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Warming indirectly simplifies food webs through effects on apex predators

Eoin J. O’Gorman, Lei Zhao, Rebecca L. Kordas, Steve Dudgeon, Guy Woodward

2023Nature Ecology & Evolution23 citationsDOIOpen Access PDF

Abstract

Warming alters ecosystems through direct physiological effects on organisms and indirect effects via biotic interactions, but their relative impacts in the wild are unknown due to the difficulty in warming natural environments. Here we bridge this gap by embedding manipulative field experiments within a natural stream temperature gradient to test whether warming and apex fish predators have interactive effects on freshwater ecosystems. Fish exerted cascading effects on algal production and microbial decomposition via both green and brown pathways in the food web, but only under warming. Neither temperature nor the presence of fish altered food web structure alone, but connectance and mean trophic level declined as consumer species were lost when both drivers acted together. A mechanistic model indicates that this temperature-induced trophic cascade is determined primarily by altered interactions, which cautions against extrapolating the impacts of warming from reductionist approaches that do not consider the wider food web.

Topics & Concepts

Food webTrophic levelTrophic cascadeEcologyEcosystemPredationApex predatorGlobal warmingBiologyPredatory fishClimate changeEnvironmental scienceFish Ecology and Management StudiesPhysiological and biochemical adaptationsSpecies Distribution and Climate Change
Warming indirectly simplifies food webs through effects on apex predators | Litcius