Bachand Marianne, Pellerin Stéphanie, Moretti Marco, Aubin Isabelle, Tremblay Jean-Pierre, Côté Steeve D, Poulin Monique
Chaire de recherche industrielle CRSNG-Produits Forestiers Anticosti, Département de biologie, Université Laval, Québec, Québec, Canada ; Centre d'études nordiques, Université Laval, Québec, Québec, Canada ; Québec Centre for Biodiversity Science, McGill University, Montréal, Québec, Canada.
Chaire de recherche industrielle CRSNG-Produits Forestiers Anticosti, Département de biologie, Université Laval, Québec, Québec, Canada ; Québec Centre for Biodiversity Science, McGill University, Montréal, Québec, Canada ; Institut de recherche en biologie végétale, Jardin Botanique de Montréal, Montréal, Québec, Canada.
PLoS One. 2014 Feb 28;9(2):e90437. doi: 10.1371/journal.pone.0090437. eCollection 2014.
The functional trait-based approach is increasingly used to predict responses of ecological communities to disturbances, but most studies target a single taxonomic group. Here, we assessed the resilience of a forest ecosystem to an overabundant herbivore population by assessing changes in 19 functional traits for plant, 13 traits for ground beetle and 16 traits for songbird communities after six years of controlled browsing on Anticosti Island (Quebec, Canada). Our results indicated that plants were more responsive to 6 years of reduced browsing pressure than ground beetles and songbirds. However, co-inertia analysis revealed that ground beetle communities responded in a similar way than plant communities with stronger relationships between plant and ground beetle traits at reduced deer density, a pattern not detected between plant and songbird. High deer density favored plants species that reproduce vegetatively and with abiotic pollination and seed dispersal, traits implying little interaction with animal. On the other hand, traits found at reduced deer density mostly involved trophic interaction. For example, plants in this treatment had fleshy fruits and large seeds dispersed by birds or other animals whereas ground beetle species were carnivorous. Overall, our results suggest that plant communities recovered some functional components to overabundant herbivore populations, since most traits associated with undisturbed forests were reestablished after six years of deer reduction. The re-establishment of functional plant communities with traits involving trophic interaction induces changes in the ground-beetle trait community, but forest structure remains likely insufficiently heterogeneous to shift the songbird trait community within six years.
基于功能性状的方法越来越多地用于预测生态群落对干扰的响应,但大多数研究针对的是单一分类群。在这里,我们通过评估在加拿大魁北克省安的科斯提岛进行六年的控制放牧后,植物的19个功能性状、地甲虫的13个性状和鸣禽群落的16个性状的变化,来评估森林生态系统对食草动物数量过多的恢复力。我们的结果表明,与地甲虫和鸣禽相比,植物对六年降低的放牧压力反应更敏感。然而,共同惯性分析表明,地甲虫群落的反应方式与植物群落相似,在鹿密度降低时,植物和地甲虫性状之间的关系更强,而在植物和鸣禽之间未检测到这种模式。高鹿密度有利于通过无性繁殖以及非生物传粉和种子传播进行繁殖的植物物种,这些性状意味着与动物的相互作用很少。另一方面,在鹿密度降低时发现的性状大多涉及营养相互作用。例如,这种处理下的植物有肉质果实和由鸟类或其他动物传播的大种子,而地甲虫物种是肉食性的。总体而言,我们的结果表明,植物群落恢复了一些针对食草动物数量过多的功能成分,因为在减少鹿数量六年之后,与未受干扰森林相关的大多数性状得以重新建立。具有涉及营养相互作用性状的功能性植物群落的重建会引起地甲虫性状群落的变化,但森林结构可能仍然不够多样化,无法在六年内改变鸣禽性状群落。
