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CRF is considered the fertilizer technology with the highest nutrient use efficiency.
Over 50 years ago, the first generation of ICL’s Osmocote Controlled Release Fertilizers revolutionized the industry: an NPK granule with an organic resin coating surrounding it ensured that one application of nutrients would be sufficient for a long period of time. It marked the beginning of a whole new concept in fertilizer application. Thanks to continuous research and development, the first generation of Osmocote was followed by the second, the third, and the fourth. Each equipped with the newest technologies and innovations to improve and grow even better plants in a more sustainable and efficient way. This year, we introduced the fifth generation, Osmocote 5, that rises above all predecessors with an unrivalled performance in plant-matching nutrient release, efficiency and sustainability.
Today, Controlled Release Fertilizers (CRF) are used all over the world in agriculture, horticulture, and professional turf surfaces.
CRF technology is considered the fertilizer technology with the highest nutrient use efficiency. Conventional fertilizers dissolve in soil immediately after application, providing nutrition for only a short period of time. Multiple fertilizer applications are necessary to ensure that the crop receives the nutrition it requires.
As a result of their special coatings, CRF granules release their nutrients gradually over an extended time. Depending on a CRF product’s longevity, nutrient release takes from several weeks to many months. Numerous studies have demonstrated that nitrogen loss to the environment is considerably lower when using CRFs. Moreover, these types of fertilizers are more efficient to use, which also increases crop yields and quality.
One single application of CRFs is sufficient to feed a crop for an entire growing season
Thanks to optimal nutrient use efficiency and precise, localized application (to the plant’s root zone), a much lower NPK input with CRFs is sufficient to reach the same or higher quality crops. Nearly 30 years of ICL trials have proven the strengths of the CRF concept. Depending on circumstances related to cultivation, CRFs can significantly reduce:
Growers worldwide can reduce fertilizer usage and simultaneously achieve higher quality crops and yields with a lower environmental impact.
CRFs are applied in the soil around a plant’s root zone exactly where nutrients are most effective. CRFs contain a coating that ensures that nutrients are only released when the plant needs them. This gradual process provides the plant with nutrition for up to a year, and fertilizers only need to be applied once instead of four times a year.
CRFs use up to 40% less fertilizer than conventional fertilizers. Moreover, all the nutrients are actually utilized by the plant. This prevents nutrient excesses and minimizes losses to the environment through the leaching of nutrients into water sources and volatilization.
Various research studies have also demonstrated that the use of CRFs results in stronger, healthier plants and an equal or even higher yield with lower fertilizer use.
Use of controlled release fertilizers benefits additional processes as well, such as increasing the nitrogen use efficiency of plants. This increased efficiency means that less nitrogen is volatilized into the air as N2O, a greenhouse gas.
Efficient use of our resources is a must for ICL. Our latest circular economy innovation is Pearl® Technology; recycled phosphorus that helps close the phosphorus cycle, reduces losses to the aquatic environment and preserves the primary and finite resources of rock phosphate to produce conventional fertilizers. Pearl® is sustainably recovered from high P water streams, including industrial, mining, food processing, livestock and municipal, utilizing a unique process which allows recovery of a pure struvite granule. Struvite proved to be an asset in plant health and growth, and is incorporated in ICL’s premium CRF range for turf, Sierrablen Plus.
ICL Specialty Fertilizers has compiled a compendium of independent, scientific CRF research over the years. The compendium provides an overview of the possibilities that CRF offer to achieve environmental benefits through its higher efficiency. This results in higher yields, less leaching, less volatilization and reduced N2O losses. Official publications like this compendium can play a role in the acceptance of CRF as a solution to more efficient fertilization. In Europe, for example, CRF can play a role to achieve the Farm-to-Fork target of a 50% reduction in nutrient losses.
Current controlled release coatings are polymers based on enhanced vegetable oils. This kind of coating degrades slowly and is thus effectively inert in the soil after the nutrients have been released. All ICL polymer coatings are designed to be as thin as possible (as thin as a human hair) and permeable, while still allowing the coating to fulfill its function – controlling the release of nutrients over a pre-defined time period.
To take CRF technology into the future, ICL is focusing on the development of a faster biodegradable coating
Biodegradable coatings will comply with new regulations of the European Union and reduce concerns raised by stakeholders about the welfare of our planet.
Visit the website or LinkedIn to learn more about ICL’s CRFs.
ICL assessed the impact of its products on the environment with a method to quantify the environmental impact through its whole lifecycle. An LCA was done on Agrocote (one of the products in the CRF family) with regards to potato cultivation in the Netherlands.
Using controlled release fertilizers reduces the carbon footprint. Research from ICL has demonstrated that the controlled release fertilizer Agromaster reduces environmental impact.
Using Agrocote on every 10.000 ha of cultivated land reduces CO2 footprint equal to:
