New base fertilizers to stay ahead of likely future legislation
As we strive to take better care of our water resources, all growers would do well to be mindful of the effects of nutrient leaching and the benefits of good fertilizer practice, says Andrew Wilson, technical manager for fertilizers. In a bid to stay one step ahead of likely future legislation in regard to N leaching, ICL has taken the necessary steps to replace Calcium Nitrate Ca (NO3)2 in all its growing media mixes.
Andrew Wilson, ICL Technical Manager
Employing our Osmocote controlled release fertilizer (CRF) and quality slow release technologies we have developed two new base fertilisers – Osmocote N and Osmoform High N – to help optimise plant quality and nutrient efficiency by minimising nutrient losses.
Historical base fertilizers
When it comes to base fertilizers, Ca(NO3)2 - also known as Norwegian Saltpeter – has routinely been added by growing media manufacturers to substrate mixes. It is there to provide a nitrogen (N) source to help stimulate good early plant growth.
A commodity ingredient supplying N for up to 3-4 weeks, the nitrate ions are negatively charged and highly soluble. As most soils and growing media substrates - including peat - are negatively charged, Ca(NO3)2 can be quickly leached; a particular problem with substrates difficult to wet-up, ie requiring lots of water.
These issues are exacerbated in peat-reduced and peat-free growing media containing wood-fibre. N reserves tend to be depleted by the biologically active microbes, that take the ions up themselves; meanwhile these substrates tend to be more water repellent, ie have a lower water holding capacity, which increases leaching potential. Of course, the inclusion of a quality wetting agent in the growing media mix, such as H2Gro, can help mitigate this.
Two other commonly used sources of N in horticulture and agriculture are urea [Co(NH2)2] and ammonium nitrate. Compared to calcium nitrate, urea is formed of a longer chain; slower to break down, the leaching risk is reduced. However, this process requires biological activity and in cold temperatures can proceed too slowly to be effective.
Ammonium nitrate containing positively charged NH4 ions, and negatively charged NO3 ions. High levels of NH4 can cause damage to young plants. The use of ammonium nitrate has been restricted due to its oxidising effect and potential use in explosives.
Precision Nutrition with new base fertilizers
Our two new base fertilizers – Osmocote N and Osmoform High N - promote higher nutrient efficiency in the early stages of plant growth, while being better for the environment due to reduced leaching.
For short term crops, Osmoform High N is a slow release fertilizer with a long chain that breaks down slowly and is not water soluble. While the N release is influenced by temperature, microbial activity and humidity, Osmoform High N breaks down steadily over an 8-10 weeks period making it ideal for bedding crops and some perennial and container grown nursery stock.
The fine granules are easily incorporated into growing media mixes and the 7.5% urea is readily available, generating a quick response in the plant. Meanwhile, the 30.5% Urea formaldehyde becomes available more slowly as it has a longer chain.
For longer term perennials and container nursery stock, ICL has developed Osmocote N (+K) which releases over 5-6 months. Containing 36% fully coated Nitrogen enriched with 5% potassium (K), it is suitable for peat-reduced substrate to buffer N immobilisation and reduce leaching.
Another useful product is Osmocote CalMag. This not only supplies supplementary N over 3-4 months but has the added benefit of containing calcium and magnesium – elements often lacking in peat reduced media and soft water systems.
For a complete precision nutrition programme, these new base fertilizers can be combined in growing media mixes with other products from the extensive Osmocote range to deliver exactly what the plant needs throughout its growth cycle on the nursery, in the retail outlet and beyond.
Currently the Nitrates Directive limits the volume of nitrates that can be applied to certain crops. It protects nitrate vulnerable zones (NVZs) – areas designated as being at risk from agricultural and horticultural nitrate pollution.
At present, plants grown under protection, such as in glasshouses, are exempt from NVZs. However, the remit could be extended – particularly now there is increasing emphasis on environmental issues. This could be further compounded by the fact many UK ornamental nurseries are situated in South East England – an area the Environment Agency has classified as being ‘water stressed’.
As such, growers need to be ever mindful of the impact their growing practices can have on their nurseries’ surrounding environment.