Variability of deep-sea megabenthic assemblages along the western pathway of the Mediterranean outflow water

The presence of different water masses in depth may influence the species distribution and community structure in deep-sea benthic ecosystems. In the North Atlantic, the Mediterranean Outflow Water (MOW) represents an important forcing water mass, whose influence on the distribution of cold-water co...

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Bibliographic Details
Published in:Deep Sea Research Part I: Oceanographic Research Papers
Main Authors: Puerta, P. (Patricia), Mosquera-Giménez, A. (Ángela), Reñones, O. (Olga), Domínguez-Carrió, Carlos, Rueda, J.L. (José Luis), Urra, J. (Javier), Carreiro-Silva, Marina, Blasco-Ferre, Jordi, Santana, Yaiza, Gutiérrez-Zárate, C. (Cristina), Vélez-Belchí, P. (Pedro), Rivera, J. (Jesús), Morato, Telmo, Orejas, C. (Covadonga)
Format: Article in Journal/Newspaper
Language:English
Published: Centro Oceanográfico de Málaga 2022
Subjects:
Deep-sea benthic habitats
Mediterranean outflow water
Biodiversity
Assemblage structure
Water masses
Cold-water corals
Vulnerable marine ecosystems
Biogeography
fish
outflow
deep water
ecological associations
variability
North Atlantic
Online Access:http://hdl.handle.net/10508/15886
https://doi.org/10.1016/j.dsr.2022.103791
Description
Summary:The presence of different water masses in depth may influence the species distribution and community structure in deep-sea benthic ecosystems. In the North Atlantic, the Mediterranean Outflow Water (MOW) represents an important forcing water mass, whose influence on the distribution of cold-water corals in the northern European margins has been particularly investigated. However, the MOW also spreads westwards into the central North Atlantic bathing several seamounts and seafloor elevations, whose deep-sea benthic communities are still poorly known. In this study, we provide a local to large-scale comprehensive description of deep-sea megabenthic assemblages along the western branch of the MOW, from its origin in the western Mediterranean Sea to the Central North Atlantic close to the Azores archipelago. For some of the studied seafloor elevations, such as Ormonde (Gorringe bank, offshore SW Portugal margin) and Formigas seamounts (SE Azores archipelago), this is the first time these assemblages have been characterized and quantified. The results indicate a strong effect of substrate type in the structure and diversity of the assemblages at local scales; but the effect of water masses becomes more relevant when a large bathymetrical gradient is considered. The results also suggest a potential role of the MOW for biodiversity and biogeographic patterns at the North Atlantic basin, suggesting a potential enhancement of the biodiversity of some deep-sea megabenthic assemblages. Understanding water masses as an integrative tool to delineate biodiversity and biogeographic patterns from local to large scale will contribute to identify different megabenthic assemblages, including vulnerable marine ecosystems, as well as potential regions of refugia under future climate change conditions. En prensa 2,421

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