Elizabeth T. Borer
Deron E. Burkepile
Joan Dudney
Nathan P. Lemoine
Julianna J. Renzi
Kathryn E.L. Smith
Travis A. Courtney
Sara A. Goeking
William M. Hammond
David L. Hoover
Sandra MacFayden
Michael J. Osland
Joseph E. Townsend
Robert Young Fidler
Lauren T. Toth
2026
<p><span id="_mce_caret" data-mce-bogus="1" data-mce-type="format-caret"><span>Climate change is driving unprecedented declines in dominant, habitat-forming foundation species across marine and terrestrial ecosystems globally. As climatic novelty becomes the norm, ecosystem reassembly will become increasingly common. Predicting and understanding these transitions, and their implications for future ecosystem functioning, is essential for designing effective forward-looking management strategies. We explored 3 scenarios that describe a range of ecosystem reassembly trajectories following declines in previously dominant habitat-forming taxa: compensation, in which functionally similar subdominant or immigrating taxa maintain ecosystem structure and function; decline, in which no compensation occurs leading to loss of ecosystem structure and function; and transformation, in which the ecosystem present historically can no longer persist and shifts into a fundamentally different ecosystem type with distinct structure and function. This range of potential outcomes highlights the urgent need to assess the ecological feasibility and functional implications of potential management actions. Scientists and managers can work together to quantify local-scale climatic novelty and ecosystem resilience to better predict the most likely reassembly trajectories and identify management interventions that will optimize ecosystem function. This approach would allow for more proactive planning to support persistence of ecosystem structure and function, helping to future-proof ecosystem management in a rapidly changing world.</span></span></p>
application/pdf
10.1111/cobi.70250
en
Society for Conservation Biology
Scenarios and strategies for future-proofing ecosystem management under climatic novelty
article