Influence of fertilizer content and processing condition on the properties of slow-release thermoplastic starch/epoxidized natural rubber blend fertilizer systems
Journal article
Authors/Editors
Strategic Research Themes
Publication Details
Author list: Nakaramontri Y.; Klinnawee L.
Publisher: BioMed Central
Publication year: 2025
Volume number: 12
Issue number: 66
Start page: 1
End page: 17
Number of pages: 17
eISSN: 2196-5641
Languages: English-Great Britain (EN-GB)
Abstract
Background: Urea-based fertilizers are essential for agricultural productivity but contribute to environmental degradation by releasing soil nitrogen (N) through N leaching and runoff. To address these issues, this study develops and characterizes slow-release composites of thermoplastic starch (TPS) and epoxidized natural rubber (ENR) that incorporate 46-0-0 fertilizer. TPS, recognized for its moisture sensitivity and biodegradability, was blended with ENR to enhance matrix compatibility and optimize nutrient release from the fertilizer. The blending process included different fertilizer concentrations (6.9, 10, 15, and 20 wt%) within various components of the composite. Results: The characterization included evaluation of mechanical properties, water absorbance, biodegradability in soil, ammonium release, and ammonium leaching. The TPS/ENR composites exhibited a two-stage decomposition, with TPS dissolving first to provide an initial nutrient boost, followed by the biodegradation of ENR to ensure sustained nutrient delivery. Ammonium release assays demonstrated that TPS/ENR composites delayed nutrient dissolution compared to conventional fertilizers, significantly reducing nitrogen loss through leaching. Notably, the TPS/ENR composite with 6.9 wt% of 46-0-0 fertilizer exhibited the highest efficiency, achieving sustained ammonium release and enhancing soil nitrogen retention while mitigating phytotoxicity in lettuce and maize germination assays. Conclusions: These findings highlight the potential and environmental benefits of delivering fertilizer in TPS/ENR composites to improve nitrogen fertilizer efficiency in agricultural systems. The slow-release mechanism provides both initial and sustained nutrient supply, addressing the dual challenges of early crop nutritional needs and long-term environmental sustainability. © The Author(s) 2025.
Keywords
Epoxidized natural rubber blend, Natural Rubber
Contact Information