Question 91
1. Controlling the alkalinity of irrigation water is possible.
2. Efficient application of Rock Phosphate and all other phosphatic fertilizers is possible.
3. Increased availability of nutrients to plants is possible.
4. Reduction in the leaching of chemical nutrients is possible.
Select the correct answer using the code given below:
AOptions
BSolution
Fertigation is an agricultural technique where fertilizers are applied along with irrigation water, typically through drip irrigation systems. This method offers several advantages:
1. Controlling the alkalinity of irrigation water is possible: This statement is correct. Through fertigation, acidic solutions or acid-forming fertilizers can be injected into the irrigation system. This helps to neutralize alkaline irrigation water, maintain an optimal pH in the root zone, and prevent the clogging of drip emitters, which can be an issue with high pH water or certain fertilizers.
2. Efficient application of Rock Phosphate and all other phosphatic fertilizers is possible: This statement is incorrect. While some phosphatic fertilizers (like monoammonium phosphate or phosphoric acid) are water-soluble and can be efficiently applied through fertigation, Rock Phosphate is largely insoluble in water. Due to its low solubility, it cannot be effectively dissolved and uniformly distributed through a fertigation system, and its particles can cause clogging in drip lines. Therefore, it's not suitable for efficient application via fertigation.
3. Increased availability of nutrients to plants is possible: This statement is correct. Fertigation delivers dissolved nutrients directly and precisely to the plant root zone, where they are immediately available for uptake. This targeted application minimizes nutrient losses through leaching or volatilization and ensures that plants receive nutrients more readily and efficiently, leading to improved nutrient use efficiency and potentially higher yields.
4. Reduction in the leaching of chemical nutrients is possible: This statement is correct. By supplying nutrients in smaller, more frequent doses directly to the root zone, fertigation allows for better synchronization between nutrient supply and plant demand. This minimizes the accumulation of excess nutrients in the soil profile that could otherwise be leached below the root zone by heavy rainfall or excessive irrigation, thereby reducing nutrient runoff and groundwater contamination.
Therefore, statements 1, 3, and 4 correctly describe the advantages of fertigation.
CStrategy
For questions on agricultural techniques, understand the core mechanism and its direct benefits. Be cautious of absolute statements (e.g., 'all other phosphatic fertilizers') as there are often exceptions (like insoluble fertilizers). Focus on how the method optimizes resource use and nutrient delivery, and consider both agricultural and environmental benefits.
DSyllabus Analysis
This question relates to Agriculture and Science & Technology, specifically modern irrigation techniques, nutrient management, and sustainable agricultural practices.
EQuestion Analysis
Medium to Difficult. This question requires knowledge of specific fertilizer properties and the practicalities of fertigation systems, particularly the solubility of different fertilizer types.