Bio-Protection Research Centre, Lincoln University, Lincoln, 7647, New Zealand.
School of Biological Sciences, University of Canterbury, Christchurch, 8140, New Zealand.
New Phytol. 2017 Sep;215(4):1314-1332. doi: 10.1111/nph.14657. Epub 2017 Jun 26.
Contents 1314 I. 1315 II. 1316 III. 1322 IV. 1323 V. 1325 VI. 1326 VII. 1326 VIII. 1327 1328 References 1328 SUMMARY: Invasions of alien plants are typically studied as invasions of individual species, yet interactions between plants and symbiotic fungi (mutualists and potential pathogens) affect plant survival, physiological traits, and reproduction and hence invasion success. Studies show that plant-fungal associations are frequently key drivers of plant invasion success and impact, but clear conceptual frameworks and integration across studies are needed to move beyond a series of case studies towards a more predictive understanding. Here, we consider linked plant-fungal invasions from the perspective of plant and fungal origin, simplified to the least complex representations or 'motifs'. By characterizing these interaction motifs, parallels in invasion processes between pathogen and mutualist fungi become clear, although the outcomes are often opposite in effect. These interaction motifs provide hypotheses for fungal-driven dynamics behind observed plant invasion trajectories. In some situations, the effects of plant-fungal interactions are inconsistent or negligible. Variability in when and where different interaction motifs matter may be driven by specificity in the plant-fungal interaction, the size of the effect of the symbiosis (negative to positive) on plants and the dependence (obligate to facultative) of the plant-fungal interaction. Linked plant-fungal invasions can transform communities and ecosystem function, with potential for persistent legacies preventing ecosystem restoration.
内容 1314 I. 1315 II. 1316 III. 1322 IV. 1323 V. 1325 VI. 1326 VII. 1326 VIII. 1327 1328 参考文献 1328 摘要:外来植物的入侵通常被视为单个物种的入侵,但植物与共生真菌(互利共生体和潜在病原体)之间的相互作用会影响植物的存活、生理特征以及繁殖,从而影响入侵的成功。研究表明,植物-真菌的共生关系是植物入侵成功和影响的关键驱动因素,但需要明确的概念框架和跨研究的整合,才能超越一系列案例研究,实现更具预测性的理解。在这里,我们从植物和真菌起源的角度考虑了植物-真菌的共生入侵,简化为最简单的表示或“基序”。通过描述这些相互作用的基序,病原菌和互利共生真菌的入侵过程中的相似之处变得清晰起来,尽管其结果在效果上往往是相反的。这些相互作用的基序为观察到的植物入侵轨迹背后的真菌驱动动态提供了假说。在某些情况下,植物-真菌相互作用的影响不一致或可以忽略不计。不同相互作用基序产生影响的时间和地点的可变性可能是由植物-真菌相互作用的特异性、共生关系对植物的影响大小(负面到正面)以及植物-真菌相互作用的依赖性(必需到兼性)驱动的。植物-真菌的共生入侵可以改变群落和生态系统功能,具有阻止生态系统恢复的持久影响。
