including a thermoplastic polymer fibers and a superabsorbent polymer adhered to thermoplastic polymer fibers, wherein the non-woven substrate is a high loft fabric, for example an airlaid or spunlaid non-woven, and wherein the natural fiber layer and the SAP layer are connected to each other by needle punching, stitch bonding or using an adhesive. A process to prepare the layered product and the use of the layered product in for example horticulture.

A layered product including at least one natural fiber layer including a web of natural fibers and at least one SAP layer including a non-woven substrate including a thermoplastic polymer fibers and a superabsorbent polymer adhered to thermoplastic polymer fibers, wherein the non-woven substrate is a high loft fabric, for example an airlaid or spunlaid non-woven, and wherein the natural fiber layer and the SAP layer are connected to each other by needle punching, stitch bonding or using an adhesive. A process to prepare the layered product and the use of the layered product in for example horticulture.