DAP fertilizer Monthly Price - Sri Lanka Rupee per Metric Ton

Data as of March 2026

Range
Jun 2011 - Jan 2019: 6,541.398 (10.36%)
Chart

Description: DAP (diammonium phosphate), standard size, bulk, spot, f.o.b. US Gulf

Unit: Sri Lanka Rupee per Metric Ton



Source: Fertilizer Week; Fertilizer International; World Bank.

See also: Agricultural production statistics

See also: Top commodity suppliers

See also: Commodities glossary - Definitions of terms used in commodity trading

Overview

Diammonium phosphate (DAP) is a concentrated phosphate fertilizer used to supply both phosphorus and nitrogen to crops. It is typically traded as a granular solid and priced on a per-metric-ton basis, with market references often quoted as DAP spot prices on an FOB US Gulf basis. The US Gulf benchmark is widely used because the Gulf Coast is a major export and distribution hub with established access to phosphate rock, ammonia, rail, barge, and ocean freight routes. DAP is valued for its relatively high nutrient content and ease of handling in bulk fertilizer systems.

DAP is applied to a wide range of field crops, including cereals, oilseeds, and row crops, where phosphorus supports root development, early growth, and energy transfer within the plant. It is also used in blended fertilizers and in some industrial applications, though agriculture is the dominant use. Because it contains both phosphate and ammonium nutrients, DAP competes with other phosphate fertilizers and with blended nutrient products in farm input markets.

Supply Drivers

DAP supply is shaped by the phosphate rock and ammonia chains that feed its production. Phosphate rock deposits are geographically concentrated in a few long-established mining regions, including North Africa, the Middle East, China, the United States, and parts of the former Soviet sphere. Mining is capital intensive and constrained by ore quality, stripping ratios, beneficiation needs, and transport links from mine to plant and port. Because phosphate rock is not evenly distributed, regional logistics and export infrastructure strongly influence available supply.

Production also depends on ammonia, which is commonly derived from natural gas. This links DAP output to gas availability, fertilizer plant economics, and the cost of energy-intensive chemical processing. Plants require sulfuric acid and other inputs in the broader phosphate chain, so bottlenecks in upstream chemicals can affect finished fertilizer availability. DAP manufacturing is typically concentrated near feedstock sources or export terminals to reduce freight costs.

Supply is further shaped by seasonal production and application cycles. Fertilizer plants often build inventories ahead of planting seasons, while downstream demand can be uneven across regions. Phosphate mining and processing also face environmental permitting, water use constraints, and waste management requirements, all of which can limit expansion or raise costs. Because new mines and chemical plants take many years to develop, supply adjusts slowly to changes in demand.

Demand Drivers

DAP demand is driven primarily by crop nutrition needs, especially in soils with low available phosphorus. Phosphorus is essential for root establishment, flowering, and grain formation, so demand is closely tied to acreage planted in cereals, oilseeds, and other broad-acre crops. Farmers often apply phosphate fertilizers at planting or before planting, which creates seasonal demand patterns linked to crop calendars and soil preparation practices.

Demand is also influenced by substitution among phosphate products. DAP competes with monoammonium phosphate (MAP), triple superphosphate, and blended NPK fertilizers. The choice among these products depends on nutrient ratios, soil chemistry, application method, and local agronomic recommendations. In alkaline soils, DAP can be favored for its handling properties and nutrient concentration, while in some systems MAP or other phosphate sources are preferred.

Long-run demand reflects population growth, dietary change, and the need to maintain crop yields on limited arable land. Phosphate use is relatively inelastic in the short run because farmers cannot easily substitute away from soil nutrient replacement without affecting yields. However, efficiency gains from precision agriculture, soil testing, and improved fertilizer placement can moderate growth in unit demand per hectare. Transport costs and local blending practices also shape regional consumption patterns, especially in inland markets far from ports.

Macro and Financial Drivers

DAP prices are influenced by broad agricultural income conditions, freight costs, and the US dollar exchange rate. Because fertilizer is traded internationally in dollars, a stronger dollar can make imports more expensive in local currency terms and can affect buying behavior in importing regions. Interest rates also matter indirectly through inventory financing and working capital costs for distributors and traders.

Storage and logistics are important because DAP is a physical bulk commodity with seasonal demand. When inventories are ample, nearby supply can pressure spot prices; when stocks are tight relative to planting needs, nearby delivery can command a premium. This creates the possibility of contango or backwardation in regional forward curves, depending on freight, storage, and seasonal demand timing. DAP also tends to move with broader fertilizer and crop input markets because buyers often manage nutrient purchases as part of a whole-farm cost structure.

MonthPriceChange
Jun 201163,112.58-
Jul 201165,441.943.69%
Aug 201165,593.890.23%
Sep 201164,750.73-1.29%
Oct 201162,966.17-2.76%
Nov 201162,570.93-0.63%
Dec 201155,668.50-11.03%
Jan 201251,414.02-7.64%
Feb 201251,054.73-0.70%
Mar 201255,588.198.88%
Apr 201261,498.3610.63%
May 201263,343.603.00%
Jun 201266,235.314.57%
Jul 201258,028.71-12.39%
Aug 201266,629.7414.82%
Sep 201269,486.434.29%
Oct 201268,839.66-0.93%
Nov 201263,592.40-7.62%
Dec 201260,773.91-4.43%
Jan 201358,634.03-3.52%
Feb 201358,831.550.34%
Mar 201359,285.510.77%
Apr 201358,116.20-1.97%
May 201353,206.77-8.45%
Jun 201354,206.571.88%
Jul 201353,682.76-0.97%
Aug 201352,781.40-1.68%
Sep 201349,650.55-5.93%
Oct 201348,506.84-2.30%
Nov 201343,828.08-9.65%
Dec 201344,696.891.98%
Jan 201452,733.1917.98%
Feb 201458,880.2711.66%
Mar 201463,541.527.92%
Apr 201453,424.48-15.92%
May 201453,948.850.98%
Jun 201454,900.151.76%
Jul 201457,387.174.53%
Aug 201458,129.161.29%
Sep 201457,068.36-1.82%
Oct 201454,693.34-4.16%
Nov 201453,517.20-2.15%
Dec 201454,817.142.43%
Jan 201557,932.825.68%
Feb 201558,947.091.75%
Mar 201556,987.07-3.33%
Apr 201554,355.78-4.62%
May 201555,203.931.56%
Jun 201556,420.772.20%
Jul 201557,687.072.24%
Aug 201558,181.490.86%
Sep 201559,424.032.14%
Oct 201559,713.420.49%
Nov 201554,477.42-8.77%
Dec 201548,861.18-10.31%
Jan 201647,087.05-3.63%
Feb 201646,921.34-0.35%
Mar 201648,678.043.74%
Apr 201647,558.99-2.30%
May 201645,659.70-3.99%
Jun 201644,548.79-2.43%
Jul 201644,380.88-0.38%
Aug 201646,309.844.35%
Sep 201646,656.110.75%
Oct 201645,530.80-2.41%
Nov 201644,030.19-3.30%
Dec 201644,162.870.30%
Jan 201746,228.614.68%
Feb 201749,166.366.35%
Mar 201749,310.490.29%
Apr 201747,517.71-3.64%
May 201747,106.73-0.86%
Jun 201747,423.370.67%
Jul 201748,217.321.67%
Aug 201749,136.641.91%
Sep 201749,831.641.41%
Oct 201749,497.38-0.67%
Nov 201752,856.596.79%
Dec 201754,717.183.52%
Jan 201855,427.021.30%
Feb 201857,292.633.37%
Mar 201858,856.962.73%
Apr 201860,102.152.12%
May 201860,690.590.98%
Jun 201862,292.232.64%
Jul 201863,872.562.54%
Aug 201865,584.732.68%
Sep 201869,390.915.80%
Oct 201872,061.613.85%
Nov 201872,508.420.62%
Dec 201870,119.02-3.30%
Jan 201969,653.98-0.66%

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