Irrigation is the supply of cultivated land with water in order to promote the growth of plants and to replace missing rain. Surface irrigation systems, also known as furrow or stripe use gravity. Water is supplied through canals and ditches of different sizes. Watering itself then takes place by runoff, flooding or infiltration.
The mechanical sprinkler system mimics the effect of rainfall water supplied under pressure through hoses; water is propelled into the air as droplets, which fall on the plants. The technique can be broken down into micro spray, similar to the previous but more localized and therefore more efficient.
On the other hand, ancient ways of watering channels is falling into disuse in the developed world; governments are encouraging people to switch to other methods. Young orange trees may necessitate the combination of traditional irrigation with drip system, in order to optimize the benefits in terms of plant growth.
Disadvantages of pressurized systems include the following: the initial acquisition cost is high, depending on the crop, topography and degree of automation. The plugging of emitters (drippers mainly) is quite small because of output area. This is directly related to filtration and water chemistry. When using water with high salt content without performing regular washes at the end of each cycle means the soil could become salinized. The systems require users to have knowledge in the proper handling of equipment.
Irrigation and drainage manage water sources to promote agricultural production. The impact depends on the type of water source (surface or underground), its storage form, the transmission and distribution systems, and methods of delivery or field application. For a long time, surface water (primarily rivers) were used for this purpose.
Plant watering projects on a large scale using groundwater are a recent phenomenon. They are found mainly in large alluvial basins of Pakistan, India and China, where tube wells are used to exploit the phreatic water, along with irrigation mechanisms that use surface water.
Arguably, drip irrigation as is known today, began in England after World War II, in greenhouses, nurseries and gardening, its microtubes were used as emitters. However, it is in the sixties, in Israel, when its expansion started after perfecting techniques extrusion and injection molding of plastics. Thus, Israel was one of pioneers of research and development of this type of equipment for the arid, semi-arid and desert areas.
Localized watering mechanisms came about as a major technological improvement, thus contributing to greater productivity. It involves a profound change within the application systems to ground water, to the point that can be considered as a new technique of agricultural production practices. Its main features include application of water to the ground from a source that may be considered timely, infiltrates the soil and moves in horizontal and vertical direction. This differs substantially from traditional mechanisms in which gravity forces predominate and thus the vertical movement.
The mechanical sprinkler system mimics the effect of rainfall water supplied under pressure through hoses; water is propelled into the air as droplets, which fall on the plants. The technique can be broken down into micro spray, similar to the previous but more localized and therefore more efficient.
On the other hand, ancient ways of watering channels is falling into disuse in the developed world; governments are encouraging people to switch to other methods. Young orange trees may necessitate the combination of traditional irrigation with drip system, in order to optimize the benefits in terms of plant growth.
Disadvantages of pressurized systems include the following: the initial acquisition cost is high, depending on the crop, topography and degree of automation. The plugging of emitters (drippers mainly) is quite small because of output area. This is directly related to filtration and water chemistry. When using water with high salt content without performing regular washes at the end of each cycle means the soil could become salinized. The systems require users to have knowledge in the proper handling of equipment.
Irrigation and drainage manage water sources to promote agricultural production. The impact depends on the type of water source (surface or underground), its storage form, the transmission and distribution systems, and methods of delivery or field application. For a long time, surface water (primarily rivers) were used for this purpose.
Plant watering projects on a large scale using groundwater are a recent phenomenon. They are found mainly in large alluvial basins of Pakistan, India and China, where tube wells are used to exploit the phreatic water, along with irrigation mechanisms that use surface water.
Arguably, drip irrigation as is known today, began in England after World War II, in greenhouses, nurseries and gardening, its microtubes were used as emitters. However, it is in the sixties, in Israel, when its expansion started after perfecting techniques extrusion and injection molding of plastics. Thus, Israel was one of pioneers of research and development of this type of equipment for the arid, semi-arid and desert areas.
Localized watering mechanisms came about as a major technological improvement, thus contributing to greater productivity. It involves a profound change within the application systems to ground water, to the point that can be considered as a new technique of agricultural production practices. Its main features include application of water to the ground from a source that may be considered timely, infiltrates the soil and moves in horizontal and vertical direction. This differs substantially from traditional mechanisms in which gravity forces predominate and thus the vertical movement.
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