A flexible alternative for zinc delivery
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Excellent zinc distribution through the soil profile as zinc is on every nitrogen granule

When soil phosphorous reserves are good and only nitrogen is required, allows for application of zinc

Cost effective zinc application method when compared to expensive foliar sprays

Typical Analysis
N% P% K% S% Zn%
45 0 0 0 1.0
  • Chemical name

    Urea zinc oxide

  • Crop Segments

    Cotton and Sorghum

  • Features

    High analysis nitrogen with zinc on every granule

  • Quality & Handling

    Hard, uniformly sized 2-4 mm granules

  • Blending

    Can be blended with the majority of fertilisers


Urea is made by combining ammonia and carbon dioxide. Granules of Urea are made by passing the liquid Urea through a fluid bed granulation system, creating a hard and evenly sized granule.

Granulated Urea is harder than prilled Urea, therefore creating less fines and dust when handled and transported.

Modern Urea products have a stabilising compound added – formaldehyde at between 0.3 and 0.5%. This additive reduces the critical humidity (the humidity level at which Urea absorbs moisture) and greatly improves its handling and storage qualities.


Plants take up nitrogen from the soil in the mineral forms of nitrogen, both ammonium and nitrate before converting it to plant protein nitrogen. Plants vary in their preference to utilise either form of nitrogen. Nitrate is considered the main source because it is mobile in the soil. On addition to the soil, Urea dissolves into the soil solution and is converted to ammonium and then to nitrate.

Conversion is favoured by:

• Temperature – the activity range is wide, varying from -20°C to 37°C with the optimum >20°C.
• Organic matter – activity is enhanced in soils high in organic matter which favours microbial activity.
• The time for Urea to be converted to ammonium will depend on the conditions of moisture and temperature. The reaction will begin to occur 24 hours after application and be complete within 2 to 5 days. The reaction time is slowest in cold, waterlogged conditions.

It is these biological processes in the release of nitrogen from Urea to plants that gives Urea its main characteristic of a slower release form of nitrogen. Urea has longer availability for uptake by plants and release rates that are more closely related to plant growth.

Storage & Handling

• In the field when sowing or spreading Urea, ensure that all efforts are made to exclude moisture.
• Keep trucks and spreaders covered.
• Empty drills and spreaders between jobs and overnight if possible. Keep well covered and lay plastic on the fertiliser in the drill if storing overnight. Do not forget to remove the plastic in the morning.
• If sowing in humid and foggy conditions, check for blockages regularly.

Urea is completely soluble in water. Its maximum solubility is 30kg of Urea per 100 litres of water. Be aware that when Urea is mixed with water this creates a cold (endothermic) reaction, so take care on cold, frosty mornings.


Do not mix Silver N with Single Superphosphate or Triple Superphosphate.
Do not store in silos.

Biuret can cause burning of foliage if Urea is sprayed onto the leaves in low volumes.