Urease Inhibitor--NBPT
N-(n-butyl)-thiophosphoric Triamide(NBPT)
CAS?NO.:94317-64-3
Molecular formula: C4H14N3PS
Specifications of NBPT
Appearance White crystalline solids or white powder
Content 97% min.
Melting point 57-60°C
Packing 25 kg Cardboard drum or Kraft paper bag;
500 kg/jumbo bag
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Introduction of NBPT
NBPT is currently one of the most effective urease inhibitors in the world. Nitrogen fertilizer is the most widely and important fertilizer type in modern agriculture, and urea accounts for more than 2/3 of the total nitrogen fertilizer. Under normal circumstances, urea is quickly decomposed by urease in the soil, the utilization rate of urea is usually only 30%-40%, so the fertilizer effect period is very short. This not only wastes a lot of nitrogen fertilizer resources, increases planting costs, but also brings a series of problems such as soil knots and environmental pollution.
Urease inhibitors can inhibit the activity of soil urease, which can inhibit and slow nitrogen release. The use of soil urease inhibitors can effectively slow down the process of urea decomposition into ammonia, reduce the concentration of NH4+ and NH3 in the soil, reduce waste, and at the same time Extend the diffusion time of nitrogen fertilizer at the fertilization point, so that the fertilizer supply of the soil and the fertilizer demand of the crop are synchronized. Thereby increasing the effective utilization rate of nitrogen fertilizer by 30%-40%.
Properties
Usage
NBPT can be mixed with urea and applied to the soil directly after dissolving it with a flux in the proportion of 3-5 ten thousandths of the urea used. The half-life after entering the soil is 7 to 8 days, which will not affect the next crop. The final decomposition products are mainly ammonium, sulfate, phosphate, etc., It has no negative effects on soil, microorganisms, humans, animals, water system, etc. It can also be processed into a long-acting slow-release compound fertilizer through a certain process in an appropriate proportion. This long-lasting fertilizer containing NBPT is mainly used in field crops and some long growing period vegetables, orchards, trees, corn, wheat, palm trees, etc.
NBPT is currently the world's most advanced urease inhibitor with excellent effects, wide application and high cost performance. At present, it is widely used in the United States, Brazil, Germany and other countries. It is an excellent soil nitrogen fertilizer urease inhibitor.
Great article on NBPT! Our research at moNolith46_Yellow (https://monolith46.com.pl/) is in line with your findings. NBPT is indeed an excellent urease inhibitor as described, with all the benefits you mention. What I appreciate about your paper is how clearly you've outlined the environmental and economic benefits - the 30-40% increase in nitrogen efficiency is significant for farmers optimising their investments. Our field trials in Poland since 2013 show similar results to what you've shared. These are in line with the Polish "Code of Good Agricultural Practice for Reducing Ammonia Emissions" and EU Regulation 2019/1009. Correct application is essential to maximise the benefits of NBPT. The 3-5 ppm ratio you mention is optimal. For those interested in urease inhibitors and applications, I'm finalising a guide "Understanding Urease Inhibitors: A Guide for Farmers" which will cover questions about NBPT products. Feel free to contact me to discuss NBPT implementation strategies in different agricultural contexts.
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