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journal article Aug 01, 2025

The role of trade‐off shapes for community adaptation and maintenance of ecosystem functions under environmental change

Elias Ehrlich ORCID George Adje Ursula Gaedke
Ecology Vol. 106 No. 8 · Wiley
View at Publisher Save 10.1002/ecy.70156
Abstract
AbstractStrong environmental changes such as climate change or overfishing threaten biodiversity and important ecosystem functions, and it is unclear whether and at what speed natural communities can adapt. The shape of interspecific trade‐offs between functional traits is key to understanding community composition and response as it determines which strategies or trait combinations are feasible in a community. The trade‐off shape describes the curvature of the boundary of the feasible trait space, which is determined by physiological, energetic or other constraints. Under environmental change, communities adapt toward species with strategies matching the new conditions, but we lack insights into how the trade‐off shape affects the mechanism and speed of community adaptation and maintenance of ecosystem functions. We used a diamond‐shaped food web model to test how a prey community adapts to altered environmental conditions (altered predation pressure) depending on the shape of an interspecific growth‐defense trade‐off and how this influences diversity and ecosystem functions (i.e., community‐level biomasses). We considered different types (chronic and periodic) and speeds of environmental change. Our study shows that the mechanism and speed of community adaptation depend crucially on the trade‐off shape. For convex trade‐offs, community adaptation arose through altered frequencies of coexisting resident species with very different, extreme trait combinations. Here, adaptation proceeded relatively quickly and maintained ecosystem functions even at relatively high speeds of environmental change. This held given the existence of stabilizing mechanisms that promoted the coexistence of these extreme species. In contrast, concave trade‐offs led to a different adaptation mechanism: species turnover with progressive immigration of new species (from one extreme to the other via intermediate trait combinations) which took longer. Communities facing a concave trade‐off varied more in species composition over time or space, implying a higher temporal or spatial ‐diversity, but were more sensitive to rapid environmental changes than those facing a convex trade‐off. Our results reveal that knowing the trade‐off shape can be important for understanding and predicting community adaptation, functional diversity, and maintenance of ecosystem function under future environmental change.
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Showing 50 of 63 references

Metrics
3
Citations
63
References
Details
Published
Aug 01, 2025
Vol/Issue
106(8)
License
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Authors
E
Elias Ehrlich

Institute of Biochemistry and Biology, University of Potsdam Potsdam Germany; Department of Fish Biology, Fisheries and Aquaculture Leibniz Institute of Freshwater Ecology and Inland Fisheries Berlin Germany

G
George Adje

Institute of Biochemistry and Biology, University of Potsdam Potsdam Germany

U
Ursula Gaedke

Institute of Biochemistry and Biology, University of Potsdam Potsdam Germany

Funding
Deutsche Forschungsgemeinschaft Award: GA 401/26‐2
Cite This Article
Elias Ehrlich, George Adje, Ursula Gaedke (2025). The role of trade‐off shapes for community adaptation and maintenance of ecosystem functions under environmental change. Ecology, 106(8). https://doi.org/10.1002/ecy.70156
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