1.6 Irrigation

Irrigation is the artificial supply of water to crops in order to ensure their growth. It plays a crucial role in crop production, particularly in areas where rainfall is inadequate or irregular. By providing water to crops, irrigation helps to increase crop yield and improve productivity.

The water supplied through irrigation helps to maintain soil moisture, which is essential for the healthy growth of plants. It also helps in preventing the crops from drying up during periods of drought and can reduce the negative effects of poor rainfall patterns.

Types of Irrigation Systems:

• Surface Irrigation: Water is supplied directly to the field through channels and is spread over the soil surface. It includes methods like furrow, flood, and basin irrigation.
• Drip Irrigation: Water is delivered directly to the roots of the plants through a system of tubes and emitters. It is a water-efficient method that reduces evaporation and runoff.
• Sprinkler Irrigation: Water is sprayed over the crops in the form of droplets, simulating rainfall. This method is suitable for areas with uneven terrain and is efficient for water distribution.
• Subsurface Irrigation: Water is delivered below the soil surface to the root zone, helping reduce water evaporation and making it efficient for areas with limited water resources.

Sources of Irrigation Water:

• Canals: Water from rivers or reservoirs is diverted into canals to irrigate agricultural fields.
• Wells: Water is extracted from underground sources (wells or bore wells) and is used for irrigation purposes.
• Reservoirs: Large man-made lakes that store water from rivers or rain for irrigation.
• Rainwater Harvesting: Collecting and storing rainwater for irrigation during dry periods.

The amount of water required for irrigation depends on various factors such as the type of crop, soil texture, weather conditions, and stage of growth of the plant.

The water requirement for a crop can be calculated using the following formula:

Water Requirement = Evapotranspiration - Effective Precipitation

Where:

• Evapotranspiration (ET): The total water lost due to evaporation from soil and transpiration from plants.
• Effective Precipitation: The amount of rainfall that is actually available for the crops.

Advantages of Irrigation:

• Increases crop yield and productivity.
• Helps in reducing the dependence on rainfall.
• Improves soil fertility and quality.
• Ensures a stable food supply in regions with erratic rainfall.

Disadvantages of Irrigation:

• If not managed properly, irrigation can lead to waterlogging and salinization of the soil.
• Excessive use of water may lead to depletion of water resources.
• High initial cost of setting up irrigation systems like drip or sprinkler systems.

Efficient water management practices are necessary to optimize irrigation systems and conserve water resources. Technologies like sensors and automated irrigation systems are being developed to reduce water wastage and improve irrigation efficiency.