Thermal acclimation increases the stability of a predator–prey interaction in warmer environments

Autor: Eoin J. O'Gorman, Esra H. Sohlström, Björn C. Rall, Malte Jochum, Rebecca L. Kordas, Louise C. Archer, Benjamin Rosenbaum, Bruno Gallo
Rok vydání: 2021
Předmět:
Zdroj: Global Change Biology. 27:3765-3778
ISSN: 1365-2486
1354-1013
DOI: 10.1111/gcb.15715
Popis: Global warming over the next century is likely to alter the energy demands of consumers and thus the strengths of their interactions with their resources. The subsequent cascading effects on population biomasses could have profound effects on food web stability. One key mechanism by which organisms can cope with a changing environment is phenotypic plasticity, such as acclimation to warmer conditions through reversible changes in their physiology. Here, we measured metabolic rates and functional responses in laboratory experiments for a widespread predator-prey pair of freshwater invertebrates, sampled from across a natural stream temperature gradient in Iceland (4-18℃). This enabled us to parameterize a Rosenzweig-MacArthur population dynamical model to study the effect of thermal acclimation on the persistence of the predator-prey pairs in response to warming. Acclimation to higher temperatures either had neutral effects or reduced the thermal sensitivity of both metabolic and feeding rates for the predator, increasing its energetic efficiency. This resulted in greater stability of population dynamics, as acclimation to higher temperatures increased the biomass of both predator and prey populations with warming. These findings indicate that phenotypic plasticity can act as a buffer against the impacts of environmental warming. As a consequence, predator-prey interactions between ectotherms may be less sensitive to future warming than previously expected, but this requires further investigation across a broader range of interacting species.
Databáze: OpenAIRE
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