Gratton Claudio, Denno Robert F
University of Wisconsin-Madison, Department of Entomology, 444 Russell Laboratories, 1630 Linden Drive, Madison, Wisconsin 53706, USA.
Ecol Appl. 2006 Apr;16(2):622-31. doi: 10.1890/1051-0761(2006)016[0622:afwrfr]2.0.co;2.
Restoration of habitats impacted by invasive plants is becoming an increasingly important tool in the management of native biodiversity, though most studies do not go beyond monitoring the abundance of particular taxonomic groups, such as the return of native vegetation. Yet, the reestablishment of trophic interactions among organisms in restored habitats is equally important if we are to monitor and understand how ecosystems recover. This study examined whether food web interactions among arthropods (as inferred by abundance of naturally occurring stable isotopes of C [delta13C] and N [delta15N]) were reestablished in the restoration of a coastal Spartina alterniflora salt marsh that had been invaded by Phragmites australis. From patterns of C and N stable isotopes we infer that trophic interactions among arthropods in the native salt marsh habitats are characterized by reliance on the dominant marsh plant Spartina as a basal resource. Herbivores such as delphacid planthoppers and mirid bugs have isotope signatures characteristic of Spartina, and predatory arthropods such as dolicopodid flies and spiders likewise have delta13C and delta15N signatures typical of Spartina-derived resources (approximately -13 per thousand and 10 per thousand, respectively). Stable isotope patterns also suggest that the invasion of Phragmites into salt marshes and displacement of Spartina significantly alter arthropod food web interactions. Arthropods in Phragmites-dominated sites have delta13C isotope values between -18 per thousand and -20 per thousand, suggesting reliance on detritus and/or benthic microalgae as basal resources and not on Phragmites, which has a delta13C approximately -26 per thousand. Since most Phragmites herbivores are either feeding internally or are rare transients from nearby Spartina, these resources do not provide significant prey resources for other arthropod consumers. Rather, predator isotope signatures in the invaded habitats indicate dependence on detritus/algae as basal resources instead of the dominant vegetation. The reestablishment of Spartina after removal of Phragmites, however, not only returned species assemblages typical of reference (uninvaded) Spartina, but stable isotope signatures suggest that the trophic interactions among the arthropods were also similar in reestablished habitats. Specifically, both herbivores and predators showed characteristic Spartina signatures, suggesting the return of the original grazer-based food web structure in the restored habitats.
恢复受入侵植物影响的栖息地正日益成为管理本地生物多样性的重要手段,不过大多数研究仅停留在监测特定分类群的丰度,比如本地植被的恢复情况。然而,如果我们要监测和了解生态系统如何恢复,那么恢复栖息地中生物间的营养相互作用同样重要。本研究调查了在一个被芦苇入侵的沿海互花米草盐沼的恢复过程中,节肢动物之间的食物网相互作用(通过天然存在的碳稳定同位素[δ13C]和氮稳定同位素[δ15N]的丰度推断)是否得以重建。从碳和氮稳定同位素的模式中我们推断,本地盐沼栖息地中节肢动物之间的营养相互作用的特点是依赖占主导地位的盐沼植物互花米草作为基础资源。诸如飞虱和盲蝽等食草动物具有互花米草特有的同位素特征,而诸如长足虻和蜘蛛等捕食性节肢动物同样具有源自互花米草资源的典型δ13C和δ15N特征(分别约为-13‰和10‰)。稳定同位素模式还表明,芦苇入侵盐沼并取代互花米草会显著改变节肢动物的食物网相互作用。以芦苇为主的区域中的节肢动物的δ13C同位素值在-18‰至-20‰之间,这表明它们依赖碎屑和/或底栖微藻作为基础资源,而非依赖δ13C约为-26‰的芦苇。由于大多数芦苇食草动物要么在内部取食,要么是来自附近互花米草的罕见过客,这些资源并未为其他节肢动物消费者提供大量猎物资源。相反,入侵栖息地中捕食者的同位素特征表明它们依赖碎屑/藻类作为基础资源,而非依赖占主导地位的植被。然而,去除芦苇后互花米草的恢复,不仅使典型的未被入侵的互花米草物种组合得以回归,而且稳定同位素特征表明,在恢复的栖息地中节肢动物之间的营养相互作用也相似。具体而言,食草动物和捕食者都表现出典型的互花米草特征,这表明在恢复的栖息地中以食草动物为基础的原始食物网结构得以恢复。
