A drip or bubbler irrigation system releasing device consisting of a chemical bond between a fertilizer, herbicide, insecticide or other desired chemicals and a water soluble medium, forming a molded device of various shapes and sizes used in conjunction with drip or bubbler irrigation system water emitters, allowing for the slow dissolution of the chemicals of the release device over a time period of weeks or months, so that on each irrigation cycle the water soluble chemicals are released to the planted areas below and around the emitter in a slow continuous manner.

An irrigation filter system and method is provided. The system may have a body and a filtration subsystem and may separate fluid from detritus carried by the fluid. The fluid may be released onto a crop, while the detritus is collected by the filtration subsystem. A drain fixture may be operated to release the detritus from the irrigation filter system in response to at least one of the pressure of the fluid flowing in the system and gravity. In this manner, the detritus may be released without requiring the system to be shut down and/or disassembled.

Prior art technology has a problem in that when a plant is cultivated for a long period of time on a PVA film having its lower surface positioned in contact with a nutrient fluid, plant roots that have formed penetrate through the film. A plant cultivation system wherein the PVA film has an equilibrium degree of swelling in the range of from 125 to 250% as measured in water at 30 C. and has a loss tangent (tan ) in the range of from 0.005 to 0.2 as measured in an equilibrium swollen state in water at 30 C., and a method for cultivating a plant by using this plant cultivation system. Plant cultivation can be performed for a long period of time while avoiding infection by bacteria and the like causative of plant diseases. Therefore, the present invention is useful in, e.g., agriculture and the manufacture of pharmaceuticals.

A method of irrigation is disclosed. The method comprises supplying water to an inclined irrigation pipe provided with a plurality of drippers. The water is supplied such that a pressure at a highest level of the inclined irrigation pipe is at most 90 cm H.sub.2O.

An irrigation column for a drip irrigation system has a fluid conducting line for receiving fluid from a fluid source upstream. The irrigation column further includes a plurality of drip line segments extending alongside the fluid conducting line, a plurality of zone valves located along the fluid conducting line, and a plurality of control tubes extending alongside the fluid conducting line. And each control tube is in fluid communication with a respective one of the zone valves for actuating the zone valve.

The use of an extract of at least a part of rocket plants, preferably chosen from the group of rocket plants of the Eruca (Eruca sativa; Eruca vesicaria, etc.), Diplotaxis (Diplotaxis erucoides, Diplotaxis tenuifolia, Diplotaxis muralis, etc.), Bunias (Bunias erucago, Bunias orientalis, etc.), Erucastrum (Erucastrum nasturtiifolium, Erucastrum incanum, etc.) and Cakile genuses, stimulates the defences of plants or trees and reduces the effects of bacteria and fungi on plants and trees.

In particular, the effects: of Xylella fastidiosa bacteria on myrtle-leaf milkwort, grape vines, olive trees, citrus trees, oleander, almond trees, coffee trees, peach trees and stone fruit trees, oak trees, lavender, rosemary, or broom, of Xanthomonas arboricola pv. Pruni bacteria on Prunus spp., and preferably the following group of fruit/nut trees: apricot trees, almond trees, cherry trees, peach trees, plum trees, P. salicina, cherry laurel and other exotic or omamental Prunus species, including P. davidiana and P. laurocerasus, of Pear Decline Phytoplasma bacteria or Candidatus Phytoplasma pyri on pear trees, and of Candidatus Phytoplasma solani bacteria on grape vines, lavender, potato plants, tomato plants, aubergine plants, pepper plants and tobacco plants.

An irrigation drip emitter, and methods relating to same, are provided for delivering irrigation water from a supply tube to an emitter outlet at a reduced and relatively constant flow rate. The emitter defining an inlet, outlet and flow passage extending between the inlet and outlet. In one form, the emitter includes a root growth inhibiting member disposed in the outlet of the emitter. In another form, the emitter includes stepped flippers for controlling fluid flow through the emitter. In yet another form, the emitter includes disconnected or freestanding outlet walls disposed in the outlet for preventing the outlet from collapsing under increased fluid line pressure without creating dead ends where grit can build-up. In other forms, the emitter defines one or more recess within which inserts may be disposed so the emitter and insert collectively define a fluid flow passage. Related methods are also disclosed herein.

A modular hydroponic cultivation and transport system for the cultivation and transport of organisms, including but not limited to, various forms of plants and fungi in hydroponic towers, is provided. Further, apparatuses for the cultivation and transport of organisms grown in hydroponic towers, are provided. Methods for the cultivation and transport of organisms using the transport system and apparatuses described herein are also provided herein.

A system for growing plants, the system may include a substrate having one or more weakened areas or openings: one or more grow portions coupled to the substrate and situated at the one or more weakened areas or openings and having at least one seed or plant; and/or a fluid distribution portion coupled to the substrate and configured to provide fluid to the one or more grow portions. The system may further include a method of operation including one or more acts of: obtaining a weather forecast for a future time period; determining whether rain is expected during the future time period; and preventing, terminating, or restricting an irrigation cycle when it is determined that rain is expected during the fare time period. The restricting may restrict a flow of liquid during the irrigation cycle or shorten the irrigation interval.