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Article Dans Une Revue Restoration Ecology Année : 2023

Artificial reef effectiveness changes among types as revealed by underwater hyperspectral imagery

Résumé

Artificial reefs (ARs) are designed to mimic natural habitats and promote marine life. Their effectiveness is however debatable and can depend on factors such as structural complexity and construction material. Old artificial reefs (OARs) were made of concrete mold of simple geometric shapes, limiting their ability to mimic the complexity of natural reefs. Recent advancements in three-dimentional (3D)-printing technology have enabled the creation of 3D-printed artificial reefs (3DRs) with biocompatible material and complex structures that can better simulate the natural habitats. We employed underwater hyperspectral technology to estimate the performance of these reefs and compare the benthic photosynthetic signal of natural reefs (NATs) with those of ARs (OARs and 3DRs) in coastal area of the north-western Mediterranean (France and Monaco Principality). We expected differences in reflectance signals between OARs and NATs, and signals closer to NATs in 3DRs than OARs. Underwater hyperspectral technology was able to detect higher chlorophyll-a derived signals on NATs than OARs. Moreover, the magnitude of differences between 3DRs and NATs was smaller than that between OARs and NATs. Although ARs were not capable of mimicking natural reefs, the use of 3D-printed ARs might ameliorate their effectiveness for coastal reconciliation.

Dates et versions

hal-04170878 , version 1 (25-07-2023)

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Elisabeth Riera, Cédric Hubas, Mischa Ungermann, Guy Rigot, Alexis Pey, et al.. Artificial reef effectiveness changes among types as revealed by underwater hyperspectral imagery. Restoration Ecology, 2023, e13978, ⟨10.1111/rec.13978⟩. ⟨hal-04170878⟩
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