A sprinkler head protector is a cylinder with a sleeve-style base having two differently configured caps. The first cap is a flat cap with a center hole. The second cap is a two-part split cap in the overall shape of a donut. A center opening in the first and second cap allows a sprinkler head to smoothly extend through the opening. Should repair or replacement of the sprinkler head be desired, either cap is removed thereby facilitating replacement of the sprinkler head.

Irrigation apparatus (70) is provided that includes an elongate housing (10) with an internal cavity (14) and a dispenser (24,76) that is fitted at a top of the cavity (14). The housing (10) is installed in soil and the dispenser (24,76) is supplied with water, which is dispensed into the cavity (14), to drip to an exposed soil surface (104) at the bottom of the housing (10), to provide water to plants.

Irrigation apparatus (70) is provided that includes an elongate housing (10) with an internal cavity (14) and a dispenser (24,76) that is fitted at a top of the cavity (14). The housing (10) is installed in soil and the dispenser (24,76) is supplied with water, which is dispensed into the cavity (14), to drip to an exposed soil surface (104) at the bottom of the housing (10), to provide water to plants.

A device for growing plants above a selected surface includes a bottom member disposed upon a selected surface; a top member disposed upon and secured to said bottom member via two longitudinal securing seams, whereby, said top member includes two outer longitudinal flap portions and a longitudinal center portion, which ultimately receives a growing material in which plants and/or seeds are disposed. The longitudinal flap portions are ultimately folded above the growing material whereby longitudinal edge portions of the flap portions are separated a predetermined distance for allowing water and light to engage the growing material. Pipe members are removably secured to longitudinal edge portions of each longitudinal side of the bottom member, thereby enabling the manual lifting and transport of the device for disposal upon a selected surface.

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 when applied to hydrophobic soils, 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. The treatments described herein may also have beneficial effects when applied to hydrophilic soils, and particularly high salinity, hydrophilic soils, including a reduction in the soil salinity, including the amount of chlorates, within a root zone of a 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 when applied to hydrophobic soils, 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. The treatments described herein may also have beneficial effects when applied to hydrophilic soils, and particularly high salinity, hydrophilic soils, including a reduction in the soil salinity, including the amount of chlorates, within a root zone of a crop.

Disclosed is a drip irrigation hose with an emitter, devoid of fluid storage, the emitter comprising, a plurality of holes, running along a first edge and a second edge of the emitter, wherein the plurality of holes enable filtration. An inlet support positioned at a first side of the emitter, wherein the inlet support has an inverted funnel shape, with a separating structure extending from at least one corner of the inverted funnel. A first inlet positioned parallel to the plurality of holes and located along the first edge. A second inlet positioned parallel to the plurality of holes and located along the second edge. Further an outlet support positioned at a second side of the emitter.

Disclosed is a drip irrigation hose with an emitter, devoid of fluid storage, the emitter comprising, a plurality of holes, running along a first edge and a second edge of the emitter, wherein the plurality of holes enable filtration. An inlet support positioned at a first side of the emitter, wherein the inlet support has an inverted funnel shape, with a separating structure extending from at least one corner of the inverted funnel. A first inlet positioned parallel to the plurality of holes and located along the first edge. A second inlet positioned parallel to the plurality of holes and located along the second edge. Further an outlet support positioned at a second side of the emitter.

A sump pump irrigation assembly for reducing water erosion from a sump pump outlet includes a plurality of fluid fittings. A respective one of the fluid fittings is fluidly coupled to an outlet of a sump pump to receive water from the outlet. A supply pipe is fluidly coupled to the fluid fitting that is fluidly coupled to the outlet to receive the water from the fluid fitting. A plurality of drainage pipes is each of the drainage pipes is in fluid communication with the supply pipe to receive the water from the supply pipe. Each of the drainage pipes has a plurality of holes therein to release the water outwardly therefrom. A plurality of cleanout fittings is each fluidly coupled between a respective pair of the drainage pipes. Each of the cleanout fittings has an access port to facilitate debris to be removed from the cleanout fittings.

A sump pump irrigation assembly for reducing water erosion from a sump pump outlet includes a plurality of fluid fittings. A respective one of the fluid fittings is fluidly coupled to an outlet of a sump pump to receive water from the outlet. A supply pipe is fluidly coupled to the fluid fitting that is fluidly coupled to the outlet to receive the water from the fluid fitting. A plurality of drainage pipes is each of the drainage pipes is in fluid communication with the supply pipe to receive the water from the supply pipe. Each of the drainage pipes has a plurality of holes therein to release the water outwardly therefrom. A plurality of cleanout fittings is each fluidly coupled between a respective pair of the drainage pipes. Each of the cleanout fittings has an access port to facilitate debris to be removed from the cleanout fittings.