Skip to main content
Dryad

From bottom-up to top-down control of invertebrate herbivores in a retrogressive chronosequence

Cite this dataset

Kempel, Anne et al. (2022). From bottom-up to top-down control of invertebrate herbivores in a retrogressive chronosequence [Dataset]. Dryad. https://doi.org/10.5061/dryad.mw6m90610

Abstract

In the long-term absence of disturbance, ecosystems often enter a decline or retrogressive phase which leads to reductions in primary productivity, plant biomass, nutrient cycling and foliar quality. However, the consequences of ecosystem retrogression for higher trophic levels such as herbivores and predators, are less clear. Using a post-fire forested island-chronosequence across which retrogression occurs, we provide evidence that nutrient availability strongly controls invertebrate herbivore biomass when predators are few, but that there is a switch from bottom-up to top-down control when predators are common. This trophic flip in herbivore control probably arises because invertebrate predators respond to alternative energy channels from the adjacent aquatic matrix, which were independent of terrestrial plant biomass. Our results suggest that effects of nutrient limitation resulting from ecosystem retrogression on trophic cascades are modified by nutrient-independent variation in predator abundance, and this calls for a more holistic approach to trophic ecology to better understand herbivore effects on plant communities.

Methods

This dataset has been collected within the above mentioned study. It contains data on invertebrate biomass, herbivore damage and herbivore impact as well as information on several characteristics of 30 islands within a forested chronosequence. Details on how the data has been collected can be obtained from Kempel et al. 2022 (From bottom-up to top-down control of invertebrate herbivores in a retrogressive chronosequence) in the method section and supporting material. 

Usage notes

The code has been run with R version 4.1.2 (2021-11-01) -- "Bird Hippie".

Funding

Swiss National Science Foundation, Award: P300PA_160991

Swedish Research Council