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Literature DB >> 26439435

Functional trait diversity across trophic levels determines herbivore impact on plant community biomass.

Hélène Deraison^1,2,3, Isabelle Badenhausser^1,2,3, Nicolas Loeuille⁴, Christoph Scherber^5,6, Nicolas Gross^1,2,3.

Abstract

Understanding the consequences of trophic interactions for ecosystem functioning is challenging, as contrasting effects of species and functional diversity can be expected across trophic levels. We experimentally manipulated functional identity and diversity of grassland insect herbivores and tested their impact on plant community biomass. Herbivore resource acquisition traits, i.e. mandible strength and the diversity of mandibular traits, had more important effects on plant biomass than body size. Higher herbivore functional diversity increased overall impact on plant biomass due to feeding niche complementarity. Higher plant functional diversity limited biomass pre-emption by herbivores. The functional diversity within and across trophic levels therefore regulates the impact of functionally contrasting consumers on primary producers. By experimentally manipulating the functional diversity across trophic levels, our study illustrates how trait-based approaches constitute a promising way to tackle existing links between trophic interactions and ecosystem functioning.

Keywords: Biodiversity experiment; body size; complementarity effect; functional trait diversity; grassland; herbivore; incisor strength; insect communities; plant-herbivore interactions; trophic interactions

Mesh：

Year: 2015 PMID： 26439435 DOI： 10.1111/ele.12529

Source DB: PubMed Journal: Ecol Lett ISSN： 1461-023X Impact factor: 9.492

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Cited

14 in total

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