DEVELOPMENT OF BORON-MODIFIED AMINOPLAST RESIN COATINGS FOR ENHANCED UREASE INHIBITION IN SALINE-SODIC SOILS

Authors

  • Mashaal Maqsood Faculty of Sciences, The Superior University Lahore, Pakistan Author
  • Faisal Riaz Faculty of Sciences, The Superior University Lahore, Pakistan Author
  • Muhammad Atif Faculty of Sciences, The Superior University Lahore, Pakistan Author
  • Ali Imran Mallhi Faculty of Sciences, The Superior University Lahore, Pakistan Author
  • Sheraz Tariq Faculty of Sciences, The Superior University Lahore, Pakistan Author
  • Maryam Aslam Department of Chemistry, Government College Women University Faisalabad Author
  • Muhammad Muddasar Mehmood Department of Clothing, National Textile University, Faisalabad Author
  • Faisal Mehmood Faculty of Management Sciences, The Superior University Lahore, Pakistan Author

DOI:

https://doi.org/10.62019/j9tffm40

Keywords:

Urea Granules, Boric Acid Coating, Saline-Sodic Soil, FT-IR Spectroscopy, Productivity Enhancement

Abstract

The melamine-formaldehyde-boron (MFB) composite was synthesized with high efficiency, achieving a 95% yield. The incorporation of boric acid into the melamine-formaldehyde resin matrix resulted in a homogeneous, physically stable polymer composite. The synthesis was characterized by FT-IR spectroscopy, revealing key functional groups such as N-H stretching (~3350 cm⁻¹) for melamine residues, C=O stretching (~1650 cm⁻¹) for formaldehyde, B-O vibrations (~1350 cm⁻¹) for boric acid integration, and C-N bending (~1250 cm⁻¹) indicative of cross-linking between melamine, formaldehyde, and boric acid. Further investigations evaluated the impact of boric acid-coated urea granules on the productivity and physicochemical properties of saline-sodic soil. Boric acid incorporation (5% coating) significantly improved soil conditions by lowering pH, reducing electrical conductivity, and increasing organic matter content. Moreover, urease activity was reduced by 75%, leading to improved nitrogen retention. The effect of boric acid on plant productivity was most pronounced at a 5% coating, with radish plant productivity showing a 44% increase, along with improvements in shoot and root biomass. These findings highlight the potential of MFB-coated urea granules to enhance soil health and plant growth, demonstrating the effectiveness of boric acid in optimizing nitrogen release and mitigating soil salinity.

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Additional Files

Published

2025-02-03

Issue

Vol. 2 No. 1 (2025): Journal of Medical & Health Sciences Review

Section

Articles

License

All articles published in the Journal of Medical & Health Sciences Review (JMHSR) remain the copyright of their respective authors. JMHSR publishes its content under the Creative Commons Attribution‑NonCommercial 4.0 International License (CC BY‑NC 4.0), which allows readers to freely share, copy, adapt, and build upon the work for non‑commercial purposes, provided proper credit is given to both the authors and the journal. 

How to Cite

DEVELOPMENT OF BORON-MODIFIED AMINOPLAST RESIN COATINGS FOR ENHANCED UREASE INHIBITION IN SALINE-SODIC SOILS. (2025). Journal of Medical & Health Sciences Review, 2(1). https://doi.org/10.62019/j9tffm40