Abstract
Cold-water coral (CWC) ecosystems provide niches and nurseries for many deep-sea species. Lophelia pertusa and Madrepora oculata, two cosmopolitan species forming three dimensional structures, are found in cold waters under specific hydrological regimes that provide food and reoxygenation. There is now more information about their feeding, their growth and their associated microbiome, however, little is known about the influence of their habitat on their physiology, or on the composition of their bacterial community. The goal of this study was to test if the habitat of L. pertusa and M. oculata influenced the hosts associated bacterial communities, the corals’ survival and their skeletal growth along the slope of a submarine canyon. A transplant experiment was used, based on sampling and cross-redeployment of coral fragments at two contrasted sites, one deeper and one shallower. Our results show that M. oculata had significantly higher skeletal growth rates in the shallower site and that it had a specific microbiome that did not change between sites. Inversely, L. pertusa had the same growth rates at both sites, but its bacterial community compositions differed between locations. Additionally, transplanted L. pertusa acquired the microbial signature of the local corals. Thus, our results suggest that M. oculata prefer the shallower habitat.
Highlights
Scleractinian cold-water corals (CWC) such as Lophelia pertusa and Madrepora oculata, iconic engineer species of submarine canyons, are important frame-builders that provide shelter for a large diversity of associated fauna (Buhl-Mortensen et al, 2010)
The present study focused on two different morpho-bathymetric sites of the canyon: the deeper “A” site (42◦32.43N, 03◦25.17E), at 530 m depth, is characterized by large colonies of L. pertusa and some smaller M. oculata colonies that grow on hard substrates outcropping the floor (Lartaud et al, 2017)
For Lophelia pertusa, there was no difference in mortality between individuals that were cross transplanted from one site to another and those that were not (n = 23, p > 0.05)
Summary
Scleractinian cold-water corals (CWC) such as Lophelia pertusa and Madrepora oculata, iconic engineer species of submarine canyons, are important frame-builders that provide shelter for a large diversity of associated fauna (Buhl-Mortensen et al, 2010). The two species exhibit different responses to environmental changes (Naumann et al, 2014), different skeletal growth rates (Lartaud et al, 2014), reproductive cycles (Waller and Tyler, 2005), feeding strategies (Tsounis et al, 2010; Gori et al, 2014; Galand et al, 2020), and bacterial community associations (Hansson et al, 2009; Meistertzheim et al, 2016; Galand et al, 2018, 2020), with a more stable microbiome for M. oculata
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