绿色木霉M1M2固体发酵培养基的筛选优化及其对大豆菌核病的防治效果OA
Screening and Optimization of Solid Fermentation Medium for Trichoderma viride M1M2 and Its Controlling Effect on Sclerotinia Stem Rot in Soybean
以麦麸、稻壳、玉米碎粒等为基质,采用单因素和正交试验筛选绿色木霉菌株M1M2的最佳产孢培养基质配方,探究矿质元素(Fe2+、Mg2+、Cu2+等)对菌株M1M2产孢量的影响,优化接种量、加水量、培养温度等产孢培养条件,并采用盆栽试验测试不同浓度M1M2孢子悬浮液对大豆菌核病的防治效果,利用选择性培养基监测其在土壤中的定殖量变化,旨在为M1M2生防菌剂的开发和应用奠定技术基础.结果表明,菌株M1M2在麦麸和玉米碎粒基质中菌丝生长速度及生物量最大;通过正交试验筛选获得最佳固体发酵基质配方为玉米碎粒:稻壳:麦麸=2:3:1,在此配方基质中添加Mg²⁺和Cu²⁺可显著促进M1M2产孢.优化后的发酵条件为20 g基质中接种7 mL浓度1×10⁶个/mL的孢子悬浮液、加水量5 mL、培养温度28℃,该条件下菌株产孢量达到最大值.盆栽试验显示,M1M2菌株施用浓度≥1×10⁷ cfu/mL时对大豆菌核病的防治效果超过60%,其中1×10 ⁸ cfu/mL和1×10 ⁹ cfu/mL处理的防效分别达71.4%和72.5%.M1M2在土壤的定殖分析结果表明,菌株M1M2在施入后第7天定殖量达到峰值(6.5×10⁶ cfu/g),施入30 d后仍维持在2.0×105 cfu/g,为空白对照的10倍.可见,通过培养基质筛选、发酵条件优化及应用技术研究可以实现M1M2菌株的低成本规模化培养,M1M2菌株施用浓度≥1×10⁷ cfu/mL防效较好,为大豆菌核病的生物防治提供了高效菌株及配套应用技术.
Using wheat bran,rice husk,and cracked maize as substrates,single-factor and orthogonal experiments were conducted to screen the optimal sporulation medium formulation for Trichoderma viride strain M1M2.The effects of mineral elements(Fe2+,Mg2+,Cu2+,etc.)on sporulation yield were investigated,while inoculum density,moisture content,and incubation temperature were optimized.Pot experiments were conducted to assess the biocontrol efficacy of different M1M2 spore suspension concentrations against sclerotinia stem rot in soybean,and selective media were employed to monitor colonization dynamics in soil,aiming to establish a technical foundation for M1M2 biocontrol agent development and application.The results demonstrated that strain M1M2 achieved maximum mycelial growth rate and biomass in wheat bran and cracked maize substrates.Orthogonal screening identified the optimal solid-state fermentation formula as cracked maize:rice husk:wheat bran=2:3:1,with Mg2+and Cu2+supplementation to this substrate significantly enhancing sporulation.The optimized fermentation conditions comprised inoculation with 7 mL of spore suspension at 1×106 spores/mL in 20 g substrate,water addition of 5 mL,and incubation at 28℃,yielding maximum sporulation under these parameters.Pot experiments revealed that M1M2 application concentrations≥1×107 cfu/mL provided>60%control efficacy against sclerotinia stem rot in soybean,with 1×108 cfu/mL and 1×109 cfu/mL treatments achieving 71.4%and 72.5%efficacy,respectively.Soil colonization analysis showed that M1M2 populations peaked at 6.5×106 cfu/g on day 7 post-application and remained at 2.0×105 cfu/g after 30 days—10-fold higher than the blank control.These findings indicate that cost-effective mass production of strain M1M2 can be realized through medium screening,fermentation optimization,and application technology development.The strain exhibits effective biocontrol at concentrations≥1×107cfu/mL,providing an efficient candidate and compatible application technology for biological management of sclerotinia stem rot in soybean.
王春;王芊;曹旭;孟庆林;王宇;于良斌;李易初
黑龙江省农业科学院 植物保护研究所/农业农村部哈尔滨作物有害生物科学观测实验站,黑龙江 哈尔滨 150086黑龙江省农业科学院 植物保护研究所/农业农村部哈尔滨作物有害生物科学观测实验站,黑龙江 哈尔滨 150086黑龙江省科学院 微生物研究所,黑龙江 哈尔滨 150010黑龙江省农业科学院 植物保护研究所/农业农村部哈尔滨作物有害生物科学观测实验站,黑龙江 哈尔滨 150086黑龙江省农业科学院 植物保护研究所/农业农村部哈尔滨作物有害生物科学观测实验站,黑龙江 哈尔滨 150086黑龙江省农业科学院 植物保护研究所/农业农村部哈尔滨作物有害生物科学观测实验站,黑龙江 哈尔滨 150086黑龙江省农业科学院 植物保护研究所/农业农村部哈尔滨作物有害生物科学观测实验站,黑龙江 哈尔滨 150086
农业科技
大豆核盘菌绿色木霉固体发酵培养基生物防治防效
SoybeanSclerotinia sclerotiorumTrichoderma virideSolid fermentation substrateBiocontrolControl effect
《河南农业科学》 2026 (5)
107-115,9
黑龙江省省属科研院所科研业务费青年项目(CZKYF2024-1-C009)
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