United States Department of Agriculture Forest Service, Missoula, Montana 59801, USA.
Am Nat. 2010 Oct;176(4):394-403. doi: 10.1086/656274.
Indirect interactions are important for structuring ecological systems. However, research on indirect effects has been heavily biased toward top-down trophic interactions, and less is known about other indirect-interaction pathways. As autogenic ecosystem engineers, plants can serve as initiators of nontrophic indirect interactions that, like top-down pathways, can involve both trait-mediated indirect interactions (TMIIs) and density-mediated indirect interactions (DMIIs). Using microcosms, I examined a plant --> predator --> consumer interaction pathway involving the exotic autogenic ecosystem engineer Centaurea maculosa; native Dictyna spiders (which exhibit density and trait [web-building] responses to C. maculosa); Dictyna's insect prey, Urophora affinis; and Urophora's host plant (a secondary receiver species) to quantify DMIIs and TMIIs in an autogenic engineered pathway. Both DMIIs and TMIIs were strong enough to reduce Urophora populations, but only DMIIs, which were 4.3 times stronger than TMIIs, were strong enough to also reduce Urophora's fecundity and increase the fecundity of its host plant. Prior field studies support these results, suggesting that the differences between DMIIs and TMIIs are even stronger in nature. This study illustrates that autogenic ecosystem engineers can initiate powerful indirect interactions that generally parallel predator-initiated interactions but also differ in important functional ways.
间接相互作用对生态系统的结构具有重要意义。然而,关于间接效应的研究严重偏向于自上而下的营养相互作用,而对其他间接相互作用途径的了解较少。作为自体生态系统工程师,植物可以作为非营养间接相互作用的启动者,这些相互作用与自上而下的途径一样,可以涉及特质介导的间接相互作用(TMII)和密度介导的间接相互作用(DMII)。使用微宇宙,我研究了一种涉及外来自体生态系统工程师 Centaurea maculosa 的植物 - 捕食者 - 消费者相互作用途径;本地 Dictyna 蜘蛛(对 Centaurea maculosa 表现出密度和特质[结网]反应);Dictyna 的昆虫猎物 Urophora affinis;以及 Urophora 的宿主植物(二次接收物种),以量化自体工程途径中的 DMII 和 TMII。DMII 和 TMII 都足以降低 Urophora 的种群数量,但只有 DMII(比 TMII 强 4.3 倍)足以降低 Urophora 的繁殖力并增加其宿主植物的繁殖力。先前的实地研究支持这些结果,表明 DMII 和 TMII 之间的差异在自然界中更为明显。这项研究表明,自体生态系统工程师可以引发强大的间接相互作用,这些相互作用通常与捕食者引发的相互作用相似,但在重要的功能方面也有所不同。
