Provided is a method of delivering water to a root system of a crop, the method including causing the crop to be adjacent to, or in a region of, soil containing hydrogel, and delivering air to the hydrogel.

Provided is a method of delivering water to a root system of a crop, the method including causing the crop to be adjacent to, or in a region of, soil containing hydrogel, and delivering air to the hydrogel.

An automated plant cultivation system is provided having multi-tiered vertically arranged horizontal magazine structures each employing seed or plant capsules with a fluid circulation and illumination and communication network controlled by an on-board processor. Particularly, the system includes a magazine structure having seed/plant capsules within seed/plant reservoirs alternately arranged between at least one of a light source substantially concealed from direct viewing. A fluid channel extends across a long axis of the magazine structure, wherein the magazine structure is adapted for use of seed/plant capsules with nutrient composite plant growth cultivation, hydroponic plant growth cultivation, aeroponic plant growth cultivation methods or combinations thereof.

An aerification system for controlling moisture content and gas exchange below a surface of one or more plant growing areas includes at least first and second sub-systems installed below the surface of the one or more plant growing areas. The first and second sub-systems each having a water permeable layer overlying a respective water impermeable layer, where the water impermeable layer defines a respective boundary of each of the first and second sub-systems. The system also includes at least one conduit connecting the water permeable layer of the first sub-system to the water permeable layer of the second sub-system, and at least one pumping system for pumping water therebetween. The pumping system is configured to alternate between pumping water to the first sub-system and the second sub-system in order to periodically raise and lower a water level in the water permeable layer of each of the first and second sub-systems.

An aerification system for controlling moisture content and gas exchange below a surface of one or more plant growing areas includes at least first and second sub-systems installed below the surface of the one or more plant growing areas. The first and second sub-systems each having a water permeable layer overlying a respective water impermeable layer, where the water impermeable layer defines a respective boundary of each of the first and second sub-systems. The system also includes at least one conduit connecting the water permeable layer of the first sub-system to the water permeable layer of the second sub-system, and at least one pumping system for pumping water therebetween. The pumping system is configured to alternate between pumping water to the first sub-system and the second sub-system in order to periodically raise and lower a water level in the water permeable layer of each of the first and second sub-systems.

A tree/shrub protector includes a circular underground drip reservoir that may hold about seven gallons of water and extended about eighteen inches underground. It focuses water and nutrients onto a root ball to encourage downward root growth. Above ground modules include a hard shell reservoir that provides pest protection as well. Another above ground module is a wire type protective fence and/or trellis that has reservoirs as well. A second embodiment has a grill or fence having spikes driven into the ground for support. One or more water reservoirs are integrated into the fence. Variable flow drip tubes feed underground drip pipes from the reservoirs. Vertical poles have uses including tree support, holding a winter shroud, and supporting a fence and/or trellis. The fence is modular to fit inside a thin box. An optional anti-rodent spiked ring is included. All embodiments can reduce returns to a tree vendor.

A tree/shrub protector includes a circular underground drip reservoir that may hold about seven gallons of water and extended about eighteen inches underground. It focuses water and nutrients onto a root ball to encourage downward root growth. Above ground modules include a hard shell reservoir that provides pest protection as well. Another above ground module is a wire type protective fence and/or trellis that has reservoirs as well. A second embodiment has a grill or fence having spikes driven into the ground for support. One or more water reservoirs are integrated into the fence. Variable flow drip tubes feed underground drip pipes from the reservoirs. Vertical poles have uses including tree support, holding a winter shroud, and supporting a fence and/or trellis. The fence is modular to fit inside a thin box. An optional anti-rodent spiked ring is included. All embodiments can reduce returns to a tree vendor.

An indoor gardening appliance includes a liner defining a grow chamber and a grow tower mounted within the grow chamber for receiving a plurality of plant pods. A hydration assembly is positioned within a root chamber and includes a nozzle support frame mounted at a top of the root chamber, the nozzle support frame comprising a plurality of support arms, at least one of the plurality of support arms being off-axis relative to the central axis of the grow tower, an upper nozzle mounted to the nozzle support frame proximate a top of the root chamber, a lower nozzle mounted to the nozzle support frame proximate a bottom of the root chamber, and a water supply for supplying a flow of fluid to at least one of the upper nozzle or the lower nozzle.

An indoor gardening appliance includes a liner defining a grow chamber and a grow tower mounted within the grow chamber for receiving a plurality of plant pods. A hydration assembly is positioned within a root chamber and includes a nozzle support frame mounted at a top of the root chamber, the nozzle support frame comprising a plurality of support arms, at least one of the plurality of support arms being off-axis relative to the central axis of the grow tower, an upper nozzle mounted to the nozzle support frame proximate a top of the root chamber, a lower nozzle mounted to the nozzle support frame proximate a bottom of the root chamber, and a water supply for supplying a flow of fluid to at least one of the upper nozzle or the lower nozzle.

Provided is a raised-bed gardening container, including a base, a feeding tube, and a cover frame. The base may include a bottom edge; a top rim at least 36 inches above the bottom edge; an exterior sidewall extending between the bottom edge and the top rim; an interior sidewall extending from the top rim to a bottom interior, the interior sidewall and bottom interior defining an interior volume for containing a gardening media, the interior volume having a diameter of greater than approximately four feet; a feeding tube support generally centrally disposed in the base; and a gardener passage extending to the feeding tube support and having a width configured to allow a gardener to walk through the gardener passage to the feeding tube support.