水稻纹枯病生防菌株的筛选及其应用方式的研究

Screening and applying microorganism for biocontrol of rice sheath blight

  • 摘要: 生物防治微生物的应用方式对生防效果具有显著影响。本研究利用分离到的生防菌株T12孢子粉、有机肥吸附菌丝(菌丝吸附)和固体发酵产品(固体发酵)3种水稻纹枯病生防菌的应用方式, 研究了3种应用方式对水稻纹枯病发病率、微生物数量以及水稻抗病性酶活性的影响, 分析了不同应用方式的生防效果。结果表明, 生防菌株T12鉴定为棘孢木霉(Trichoderma asperellum)。孢子粉、菌丝吸附和固体发酵的应用方式都能够防控水稻纹枯病, 其中固体发酵应用方式的防效最好, 防治率为89.5%。相较于孢子粉处理, 应用菌丝吸附和固体发酵的方式能够显著(P>0.05)增加水田中立枯丝核菌(Rhizoctonia solani)菌核表面附着的木霉菌数量。水稻移栽20 d测定水稻茎秆上木霉菌数量显示, 固体发酵和菌丝吸附应用方式有利于木霉菌在水稻茎秆定殖; 水稻移栽60 d、100 d和130 d测定木霉菌数量表明, 孢子粉处理木霉菌数量高于固体发酵处理, 固体发酵处理高于菌丝吸附处理(P>0.05)。水稻生育期内, 对照处理立枯丝核菌数量从41 cfu g-1增加到272 cfu g-1, 孢子粉处理和菌丝吸附处理水稻茎秆上立枯丝核菌数量低于对照处理, 但均高于固体发酵处理(P>0.05)。测定水稻几丁质酶和β-1,3葡聚糖酶活性的结果显示, 3种应用方式都能够诱导水稻产生抗性, 相较于孢子粉处理, 菌丝吸附和固体发酵处理能够在水稻生育期内持续诱导水稻产生抗性。棘孢木霉T12菌株固体发酵产品的应用方式更有利于对水稻纹枯病的生物防控。

     

    Abstract: The method of application of biocontrol microorganism is important for a successful biocontrol of crop diseases. An experiment was carried out to screen microorganisms and analyze their application methods in biocontrol of rice sheath blight. The T12 fungus screened was identified as Trichoderma asperellum. The applications of conidia powder (CP), organic fertilizer adsorbed mycelia (MA) and solid-state fermentation product (SS) of T. asperellum T12 were compared on effectiveness in biocontrol of sheath blight. SS exhibited best biocontrol efficacy, which was 89.5%. The cfus (colony forming unit) of T. asperellum adhering to sclerotia of Rhizoctonia solani in the soil was significantly higher in MA and SS treatments than in the control and CP treatments (P > 0.05). The MA and SS application methods enhanced the growth of T. asperellum along rice sheath. On the 60th day, 100th day and 130th day after rice transplanting, T. asperellum population on leaf and sheath surfaces of rice indicated that the best and worst treatments were respectively CP and MA. R. solani population on leaf and sheath surface in the control treatment increased from 41 cfu·g-1 to 272 cfu·g-1 (P > 0.05), higher than that in the other treatments (P > 0.05). R. solani population in SS treatment was significantly lower than that in MA and CP treatments (P > 0.05). Compared with control treatment, all the three application methods induced higher enzyme activities of chitinase and β-1,3-glucanase (P > 0.05), while SS and MA induced longer disease resistance than CP. Therefore T. asperellum T12 application in solid-state fermentation production was considered the best application method for biocontrol of rice sheath blight.

     

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