Jensen Birgit, Lübeck Peter S, Jørgensen Hans Jl
Department of Plant and Environmental Sciences and Copenhagen Plant Science Centre, Faculty of Science, University of Copenhagen, Frederiksberg C, Denmark.
Section for Sustainable Biotechnology, Department of Chemistry and BioScience, Aalborg University, Copenhagen, Denmark.
Pest Manag Sci. 2016 Dec;72(12):2231-2239. doi: 10.1002/ps.4260. Epub 2016 Mar 29.
Several diseases threaten cereal production, and fungicides are therefore widely used. Biological control is an environmentally friendly alternative, and the fungus Clonostachys rosea is a versatile antagonist, effective against several plant diseases. We studied the ability of C. rosea to control barley leaf pathogens and the mechanisms behind the inhibition, emphasising induced resistance.
Under controlled conditions, spray application of C. rosea isolate IK726 to barley leaves reduced Bipolaris sorokiniana severity by up to 70% when applied 24 h before or simultaneously with the pathogen, whereas application 24 h after the pathogen had no effect. IK726 also reduced the sporulation capacity of B. sorokiniana. Microscopy of B. sorokiniana infection revealed that IK726 primarily inhibited conidial germination and appressorium formation, while further pathogen development and host defence reactions (papillae and fluorescent epidermal cells) were unaffected. Likewise, expression of defence-related genes encoding PR proteins was unaltered. In addition to B. sorokiniana, IK726 also reduced infection by Drechslera teres and Rhynchosporium commune.
C. rosea acted as a protectant against three barley leaf pathogens. B. sorokiniana was directly inhibited by IK726, whereas induced resistance appeared not to be involved. Quantitative microscopy is a powerful tool for elucidating mechanisms involved in disease control. © 2016 Society of Chemical Industry.
多种病害威胁谷物生产,因此杀菌剂被广泛使用。生物防治是一种环境友好的替代方法,粉红粘帚霉是一种多功能的拮抗真菌,对多种植物病害有效。我们研究了粉红粘帚霉防治大麦叶部病原菌的能力及其抑制背后的机制,重点关注诱导抗性。
在可控条件下,将粉红粘帚霉分离株IK726喷施于大麦叶片上,在病原菌接种前24小时或与病原菌同时接种时,可使大麦云纹病严重程度降低达70%,而在病原菌接种24小时后接种则无效果。IK726还降低了大麦云纹病菌的产孢能力。对大麦云纹病菌侵染的显微镜观察表明,IK726主要抑制分生孢子萌发和附着胞形成,而病原菌的进一步发育和寄主防御反应(乳突和荧光表皮细胞)未受影响。同样,编码病程相关蛋白的防御相关基因的表达也未改变。除大麦云纹病菌外,IK726还降低了网斑病菌和大麦叶枯病菌的侵染。
粉红粘帚霉对三种大麦叶部病原菌起到了保护作用。IK726直接抑制了大麦云纹病菌,而诱导抗性似乎未起作用。定量显微镜是阐明病害防治机制的有力工具。© 2016化学工业协会。
