Agronomic Comparison of Mechanochemically Synthesized Zinc Borate and Other Boron Sources Granulated with Macronutrient Fertilizers

Purpose Boron (B) is an essential micronutrient required throughout the growth cycle of plants so effectively supplying crops with B using fertilizers is challenging. The purpose of this study was to assess the agronomic effectiveness of mechanochemically synthesized zinc borate as a slow release B source and compare it to commonly used B sources after incorporation with different macronutrient carriers. Methods Zinc borate synthesized using a green mechanochemical method as well as commercial B sources (borax, colemanite, and commercial zinc borate) were incorporated with various macronutrient fertilizers (monoammonium phosphate – MAP, muriate of potash – MOP and urea). The fertilizers were evaluated by a) assessing the solubility behaviour of these products; and b) comparing potential leaching losses, plant growth, and plant uptake through a greenhouse study. Results The mechanochemically synthesized zinc borate, commercial zinc borate, and colemanite had similar dissolution rates when MAP was the carrier, but both zinc borates dissolved more B than colemanite when MOP and urea were the carriers. In the pot trial, high losses of B in leachates resulted in low B uptake by plants fertilized with soluble sodium tetraborate. All the slow-release B sources showed less B leaching and greater B uptake compared to the soluble B treatment, but more B was leached for the mechanochemically synthesized than for the commercial zinc borate. Conclusions Our study indicates that mechanochemically synthesized zinc borate could be effective in matching plant demand for B and reducing leaching losses in high rainfall environments, particularly with urea as the carrier, while providing the benefit of lower waste stream production compared to commercial zinc borate sources.