Biodegradation and viability of chitosan-based microencapsulated fertilizers

Enhanced efficiency fertilizers (EEF) are an important subject for sustainable materials. It is fundamental for the released nutrient and biodegradation in the soil to have synergy to ensure material harmlessness. Chitosan, montmorillonite, and KNO3 were considered to develop the EEF because of the high biodegradation potential of the final product. We correlated the material biodegradability and release in water and soil to their formulation. We assume the materials are biodegradable since the biodegradation efficiency achieved over 30 %. As the nutrient diffusion and matrix degradation happen concomitantly, we also observed that the clay delays degradation and the KNO3 improved it. Likewise, the storage period can change the biodegradability properties once the material started to degrade. Hereupon, the amount of nutrient delivered will match the amount consumed by the plant, the matrix will degrade and no residue will be left in the soil.

Automated summary

Enhanced efficiency fertilizers (EEF) are an important topic for sustainable materials, requiring synergy between released nutrients and biodegradation in soil to ensure harmlessness. Chitosan, montmorillonite, and KNO3 are being considered for EEF development due to their high biodegradation potential. The study found that nutrient diffusion and matrix degradation occur simultaneously, with clay delaying degradation and KNO3 enhancing it.