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author Briand, Julia K
Hosler, Sheryl C
Merchant, Thomas K
Vinebrooke, Rolf D
Ostertag, Rebecca
Symons, Celia C
Cadotte, Marc W
Eviner, Valerie T
Bracken, Matthew E S
Carlson, Rachel R
Henn, Jonathan J
Garbowski, Magda
Bauer, Jonathan T
Luong, Justin C
Atkinson, Joe
Hughes, A Randall
Adams, Carrie Reinhardt
Bates, Amanda E
Funk, Jennifer L
Love, Allegra E
Zheng, Liting
Galloway, Emily
Green, Stephanie J
author_facet Briand, Julia K
Hosler, Sheryl C
Merchant, Thomas K
Vinebrooke, Rolf D
Ostertag, Rebecca
Symons, Celia C
Cadotte, Marc W
Eviner, Valerie T
Bracken, Matthew E S
Carlson, Rachel R
Henn, Jonathan J
Garbowski, Magda
Bauer, Jonathan T
Luong, Justin C
Atkinson, Joe
Hughes, A Randall
Adams, Carrie Reinhardt
Bates, Amanda E
Funk, Jennifer L
Love, Allegra E
Zheng, Liting
Galloway, Emily
Green, Stephanie J
Briand, Julia K
Hosler, Sheryl C
Merchant, Thomas K
Vinebrooke, Rolf D
Ostertag, Rebecca
Symons, Celia C
Cadotte, Marc W
Eviner, Valerie T
Bracken, Matthew E S
Carlson, Rachel R
Henn, Jonathan J
Garbowski, Magda
Bauer, Jonathan T
Luong, Justin C
Atkinson, Joe
Hughes, A Randall
Adams, Carrie Reinhardt
Bates, Amanda E
Funk, Jennifer L
Love, Allegra E
Zheng, Liting
Galloway, Emily
Green, Stephanie J
collection PubMed - marine biology
contents Trait-based approaches to restoration ecology: Synthesizing insights from diverse systems. Briand, Julia K Hosler, Sheryl C Merchant, Thomas K Vinebrooke, Rolf D Ostertag, Rebecca Symons, Celia C Cadotte, Marc W Eviner, Valerie T Bracken, Matthew E S Carlson, Rachel R Henn, Jonathan J Garbowski, Magda Bauer, Jonathan T Luong, Justin C Atkinson, Joe Hughes, A Randall Adams, Carrie Reinhardt Bates, Amanda E Funk, Jennifer L Love, Allegra E Zheng, Liting Galloway, Emily Green, Stephanie J Ecosystem Conservation of Natural Resources Animals Environmental Restoration and Remediation Ecology Under accelerating global change, trait-based approaches are emerging as essential tools in the ecological restoration toolbox. Where restoration has traditionally focused on the recovery of focal species in isolated systems, trait-based methods can provide a common language that extends beyond species- or system-specific contexts, allowing scientists and practitioners to translate insights across organisms and ecosystems and predict functional variation critical to resilience in the face of rapidly changing environmental conditions. Trait-based insights can thus help achieve restoration that is both adaptable and scalable as future climate scenarios unfold. To date, trait-based approaches to restoration have developed and proceeded independently across habitats and ecosystems, limiting information sharing and innovation. Here, we synthesize diverse perspectives and research on trait-informed restoration across ecosystems, distilling our findings into three key insights. First, variable contexts and trade-offs in trait-function linkages shape restoration outcomes at distinct ecological scales and project stages. For example, individual-level traits that underpin stress tolerance may play a critical role in initial survival and establishment during early project stages, while traits that influence species interactions and modify energy transformation may play a larger role as communities reassemble and ecosystem function becomes a priority at later stages. Second, coordinating trait-informed restoration across ecosystems can advance multi-trophic and multi-system restoration by closing the divide between "top down" approaches that target individual organisms or populations typically in large, mobile animal reintroductions and "bottom-up" approaches that target community-level organization in the restoration of foundation species. Finally, enhanced interdisciplinary communication and knowledge-sharing can help develop solutions to major challenges hindering the progress of trait-informed restoration (e.g., accounting for intraspecific variation). As novel environmental conditions continue to arise, an integrative approach to trait-informed restoration that spans ecological scales, promotes knowledge-sharing across diverse ecosystems, and fosters management-science collaboration can help unify and advance restoration efforts under current and future disturbance scenarios.
format Artículo científico
id pubmed_41806264
institution PubMed
language en
publishDate 2026
publisher Ecological applications : a publication of the Ecological Society of America
record_format pubmed
spellingShingle Trait-based approaches to restoration ecology: Synthesizing insights from diverse systems.
Briand, Julia K
Hosler, Sheryl C
Merchant, Thomas K
Vinebrooke, Rolf D
Ostertag, Rebecca
Symons, Celia C
Cadotte, Marc W
Eviner, Valerie T
Bracken, Matthew E S
Carlson, Rachel R
Henn, Jonathan J
Garbowski, Magda
Bauer, Jonathan T
Luong, Justin C
Atkinson, Joe
Hughes, A Randall
Adams, Carrie Reinhardt
Bates, Amanda E
Funk, Jennifer L
Love, Allegra E
Zheng, Liting
Galloway, Emily
Green, Stephanie J
Ecosystem
Conservation of Natural Resources
Animals
Environmental Restoration and Remediation
Ecology
Trait-based approaches to restoration ecology: Synthesizing insights from diverse systems. Briand, Julia K Hosler, Sheryl C Merchant, Thomas K Vinebrooke, Rolf D Ostertag, Rebecca Symons, Celia C Cadotte, Marc W Eviner, Valerie T Bracken, Matthew E S Carlson, Rachel R Henn, Jonathan J Garbowski, Magda Bauer, Jonathan T Luong, Justin C Atkinson, Joe Hughes, A Randall Adams, Carrie Reinhardt Bates, Amanda E Funk, Jennifer L Love, Allegra E Zheng, Liting Galloway, Emily Green, Stephanie J Ecosystem Conservation of Natural Resources Animals Environmental Restoration and Remediation Ecology Under accelerating global change, trait-based approaches are emerging as essential tools in the ecological restoration toolbox. Where restoration has traditionally focused on the recovery of focal species in isolated systems, trait-based methods can provide a common language that extends beyond species- or system-specific contexts, allowing scientists and practitioners to translate insights across organisms and ecosystems and predict functional variation critical to resilience in the face of rapidly changing environmental conditions. Trait-based insights can thus help achieve restoration that is both adaptable and scalable as future climate scenarios unfold. To date, trait-based approaches to restoration have developed and proceeded independently across habitats and ecosystems, limiting information sharing and innovation. Here, we synthesize diverse perspectives and research on trait-informed restoration across ecosystems, distilling our findings into three key insights. First, variable contexts and trade-offs in trait-function linkages shape restoration outcomes at distinct ecological scales and project stages. For example, individual-level traits that underpin stress tolerance may play a critical role in initial survival and establishment during early project stages, while traits that influence species interactions and modify energy transformation may play a larger role as communities reassemble and ecosystem function becomes a priority at later stages. Second, coordinating trait-informed restoration across ecosystems can advance multi-trophic and multi-system restoration by closing the divide between "top down" approaches that target individual organisms or populations typically in large, mobile animal reintroductions and "bottom-up" approaches that target community-level organization in the restoration of foundation species. Finally, enhanced interdisciplinary communication and knowledge-sharing can help develop solutions to major challenges hindering the progress of trait-informed restoration (e.g., accounting for intraspecific variation). As novel environmental conditions continue to arise, an integrative approach to trait-informed restoration that spans ecological scales, promotes knowledge-sharing across diverse ecosystems, and fosters management-science collaboration can help unify and advance restoration efforts under current and future disturbance scenarios.
title Trait-based approaches to restoration ecology: Synthesizing insights from diverse systems.
topic Ecosystem
Conservation of Natural Resources
Animals
Environmental Restoration and Remediation
Ecology
url https://pubmed.ncbi.nlm.nih.gov/41806264/