Multiple plant diversity components drive consumer communities across ecosystems

Andreas Schuldt,Dörte Bachmann,Werner Härdtle,Jörg Schaller,Wolfgang W Weisser ,Lionel R Hertzog,Walter Durka,Jia‐Yong Zhang ,Christiane Roscher,Goddert Von Oheimb,Felix Fornoff,Alexandra‐Maria Klein ,Nina Buchmann,Claudia Guimarães‐Steinicke ,Andreas Fichtner,Christian Wirth,Michael Staab,Anne Ebeling,Matthias Kunz,Alexandra Weigelt,Helge Bruelheide,Nico Eisenhauer

doi:10.1038/s41467-019-09448-8

Abstract

Humans modify ecosystems and biodiversity worldwide, with negative consequences for ecosystem functioning. Promoting plant diversity is increasingly suggested as a mitigation strategy. However, our mechanistic understanding of how plant diversity affects the diversity of heterotrophic consumer communities remains limited. Here, we disentangle the relative importance of key components of plant diversity as drivers of herbivore, predator, and parasitoid species richness in experimental forests and grasslands. We find that plant species richness effects on consumer species richness are consistently positive and mediated by elevated structural and functional diversity of the plant communities. The importance of these diversity components differs across trophic levels and ecosystems, cautioning against ignoring the fundamental ecological complexity of biodiversity effects. Importantly, plant diversity effects on higher trophic-level species richness are in many cases mediated by modifications of consumer abundances. In light of recently reported drastic declines in insect abundances, our study identifies important pathways connecting plant diversity and consumer diversity across ecosystems.

Highlights

Humans modify ecosystems and biodiversity worldwide, with negative consequences for ecosystem functioning
We considered direct effects as those directly linking plant diversity to arthropod species richness
Herbivores were the most abundant and species-rich of the trophic groups we considered in our analyses (2204 individuals [27% of total arthropod abundance], 233 species [46% of total arthropod species richness]), followed by predators (1739 individuals [22%], 171 species [34%]) and parasitoids (617 individuals [8%], 32 species [6%])

Summary

Introduction

Humans modify ecosystems and biodiversity worldwide, with negative consequences for ecosystem functioning. We find that plant species richness effects on consumer species richness are consistently positive and mediated by elevated structural and functional diversity of the plant communities The importance of these diversity components differs across trophic levels and ecosystems, cautioning against ignoring the fundamental ecological complexity of biodiversity effects. Differences in the vertical or horizontal distribution of structural diversity of grassland plants and trees affect gradients of light availability and temperature[28] that can strongly influence arthropod communities[23,24,25] In this context, it may be important to consider plant diversity effects on the abundances of higher trophic-level organisms, such as arthropods. The relative effects of functional and structural diversity on arthropods differed among trophic levels and ecosystems, they operated in many cases via modifying arthropod abundances—indicating a high vulnerability of arthropod diversity to currently observed declines in arthropod numbers

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Conclusion