Matilda Stein Åslund, Michael Reichelt, Ke Zhang, Carles Castaño, Jan Stenlid, Jonathan Gershenzon, Malin Elfstrand
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引用次数: 0
摘要
Diplodia sapinea 会引起 Diplodia 枝梢枯萎病(DTB),被认为是影响针叶树的机会性坏死性病原体。虽然 DTB 与非生物胁迫有关,但寄主的生物胁迫对 D. sapinea 生活方式转变的影响尚不清楚。观察到 D. sapinea 和 Melampsora pinitorqua 同时出现在苏格兰松树(Pinus sylvestris)上导致松树扭曲锈病,这促使我们对它们与寄主防御机制的相互作用和影响进行调查。我们推测,松锈菌感染会对寄主造成压力并改变嫩枝的代谢物,从而使松树更容易感染沙皮氏锈菌。我们对种植园中的松树进行了长期采样,以研究病原体的生物量和寄主代谢物。两种病原体的症状在数年内是一致的,前一季的症状会影响感染前的代谢概况和松毛虫的增殖。小松毛虫的症状对嫩枝代谢物的影响比真菌生物量的影响更大,同时出现症状的树木表现出小松毛虫生物量的增加。特定的酚类化合物与嫩枝症状 × D. sapinea 的相互作用有很强的正相关性。D. sapinea在症状出现前的生物量与之前的疾病症状和M. pinitorqua的感染无关。一些树木表现出抗病性,锈病感染延迟,DTB 症状轻微。对这一性状还需要进一步研究。
Scots Pines With Tolerance to Melampsora pinitorqua and Diplodia sapinea Show Distinct Metabolic Profiles.
Diplodia sapinea causes Diplodia tip blight (DTB) and is recognised as an opportunistic necrotrophic pathogen affecting conifers. While DTB is associated with abiotic stress, the impact of biotic stress in the host on D. sapinea's lifestyle shift is unknown. Observed co-occurrences of D. sapinea and Melampsora pinitorqua, causing pine twisting rust on Scots pine (Pinus sylvestris), instigated an investigation into their interaction with and influence on the defence mechanisms of the host. We hypothesised that M. pinitorqua infections predispose the trees to D. sapinea by stressing the host and altering the shoot metabolites. Pines in a plantation were sampled over time to study pathogen biomass and host metabolites. Symptoms of both pathogens were consistent over years, and the preceding season's symptoms affected the metabolic profiles pre-infection and M. pinitorqua's proliferation. Symptoms of M. pinitorqua altered shoot metabolites more than fungal biomass, with co-symptomatic trees exhibiting elevated M. pinitorqua biomass. Specific phenolic compounds had a strong positive association with the shoot symptom × D. sapinea interaction. D. sapinea's biomass presymptoms was independent of previous disease symptoms and infection by M. pinitorqua. Some trees showed disease tolerance, with delayed rust infections and minimal DTB symptoms. Further investigations on this trait are needed.
期刊介绍:
Plant, Cell & Environment is a premier plant science journal, offering valuable insights into plant responses to their environment. Committed to publishing high-quality theoretical and experimental research, the journal covers a broad spectrum of factors, spanning from molecular to community levels. Researchers exploring various aspects of plant biology, physiology, and ecology contribute to the journal's comprehensive understanding of plant-environment interactions.