Garden Irrigation

Prepared by CSBE Team, 2001



Table of Contents: 

1. Introducation

2. Irrigation Methods

2.1 Flood Irrigation
2.2 Spray Irrigation
2.3 Drip Irrigation

3. General Guidelines 



It generally is difficult to devise accurate formulas specifying the water needs of a given plant. Such needs are determined by a number of variables that include climatic factors such as sun exposure, as well as changes in temperature, humidity, and wind speed, all of which affect the evaporation rate of the water given to the plants. Other factors affecting a plant's need for water are the depth of its root system, the stage of its growth, soil composition, and maintenance procedures such as fertilizing and pruning.
A number of irrigation techniques are available for watering plants. Each has its own distinctive characteristics, and certain procedures need to be followed to ensure that each irrigation method is used optimally to allow for the growth of healthy, low-water consuming plants.

 Irrigation Methods

 Flood Irrigation
This method is simple and easy to implement. However, half of the water provided using flood irrigation might be lost as a result of evaporation, runoff, or wind distortion. Flood irrigation also might give plants more than their needs of water and faster than their ability to absorb it. To minimize water runoff resulting from flood irrigation, it is advised to flatten the irrigated area and to create a ditch around each plant.

 Spray Irrigation
This method does not require much effort and is suitable for irrigating areas of various shapes, whether rectangular or circular. However, it requires constant maintenance, and about a third of the water provided by spray irrigation is lost before it reaches the plant as a result of wind distortion or evaporation. Therefore, limit the use of spray irrigation to lawns, which require the equal distribution of water over relatively wide areas. Also, spray the water as close as possible to ground level to reduce water loss due to wind distortion.

 Drip Irrigation
In most cases, this is the most effective and water-saving irrigation method. It involves moving water in plastic pipes connected to the water source. The pipes are placed above the ground, or buried under the soil near the plants' root systems. Water slowly flows out of the pipes through openings or valves that control the rate of water output, and these openings and valves are placed near the plants so that the water easily reaches the plants' root systems. The slow rate of water output gives the plants adequate time to absorb the water.
One of the most important advantages of drip irrigation is that it saves water. Very little of the water administered by drip irrigation is lost to runoff, evaporation, or wind distortion. It is the most suitable method for irrigation in arid areas, or ones characterized by high winds or strong slopes. Another advantage of drip irrigation is its flexibility. The number and location of openings and valves on the irrigation pipes, as well as the rate of water output can be adjusted whenever the need arises. Drip irrigation also does not require much effort, but the components of drip irrigation systems need regular maintenance.


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