Eveleigh Eldon S, McCann Kevin S, McCarthy Peter C, Pollock Steven J, Lucarotti Christopher J, Morin Benoit, McDougall George A, Strongman Douglas B, Huber John T, Umbanhowar James, Faria Lucas D B
Natural Resources Canada, Canadian Forest Service, Atlantic Forestry Centre, Fredericton, New Brunswick, Canada.
Proc Natl Acad Sci U S A. 2007 Oct 23;104(43):16976-81. doi: 10.1073/pnas.0704301104. Epub 2007 Oct 15.
Patterns in food-web structure have frequently been examined in static food webs, but few studies have attempted to delineate patterns that materialize in food webs under nonequilibrium conditions. Here, using one of nature's classical nonequilibrium systems as the food-web database, we test the major assumptions of recent advances in food-web theory. We show that a complex web of interactions between insect herbivores and their natural enemies displays significant architectural flexibility over a large fluctuation in the natural abundance of the major herbivore, the spruce budworm (Choristoneura fumiferana). Importantly, this flexibility operates precisely in the manner predicted by recent foraging-based food-web theories: higher-order mobile generalists respond rapidly in time and space by converging on areas of increasing prey abundance. This "birdfeeder effect" operates such that increasing budworm densities correspond to a cascade of increasing diversity and food-web complexity. Thus, by integrating foraging theory with food-web ecology and analyzing a long-term, natural data set coupled with manipulative field experiments, we are able to show that food-web structure varies in a predictable manner. Furthermore, both recent food-web theory and longstanding foraging theory suggest that this very same food-web flexibility ought to be a potent stabilizing mechanism. Interestingly, we find that this food-web flexibility tends to be greater in heterogeneous than in homogeneous forest plots. Because our results provide a plausible mechanism for boreal forest effects on populations of forest insect pests, they have implications for forest and pest management practices.
食物网结构模式在静态食物网中经常得到研究,但很少有研究试图描绘在非平衡条件下食物网中出现的模式。在此,我们以自然界经典的非平衡系统之一作为食物网数据库,检验食物网理论最新进展的主要假设。我们发现,昆虫食草动物与其天敌之间复杂的相互作用网络,在主要食草动物云杉芽虫(Choristoneura fumiferana)自然丰度的大幅波动中表现出显著的结构灵活性。重要的是,这种灵活性恰恰以近期基于觅食的食物网理论所预测的方式发挥作用:高阶移动性广食性动物通过聚集到猎物丰度增加的区域,在时间和空间上迅速做出反应。这种“喂鸟器效应”的作用方式是,云杉芽虫密度的增加对应着多样性和食物网复杂性的级联增加。因此,通过将觅食理论与食物网生态学相结合,并分析一个长期的自然数据集以及操纵性田间实验,我们能够表明食物网结构以可预测的方式变化。此外,近期的食物网理论和长期存在的觅食理论都表明,这种相同的食物网灵活性应该是一种强大的稳定机制。有趣的是,我们发现这种食物网灵活性在异质森林地块中往往比在同质森林地块中更大。由于我们的结果为北方森林对森林害虫种群的影响提供了一个合理的机制,它们对森林和害虫管理实践具有启示意义。