RLF AgTech’s 2025 Oldbury Wheat Trial reveals a substantial profitability uplift with its Complete Crop Nutrition Program, highlighting a significant opportunity in Australia’s broadacre wheat sector.
- Average 32% wheat yield increase across diverse soil types
- Net margin improvement averaging $212 per hectare
- Return on investment reaching up to 267% on nutrient-constrained soils
- Enhanced rainfall use efficiency and maintained grain quality
- Supports accelerated commercial adoption for 2026 cropping season
Trial Overview and Context
RLF AgTech Ltd has released compelling results from its 2025 Oldbury Wheat Trial conducted in Western Australia, demonstrating the effectiveness of its Complete Crop Nutrition Program (CCNP). This integrated approach combines seed priming with advanced foliar nutrition, supplementing standard fertiliser practices to address nutrient constraints common in Australian soils.
The trial, spanning four distinct soil types, showed consistent improvements in wheat yields, grain quality, and economic returns. These findings come at a crucial time as Australian wheat growers seek innovative solutions to enhance productivity amid variable soil conditions and climatic challenges.
Performance Highlights and Economic Impact
Across the trial site, the CCNP delivered an average 32% increase in wheat yield compared to conventional fertiliser programs. Notably, nutrient-poor Orange soil saw a remarkable 63% yield uplift, translating to a net margin improvement of $312 per hectare and an exceptional 267% return on investment. Even on higher-yielding soils, such as Grey soil, the program achieved an 11.3% yield increase and a 42% ROI.
These yield gains were complemented by enhanced rainfall use efficiency, with CCNP-treated plots converting more millimetres of rainfall into grain than standard treatments. This efficiency is particularly valuable in dryland farming systems where water availability often limits crop performance.
Grain Quality and Market Relevance
Importantly, the trial maintained or improved grain quality metrics, including protein levels and test weight, ensuring that higher yields did not come at the expense of market standards. The wheat variety used met Australian Premium White classification requirements, supporting premium pricing potential.
Economic calculations were based on realistic net farm gate prices after standard supply chain deductions, reinforcing the practical profitability growers can expect from adopting the CCNP.
Commercial Implications and Growth Prospects
With Australia producing 25–35 million tonnes of wheat annually across 12–14 million hectares, the trial’s results validate a significant market opportunity for RLF’s crop nutrition technologies. The company’s CEO, Stuart Upton, emphasised that these outcomes are already influencing commercial discussions and accelerating product adoption ahead of the 2026 winter cropping season.
RLF’s expanding distribution network and strong field data position it well to capture market share in a sector increasingly focused on sustainable and efficient nutrient management. The integration of seed priming and foliar nutrition into existing fertiliser regimes offers growers a compelling value proposition to enhance both productivity and profitability.
Looking Ahead
While the Oldbury trial represents a single site and season, its consistent positive results across multiple soil types provide a robust foundation for broader adoption. The company’s ongoing efforts to validate and commercialise its CCNP could reshape nutrient management practices in Australian broadacre agriculture, with potential ripple effects on soil health and sustainability.
Bottom Line?
RLF AgTech’s trial success sets the stage for wider adoption and potential market growth in Australia’s wheat sector.
Questions in the middle?
- How will RLF scale distribution to meet anticipated demand for the 2026 season?
- Can multi-location and multi-year trials replicate these promising results?
- What competitive advantages does CCNP hold against other crop nutrition solutions?