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.

A plant system with structural frame and water storage chamber which allows for the collection of surface water emanating from impervious surface for retrieval and re-use.

A plant system with structural frame and water storage chamber which allows for the collection of surface water emanating from impervious surface for retrieval and re-use.

Air dispersing member adapted for use buried in soil and comprising annular portions defining a hollow annular member comprising an air flow conduit, there being a plurality of holes communicating between the air flow conduit to a location exterior of the hollow annular member for aerating soil, the air dispensing member preferably being combined with an irrigation system for providing an optimal amount of water to a plant or seed, comprising an inner pot having a porous bottom portion and adapted for containing soil for hosting the plant or seed, an outer pot adapted for containing a certain water level, the inner pot and the outer pot together defining a partially enclosed space, an inlet water pipe, an outlet water pipe, and a wicking pad adapted to be in fluid communication between water in the bottom portion of the outer pot and the porous bottom portion of the inner pot.

Air dispersing member adapted for use buried in soil and comprising annular portions defining a hollow annular member comprising an air flow conduit, there being a plurality of holes communicating between the air flow conduit to a location exterior of the hollow annular member for aerating soil, the air dispensing member preferably being combined with an irrigation system for providing an optimal amount of water to a plant or seed, comprising an inner pot having a porous bottom portion and adapted for containing soil for hosting the plant or seed, an outer pot adapted for containing a certain water level, the inner pot and the outer pot together defining a partially enclosed space, an inlet water pipe, an outlet water pipe, and a wicking pad adapted to be in fluid communication between water in the bottom portion of the outer pot and the porous bottom portion of the inner pot.

Provided is a plant exudate, methods for obtaining a plant exudate by inducing the plant to secrete an exudate and systems for the collection of a plant exudate which include: one or more plant container including at least two discrete compartments each configured to accommodate a split root of a plant, the compartments being a root stimulating compartment including one or more input being in fluid communication with at least a source of a plant root stimulant, and a root exudate harvesting compartment, and a root exudate collection compartment in fluid communication with the root exudate harvesting compartment.

Provided is a plant exudate, methods for obtaining a plant exudate by inducing the plant to secrete an exudate and systems for the collection of a plant exudate which include: one or more plant container including at least two discrete compartments each configured to accommodate a split root of a plant, the compartments being a root stimulating compartment including one or more input being in fluid communication with at least a source of a plant root stimulant, and a root exudate harvesting compartment, and a root exudate collection compartment in fluid communication with the root exudate harvesting compartment.

A smart root watering system is disclosed. The system includes a controller, configured to control the system using artificial neural networks. The system further comprises vertical tubes, inserted into the soil proximity to the roots of trees and configured to deliver water to the roots of trees. The vertical tubes include a motion sensor, configured to detect variation in water flow and wirelessly send data to the controller, thereby indicating faults of the vertical tubes to the user via a handheld electronic device. The vertical tube further includes a mechanical valve with a floater, configured to regulate input water to the system with respect to the soil absorption. The system further comprises a sensor device, configured to detect the humidity level and send to the controller. The controller is further configured to estimate the required volume of water and open an electric valve for supplying water to the roots of trees.

A smart root watering system is disclosed. The system includes a controller, configured to control the system using artificial neural networks. The system further comprises vertical tubes, inserted into the soil proximity to the roots of trees and configured to deliver water to the roots of trees. The vertical tubes include a motion sensor, configured to detect variation in water flow and wirelessly send data to the controller, thereby indicating faults of the vertical tubes to the user via a handheld electronic device. The vertical tube further includes a mechanical valve with a floater, configured to regulate input water to the system with respect to the soil absorption. The system further comprises a sensor device, configured to detect the humidity level and send to the controller. The controller is further configured to estimate the required volume of water and open an electric valve for supplying water to the roots of trees.