Mathilde Godefroid scite author profile

Antipatharians, also called black corals, are present in almost all oceans of the world, until extreme depths. In several regions, they aggregate in higher densities to form black coral beds that support diverse animal communities and create biodiversity hotspots. These recently discovered ecosystems are currently threatened by fishing activities and illegal harvesting for commercial purposes. Despite Manuscript (double-spaced and continuously LINE and PAGE numbered)-for final publication Click here to view linked References Highlights Metabolic performances of Stichopathes sp. are optimal at 28.3°C (Topt) Stichopathes sp. lives at suboptimal performances during the cold season Stichopathes sp. has low acclimatization capacity and a narrow thermal breadth Exceeding of Topt has significant consequences for Stichopathes sp.Exceeding of Topt could occur with a 1°C increase during the colder monthsHighlights (for review : 3 to 5 bullet points (maximum 85 characters including spaces per bullet point)

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Low vulnerability of the Mediterranean antipatharian Antipathella subpinnata (Ellis & Solander, 1786) to ocean warming

Godefroid

Zeimes

Bramanti

et al. 2023

Ecological Modelling

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Investigating densities of Symbiodiniaceae in two species of Antipatharians (black corals) from Madagascar

Gress

Eeckhaut

Godefroid³

et al. 2021

Preprint

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Here, we report the first methodological approach to investigate the presence and estimate the density of Symbiodiniaceae cells in corals of the order Antipatharia subclass Hexacorallia, known as black corals. Antipatharians are understudied ecosystem engineers of shallow (<30 m depth), mesophotic (30-150 m) and deep-sea (>200 m) reefs. They provide habitat to a vast number of marine fauna, enhancing and supporting coral reefs biodiversity globally. Nonetheless, little biological and ecological information exists on antipatharians, including the extent at which global change disturbances are threatening these corals. The assumption that they were exempted from threats related to climate change was challenged by findings of high density of dinoflagellates within three antipatharian colonies. Further methodical studies were necessary to investigate the regularity of these findings. An integrated design combining microscopy and molecular techniques was used to investigate the presence and estimate density of Symbiodiniaceae cells within two antipatharians species -Cupressopathes abies and Stichopathes maldivensis -from shallow and mesophotic reefs of SW Madagascar. Symbiodiniaceae-like cells were found within the two species from both shallow and mesophotic reefs, although the overall cell density was very low (0-4 cell mm-3). These findings suggest that high abundance of Symbiodiniaceae is not characteristic of antipatharians, which has relevant implications considering disruptions associated to climate change affecting other corals. However, the high densities of dinoflagellates found in antipatharian colonies exposed to higher light irradiance in other studies should be further examined.

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Two decades of seawater acidification experiments on tropical scleractinian corals: Overview, meta-analysis and perspectives

Godefroid

Dupont

Métian

et al. 2022

Marine Pollution Bulletin

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Deep-sea sharks: Relation between the liver's buoyancy and red aerobic muscle volumes, a new approach

Pinte

Godefroid

Abbas

et al. 2019

Comparative Biochemistry and Physiology Part A: Molecular &

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