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Restoration ecology meets design-engineering : mimicking emergent traits to restore feedback-driven ecosystems

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Restoration ecology meets design-engineering : mimicking emergent traits to restore feedback-driven ecosystems

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Ecosystems shaped by habitat-modifying organisms such as reefs, vegetated coastal systems and peatlands, provide valuable ecosystem services, such as carbon storage and coastal protection. However, they are declining worldwide. Ecosystem restoration is a key tool for mitigating these losses but has proven failure-prone, because ecosystem stability often hinges on self-facilitation generated by emergent traits from habitat modifiers. Emergent traits are not expressed by the single individual, but emerge at the level of an aggregation: a minimum patch-size or density-threshold must be exceeded to generate self-facilitation. Self-facilitation has been successfully harnessed for restoration by clumping transplanted organisms, but requires large amounts of often limiting and costly donor material. Recent advancements highlight that kickstarting self-facilitation by mimicking emergent traits can similarly increase restoration success. Here, we provide a framework for combining expertise from ecologists, engineers and industrial product designers to transition from trial-and-error to emergent trait design-based, cost-efficient approaches to support large-scale restoration.

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OrganisatieHogeschool Windesheim
OpleidingEngineering & Design
Gepubliceerd inScience of Total Environment Elsevier, Amsterdam, Vol. 2023, Uitgave: 902, Pagina's: 1-11
Datum2023-08-21
TypeArtikel
TaalEngels

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