Apparatuses and methods for collecting and irrigating water for plant growth in dry regions. Exemplary apparatus has appearance of a plant having leaves and stems, and operates same way plants grow and irrigate rain water and/or dew. Includes at least one water harvesting device for condensing moisture in air and collecting yield water. Device includes at least one device-body having a hydrophobic shell, and an internal-body-core surrounded by and enclosed within the hydrophobic shell; and plurality of condensation-protrusions disposed on the hydrophobic shell, each having internal-core and hydrophilic-shell surrounding and enclosing internal core. Device-body internal-body-core, in an integral manner, continuously extends to device-body hydrophobic shell and into (within) hydrophilic shell of each condensation-protrusion. When condensation-protrusions are cooler than moist air, hydrophilic-shell condenses and extracts moisture from air, becoming harvested water. When hydrophilic-shell is saturated, water flows on hydrophobic shell surface, and irrigates flowing water towards at least one target location.

The present disclosure includes systems and methods for managing, cultivating, producing, preparing and distributing agricultural products. Apparatus designed to improve agricultural yield and crop performance are also disclosed. According to one embodiment, the apparatus are individually coded or tagged for remotely configuring, monitoring and modifying one or more parameters associated with each apparatus.

A weighted inverted sprinkler assembly adapted for use with a drop hose of an irrigation system is disclosed. The assembly comprises a coiled weight formed from a coiled wire, a sprinkler fluidly associated with the drop hose, and a coiled weight support structure. A pressure regulator may be provided in fluid associated with the irrigation drop hose and the sprinkler. The coiled weight has a shape that is selected for use with a particular sprinkler assembly. The shape may be an elongated shape for use with an elongated coiled weight support structure, a beehive shape for use with a pressure regulator having a collar to support the coiled weight, and a pear shape for use with a pressure regulator having a flared housing. The coiled weight is preferably formed from a single coiled wire although two or more weights may be used in combination in a given application.

A weighted inverted sprinkler assembly adapted for use with a drop hose of an irrigation system is disclosed. The assembly comprises a coiled weight formed from a coiled wire, a sprinkler fluidly associated with the drop hose, and a coiled weight support structure. A pressure regulator may be provided in fluid associated with the irrigation drop hose and the sprinkler. The coiled weight has a shape that is selected for use with a particular sprinkler assembly. The shape may be an elongated shape for use with an elongated coiled weight support structure, a beehive shape for use with a pressure regulator having a collar to support the coiled weight, and a pear shape for use with a pressure regulator having a flared housing. The coiled weight is preferably formed from a single coiled wire although two or more weights may be used in combination in a given application.

The purpose of the present invention is to provide a method for producing fruit having improved quality which has fewer restrictions on place and the like and can be more casually used. This method for producing fruit having improved quality uses nanobubble water for a plant body belonging to fruit trees.

Embodiments of the present invention are directed to methods and systems for treating irrigation water by introducing a propagating electromagnetic field into the irrigation water as it flows through an irrigation system. The treatments described herein may have a variety of beneficial effects on the water, including a significant increase in the percentage of the water that is maintained in the root zone of a given crop as plant-available water and the essential mineral, e.g. calcium and/or magnesium, uptake of that crop.

Embodiments of the present invention are directed to methods and systems for treating irrigation water by introducing a propagating electromagnetic field into the irrigation water as it flows through an irrigation system. The treatments described herein may have a variety of beneficial effects on the water, including a significant increase in the percentage of the water that is maintained in the root zone of a given crop as plant-available water and the essential mineral, e.g. calcium and/or magnesium, uptake of that crop.

A tree cultivation device having a hollow frustoconical body configured for receiving and enclosing a tree base therein. The frustoconical body including (i) a base of the device configured for positioning on a ground or potting surface adjacent to a tree base, (ii) a top end configured to receive a portion of a tree trunk therethrough; (iii) a plurality of troughs formed within an outer surface of the hollow frustoconical body that are positioned between the base and top end of the device; and (iv) an open and closable slit that continuously extends on the hollow frustoconical body from the top end of the device to the base so that a tree base may be received internally within the hollow frustoconical body of the device.

A tree cultivation device having a hollow frustoconical body configured for receiving and enclosing a tree base therein. The frustoconical body including (i) a base of the device configured for positioning on a ground or potting surface adjacent to a tree base, (ii) a top end configured to receive a portion of a tree trunk therethrough; (iii) a plurality of troughs formed within an outer surface of the hollow frustoconical body that are positioned between the base and top end of the device; and (iv) an open and closable slit that continuously extends on the hollow frustoconical body from the top end of the device to the base so that a tree base may be received internally within the hollow frustoconical body of the device.

A turf management system includes an irrigation system for providing water to the turf at a turf site, and an irrigation evaluation system for evaluating the performance of the irrigation system. The irrigation evaluation system segments the turf site into irrigation management units, where each of the irrigation management units includes at least one sprinkler head. Qualities of the turf are measured to generate collected data points. The data points are used by the irrigation evaluation system to compute a value for the turf in each of the irrigation management units. The values can then be used to identify irrigation management units having common characteristics. The values can be used to define irrigation management zones for controlling the irrigation system.