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Slow-release urea fertilizer with polymer and biochar-based organic coatings: Design, field trials and global economic implications

Mengqiao Wu, Cheng Yang, Chang‐Zhi Dong, Xu Zhao, Zhenyu Wang, Hai Xiang, Yanjiang Cai, Yongfu Li, Hailu Fu, Bing Yu

2025Industrial Crops and Products9 citationsDOIOpen Access PDF

Abstract

Conventional slow-release urea fertilizers often rely on polymeric coatings, which can be costly, non-biodegradable, and environmentally problematic. To address these limitations, we developed a slow-release urea fertilizer using a combination of biodegradable polymeric (specifically polyvinyl alcohol/starch film) and biochar-based organic coatings, designated as U-PVA/ST/BOF. The slow-release performance of this fertilizer was evaluated through column leaching tests, where U-PVA/ST/BOF exhibited the most effective slow-release characteristics, with the lowest cumulative nitrogen release rate (18.3 %) over 28 days, while U/BOF (lacking the polymeric coating) released 36.4 %, while U-PVA/ST (without the biochar-based organic coating) released 42.7 %. Mechanistic investigations revealed that biochar-based organic coating in U-PVA/ST/BOF acts as a barrier, slowing water penetration and preventing premature swelling of the PVA/ST membrane. As water gradually diffuses through the biochar-based organic layer, the PVA/ST matrix absorbs moisture and swells, thereby releasing nitrogen in a sustained manner. Field trials showed that U-PVA/ST/BOF significantly improved wheat growth, grain-setting rate, and yield, resulting in a 40 %-44 % increase in yield compared to other fertilization treatments. Economic analysis indicated that U-PVA/ST/BOF provides a cost-effective solution for reducing nitrogen inputs, potentially lowering global nitrogen use by up to 29.75 million tons, offering both ecological benefits and economic viability for global agricultural systems.

Topics & Concepts

BiocharUreaFertilizerCoated ureaEnvironmental scienceChemistryAgronomyOrganic chemistryBiologyPyrolysisPolymer-Based Agricultural EnhancementsMembrane Separation TechnologiesPhosphorus and nutrient management
Slow-release urea fertilizer with polymer and biochar-based organic coatings: Design, field trials and global economic implications | Litcius