Introduction

Calcium sulfate, widely known as gypsum, is emerging as a key sustainable input in modern agriculture. Its ability to supply essential calcium and sulfur without significantly altering soil pH makes it an increasingly valuable soil amendment, particularly as farmers seek eco-friendly solutions to enhance soil structure, reduce salinity, and improve nutrient uptake. With global agriculture shifting toward high-efficiency and regenerative practices, calcium sulfate is poised for strong growth in both traditional farming and advanced nutrient management systems.

The global market for calcium sulfate, including its agricultural applications is valued at roughly USD 2.3–3.8 billion in 2024–2025, and projections indicate expansion to USD 3.4–15.9 billion by 2030–2032. This growth is largely driven by fertilizer usage, where calcium sulfate has demonstrated the potential to enhance crop yields by around 15%, particularly in crops like corn and soybeans that benefit from improved water retention and soil fertility.

Role and Application of Calcium Sulfate in Agriculture

In agricultural systems, calcium sulfate serves as a dual-nutrient source providing highly available sulfate sulfur alongside calcium for structural and physiological support. Unlike lime, it does not raise soil pH, making it ideal for sensitive or already alkaline soils.

Calcium sulfate plays several critical roles in soil health:

Improves soil structure and aeration
It loosens compacted soils, reduces crust formation, and enhances root penetration for crop establishment and resilience.

Reclaims sodic and saline soils
Calcium ions replace excess sodium, restoring soil aggregation, drainage, and infiltration rates while minimizing erosion during heavy rainfall.

Enhances nutrient efficiency
By reducing aluminum toxicity and freeing bound phosphorus, gypsum improves nutrient availability and supports better crop uptake.

Provides essential sulfur
Sulfate sulfur is readily absorbed by crops such as brassicas, onions, legumes, and oilseeds, which rely heavily on sulfur for protein synthesis and growth.

With global grain demand projected to increase 15–25% by 2030, the value of calcium sulfate as a reliable soil amendment continues to rise.

Market Growth Opportunities

Agricultural Expansion

Population growth, dietary shifts, and rapid intensification are driving global demand for staples like rice, wheat, and corn. As a result, calcium sulfate is gaining traction in regions facing salinity challenges, micronutrient deficiencies, or degraded soils particularly across India and China.

Calcium sulfate’s compatibility with specialty fertilizer formulations strengthens its position in the evolving nutrient market. As the global specialty fertilizer sector grows at 5.44% CAGR to USD 49.28 billion by 2030, gypsum’s role in enhancing nutrient efficiency without affecting pH supports its integration into high-performance fertilizer blends.

Sustainability and Circular Economy

The rise of flue gas desulfurization (FGD) gypsum from industrial by-products is creating a circular supply chain model that reduces mining pressure and lowers production costs. FGD-based gypsum segments are expanding at over 5% CAGR as recycled materials gain preference in eco-friendly farming initiatives.

New innovations such as lightweight, granular, and high-purity formulations are further unlocking opportunities in precision agriculture, where optimized nutrient delivery is essential.

Challenges and Mitigation Strategies

Despite its benefits, the calcium sulfate market faces several constraints that can hinder adoption:

Supply and Cost Barriers

Volatile raw material prices and mining restrictions frequently disrupt global gypsum supply. The product’s low value-to-weight ratio also makes long-distance transportation costly, limiting economical distribution to roughly 200–300 km from production sites. Import-dependent regions, especially in Europe, are more vulnerable to these fluctuations.

Regulatory and Competitive Pressures

Environmental regulations from agencies such as the EPA and EEA require stricter compliance for mining and emissions, increasing production costs. Additionally, competition from alternative soil amendments and construction-related uses challenges agriculture-focused deployment.

Mitigation Approaches

Diversified sourcing through synthetic gypsum
FGD gypsum can reduce reliance on mined sources and cut production costs by 20–30%, strengthening supply security in regions like the US and Europe.

Transport and logistics optimization
Establishing local production hubs and shifting from road to bulk rail transport expands distribution reach and stabilizes farmer pricing.

Product differentiation through innovation
Blending gypsum with micronutrients or slow-release coatings creates value-added products ideal for high-value crops, enhancing yields by 10–15%.

Precision agriculture adoption
Regular soil testing, drone-assisted application, and controlled dosing improve return on investment while minimizing environmental impact.

Regional and Marketing Strategies

The success of calcium sulfate in the fertilizer sector depends heavily on regional soil conditions and localized marketing strategies.

Asia-Pacific

The region dominates global demand due to large agricultural bases and rapidly intensifying farming systems.

China and India promote gypsum under government soil health missions, showcasing yield improvements of 20–25% in rice-wheat rotations.

Vietnam and Indonesia emphasize crop-specific programs for rice, coffee, and vegetables, supported by digital advisory tools for precision application.

Europe and North America

Sustainability is the core marketing focus:

European markets emphasize recycled gypsum and eco-labels, aligning with EU soil and nitrate management policies.

North America prioritizes performance data through corn-soy trials, direct-to-farmer digital sales channels, and precision farming integrations.

Emerging Markets

GCC countries: Gypsum is marketed for date palms and greenhouse vegetables, often linked to infrastructure development that supports gypsum production.

Latin America: Brazil and Argentina use field demonstrations targeting salinity-prone soybean regions. Combo fertilizer packs blending gypsum with lime are promoted to reduce costs by 15–20% while correcting multiple soil constraints.

Conclusion

Calcium sulfate is increasingly recognized as a versatile and sustainable soil amendment capable of addressing some of agriculture’s most pressing challenges—from salinity and nutrient imbalance to soil degradation. Supported by strong market growth projections, expanding agricultural demand, and innovations in recycled gypsum, it is positioned as a high-potential input for future farming systems.

While challenges persist particularly in supply stability, regulatory compliance, competition, strategic sourcing, product innovation, and region-specific marketing can significantly enhance adoption. As global agriculture moves toward higher efficiency and sustainability, calcium sulfate will remain an essential component of integrated soil fertility management and long-term crop productivity.