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Fabrication of Eco-Friendly Biomass-Based Hydrogel Beads as an Effective Matrix for Slow-Release Fertilizer

Author

Listed:
  • Jiangying Xu

    (Key Laboratory of Recycling and Eco-Treatment of Waste Biomass of Zhejiang Province, School of Environmental and Natural Resources, Zhejiang University of Science and Technology, Hangzhou 310023, China)

  • Liting Zhang

    (Key Laboratory of Recycling and Eco-Treatment of Waste Biomass of Zhejiang Province, School of Environmental and Natural Resources, Zhejiang University of Science and Technology, Hangzhou 310023, China)

  • Cheng Liu

    (Key Laboratory of Recycling and Eco-Treatment of Waste Biomass of Zhejiang Province, School of Environmental and Natural Resources, Zhejiang University of Science and Technology, Hangzhou 310023, China)

  • Yijun Shi

    (Agricultural Technology Extension Center, Tonglu Agriculture and Rural Bureau, Hangzhou 311500, China)

  • Shengdao Shan

    (Key Laboratory of Recycling and Eco-Treatment of Waste Biomass of Zhejiang Province, School of Environmental and Natural Resources, Zhejiang University of Science and Technology, Hangzhou 310023, China)

Abstract

Rapid dissolution of conventional fertilizers causes low nutrient-use efficiency and serious leaching losses, contributing to agricultural non-point source pollution. In this study, biomass-based slow-release fertilizer beads were prepared by ionic crosslinking of potato starch (ST), chitosan (CS), and corn-straw biochar (BC), using potassium nitrate (KNO 3 ) as the model nutrient. The effects of ST/CS ratio and BC incorporation on bead structure, swelling, nutrient loading, release kinetics, and soil-column leaching were systematically investigated. Biochar incorporation formed a more compact and interconnected porous network and reduced the equilibrium swelling ratios of ST90/CS10, ST80/CS20, and ST70/CS30 from 188%, 176%, and 164% to 168%, 136%, and 104%, respectively. Although BC slightly decreased KNO 3 loading capacity, it markedly slowed nutrient release; ST80/CS20/BC20 released 31.09%, 50.09%, and 81.82% of loaded KNO 3 at 24, 72, and 504 h, respectively, which were 28.40%, 25.27%, and 11.30% lower than those of ST80/CS20. Kinetic fitting indicated that BC reduced the apparent release rate and promoted diffusion-controlled release behavior. Soil-column experiments further showed that the beads reduced NO 3 − -N and K + leaching compared with free KNO 3 , with ST80/CS20/BC20 showing the best balance between nutrient loading and release control. These results suggest that starch–chitosan–biochar beads are a promising biodegradable matrix for slow-release fertilizer applications.

Suggested Citation

  • Jiangying Xu & Liting Zhang & Cheng Liu & Yijun Shi & Shengdao Shan, 2026. "Fabrication of Eco-Friendly Biomass-Based Hydrogel Beads as an Effective Matrix for Slow-Release Fertilizer," Sustainability, MDPI, vol. 18(12), pages 1-18, June.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:12:p:6214-:d:1968951
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