Note4Students
From UPSC perspective, the following things are important :
Prelims level: Di-ammonium fertilisers
Mains level: Paper 3- Reducing the cost of fertiliser imports
Context
The global prices of urea, DAP, MOP, phosphoric acid, ammonia and LNG have soared by two to two-and-a-half times in the last year
Resource richness of Indian agriculture
- No country has as much area under farming as India.
- Land under cultivation: At 169.3 million hectares (mh) in 2019, its land used for crop cultivation was higher than that of the US (160.4 mh), China (135.7 mh), Russia (123.4 mh) or Brazil (63.5 mh).
- Ample water: With its perennial Himalayan rivers and average annual rainfall of nearly 1,200 mm – against Russia’s 475 mm, China’s 650 mm and the US’s 750 mm – India has no dearth of land, water and sunshine to sustain vibrant agriculture.
- But there’s one resource in which the country is short and heavily import-dependent — mineral fertilisers.
India’s important dependence
- In 2021-22, India imported 10.16 million tonnes (mt) of urea, 5.86 mt of di-ammonium phosphate (DAP) and 2.91 mt of muriate of potash (MOP).
- Import value: In value terms, imports of all fertilisers touched an all-time high of $12.77 billion last fiscal.
- In 2021-22, India also produced 25.07 mt of urea, 4.22 mt of DAP, 8.33 mt of complex fertilisers (containing nitrogen-N, phosphorus-P, potassium-K and sulphur-S in different ratios) and 5.33 mt of single super phosphate (SSP).
- Import of raw material: The intermediates or raw materials for the manufacture of these fertilisers were substantially imported.
- Total value of fertiliser imports: The total value of fertiliser imports by India, inclusive of inputs used in domestic production, was a whopping $24.3 billion in 2021-22.
Two costs involved in import
- 1] Foreign exchange outgo for import: The first is foreign exchange outgo:
- Imports are mostly from the following countries:
- Urea: Imported from China, Oman, UAE and Egypt
- DAP: Imported from China, Saudi Arabia and Morocco.
- MOP: Imported from Belarus, Canada, Russia, Israel and Jordan.
- LNG: Imported from Qatar, US, UAE and Nigeria.
- Ammonia: Morocco, Jordan, Senegal and Tunisia (phosphoric acid); Saudi Arabia and Qatar.
- Rock phosphate: Jordan, Morocco, Egypt and Togo.
- 2] Fiscal cost: The second cost is fiscal.
- Fertilisers are not only imported but also sold at subsidised prices.
- The difference is paid as a subsidy by the government.
- That bill was Rs 1,53,658.11 crore or $20.6 billion in 2021-22 and projected at Rs 2,50,000 crore ($32 billion) this fiscal.
- Unsustainably high costs: Both costs are unsustainably high to bear for a mineral resource-poor country.
Suggestions
1] Reduce consumption of high-analysis fertilisers
- There is a need to cap or even reduce consumption of high-analysis fertilisers – particularly urea (46 per cent N content), DAP (18 per cent N and 46 per cent P) and MOP (60 per cent).
- Incorporate urease and inhibition compounds in urea: This can be done by incorporating urease and nitrification inhibition compounds in urea.
- These are basically chemicals that slow down the rate at which urea is hydrolysed and nitrified (which increases leaching).
- By reducing ammonia volatilisation and nitrate leaching, more nitrogen is made available to the crop, enabling farmers to harvest the same yields with a lesser number of urea bags.
- Liquid nano-urea: Together with products such as liquid “nano urea” –it is possible to achieve a 20 per cent or more drop in urea consumption from the present 34-35 mt levels.
- Liquid nano-urea with their ultra-small particle size is conducive to easier absorption by the plants than with bulk fertilisers, translating into higher nitrogen use efficiency.
2] Promote the sale of SSP and complex fertilisers
- A second route is by promoting sales of SSP (containing 16 per cent P and 11 per cent S) and complex fertilisers such as “20:20:0:13” and “10:26:26”.
- Restrict DAP use: DAP use should be restricted mainly to paddy and wheat; other crops don’t require fertilisers with 46 per cent P content.
- India can also import more rock phosphate to make SSP directly or it can be converted into “weak” phosphoric acid
- The latter, having only about 29 per cent P (compared to 52-54 per cent in normal “strong” merchant-grade phosphoric acid), is good enough for manufacturing “20:20:0:13”, “10:26:26” and other low-analysis complex fertilisers.
3] Incorporate MOP into complexes
- As regards MOP, roughly three-fourths of the imported material is now applied directly and only the balance is sold after incorporating into complexes.
- It should be the other way around.
- India, to re-emphasise, needs to wean its farmers away from all high-analysis fertilisers.
4] Use of NPKS complexes and indigenous sources
- The moment to use more NPKS complexes and SSP, is already happening.
- It requires a concerted push, alongside popularising high nutrient use-efficient water-soluble fertilisers (potassium nitrate, potassium sulphate, calcium nitrate, etc).
- Exploiting alternative indigenous sources needs to be considered (for example, potash derived from molasses-based distillery spent-wash and from seaweed extract).
5] Revise nutrient application recommendations
- Farmers need to know what is a suitable substitute for DAP and which NPK complex or organic manure can bring down their urea application from 2.5 to 1.5 bags per acre.
- It calls for agriculture departments and universities not just to revisit their existing crop-wise nutrient application recommendations, but disseminating this information to farmers on a campaign mode.
Conclusion
The costs associated with the use of fertilisers are unsustainably high to bear for a mineral resource-poor country such as India. We need to act on the measures to reduce our import dependence.
UPSC 2023 countdown has begun! Get your personal guidance plan now! (Click here)
Back2Basics: High-analysis fertilisers
- Fertilizers that have more than 30% total available nutrients are called high analysis fertilizers, whereas those with less than 30% total available nutrients are called low analysis fertilizers.
- A 15-15-15 is a high analysis fertilizer; a 5-10-10 is a low analysis fertilizer, and a 10-10-10 is right on the borderline.
Get an IAS/IPS ranker as your 1: 1 personal mentor for UPSC 2024