Twenty Ten Ten is the ideal product for building soil fertility. This true granular compound comprises ammonium nitrate, phosphate and potash for use on soils low on phosphorous and potassium. Twenty Ten Ten is suitable for providing modest amounts of nitrogen.
Nitrogen, phosphorous and potassium are all essential in healthy crop growth. Nitrogen is essential to plant growth as it is a major component of chlorophyll, which is essential to photosynthesis. Phosphorous also plays a vital role as it helps plants convert nutrients into building blocks for growth. Finally, potassium is essential to a number of plant functions, including building cellulose, moving sugars and starches through the plant, increasing protein, and aiding photosynthesis.
Soils rich in all three – nitrogen, phosphorous and potassium – creates the perfect conditions for healthy crop growth.
Product description
- Ammonium nitrate is the most efficient and predictable form of nitrogen for UK farmers.
- Water soluble phosphate provides rapid uptake to support root development and plant growth.
- Water soluble potash provides rapid uptake to support nitrogen use efficiency and plant growth.
- A true granular compound ensures even and accurate spread of all nutrients across the crop.
- Bulk density typical range 900-1000 kg/m3, average 960 kg/m3.
- The Carbon Footprint for Twenty Ten Ten is 5.5kg CO2e per kg nitrogen.
The benefits of using Twenty Ten Ten
- Multiple nutrients in one combined product, freeing up storage space and reducing labour
- According to government research, ammonium nitrate is the most efficient nitrogen source and the ‘best option for the environment and farming’
- Providing phosphorous to crops in the form of 96% water soluble phosphate ensures rapid and efficient uptake
- Proper nitrogen absorption relies on sufficient potash in the soil, which is provided by the Twenty Ten Ten compound
- This true granular compound ensures even application of all nutrients across the whole spreader bout width which optimises efficiency and crop response.