蜡样芽孢杆菌
化学
生物病虫害防治
涂层
食品科学
抗氧化剂
苗木
蜡样体
水分
烟草烘烤
园艺
细菌
开枪
植物
种子处理
控制释放
多酚
植物生长
糖
钠
细菌生长
生物技术
酶分析
黄曲霉
海藻酸钠
芽孢杆菌(形态)
抗菌剂
作者
Jinhui Jiang,Fan Yan,Chaojun Shi,Honglin Zhang,Lương Hùng Tiến,Hoàng Trung Tín,Neng Yang,Ruilin Fu,Zhongquan Yu,Yinbiao Zhou,Jiahao Jia,Shengchao Yang,Tao Liu
标识
DOI:10.1016/j.indcrop.2025.122308
摘要
Microbial seed coating is an effective and eco-friendly strategy for plant disease management. In this study, we developed a hydrogel-based microbial seed coating agent using a sodium alginate–polyethylene glycol–glycerol (SA–PEG–Gly) matrix loaded with Aspergillus tamarii TPD11 and Bacillus cereus LgD2. The optimal formulation significantly improved seed vigor, shoot and root growth, and showed good compatibility with tobacco biocontrol bacteria. The hydrogel exhibited pH responsiveness, retained moisture for 60 h, and maintained > 6 log CFU/mL viable cells with stable pH during six months of storage. It achieved > 83 % encapsulation efficiency, preserved antibacterial activity, and sustained viable bacterial populations at 10⁶ CFU/g in soil. Upon application, each coated seed delivered > 3 log CFU of biocontrol agents, promoting tobacco seedling growth and enhancing leaf antioxidant enzyme activities (SOD, POD, CAT). The coating provided > 50.71 % control efficacy against tobacco black shank disease. These results demonstrate the feasibility and potential of the SA–PEG–Gly hydrogel as a carrier for microbial seed coatings, offering a practical and sustainable solution for plant protection and growth promotion. • Developed SA–PEG–Gly hydrogel coating delivering Aspergillus tamarii TPD11 and Bacillus cereus LgD2. • Optimized formulation preserves > 6 log CFU/mL viability during 6-month storage. • Increased seed germination, vigor, and antioxidant enzyme activities in tobacco.
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