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Multi‐trophic metacommunity interactions mediate asynchrony and stability in fluctuating environments

Carina R. Firkowski, Patrick L. Thompson, Andrew Gonzalez, Marc W. Cadotte, Marie‐Josée Fortin

2021Ecological Monographs44 citationsDOI

Abstract

Abstract Environmental fluctuations influence patterns of synchrony and stability in species abundances. Most of our understanding of synchrony and stability stems from competitive community and metacommunity ecology, when in reality species interact in more complex ways. Therefore, there is a mounting need for the integration of multi‐trophic interactions into metacommunity ecology. In particular, knowledge is lacking on: (1) whether synchrony and stability respond to environmental fluctuations similarly under competitive and multi‐trophic metacommunities; (2) how synchrony and stability change across the hierarchical levels of a metacommunity; and (3) whether trophic groups differ in their contributions to synchrony and stability. Here, we address these questions through a complementary approach, using model simulations to derive theoretical expectations for the effects of environmental fluctuations on synchrony and stability, and a microcosm experiment to test observations against these expectations. We created spatially heterogeneous metacommunities populated by eight protist and one rotifer species organized in a multi‐trophic food‐web. We controlled environmental fluctuations so that they were spatially uncorrelated and species were assumed to respond differently to environmental conditions. We contrasted the control of constant environmental conditions to the effects of periodic environmental fluctuations. We show that environmental fluctuations can reduce synchrony between patches and increase stability, but can also decouple asynchrony between species and increase population and metapopulation variability. We discuss how some of these findings apply to both competitive and multi‐trophic metacommunities but changes are stronger in multi‐trophic metacommunities, and how trophic groups differ in their contributions to synchrony and variability.

Topics & Concepts

MetacommunityTrophic levelEcologyMetapopulationBiologyFood webMicrocosmCommunityTrophic cascadeMesopredator release hypothesisEnvironmental changePopulationEcosystemClimate changeBiological dispersalApex predatorSociologyDemographyAnimal Ecology and Behavior StudiesPlant and animal studiesEcosystem dynamics and resilience
Multi‐trophic metacommunity interactions mediate asynchrony and stability in fluctuating environments | Litcius