Several deep-sea mussels and their associated symbionts are able to live both on wood and on whale falls

Lorion, Julien; Duperron, Sébastien; Gros, Olivier; Cruaud, Corinne; Samadi, Sarah

doi:10.1098/rspb.2008.1101

Cited by 80 publications

(100 citation statements)

References 36 publications

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“…Even though these food-rich habitats are often small in area, extremely isolated and ephemeral at the seafloor (e.g., spanning 10s of meters, separated by 100 s of kilometres and lasting for years to decades in the case of vents and whale falls), they all support remarkable communities highly distinct from those of the background deep sea. Substantial adaptive radiations leading to extraordinary evolutionary novelty and contributing fundamentally to biodiversity (Van Dover, 2000;Smith and Baco, 2003;Smith, 2006;Fujiwara et al, 2007;Samedi et al, 2007;Lorion et al, 2009) have sustained many of these habitat types, including vents, seeps, whale falls and wood falls. In contrast, at shelf depths where in situ photosynthesis leads to much greater background levels of productivity, some of these same habitat islands (e.g.…”

Section: A Food-poor Environment With Scattered Oases Of Lifementioning

confidence: 99%

Deep, diverse and definitely different: unique attributes of the world's largest ecosystem

et al. 2010

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Abstract. The deep sea, the largest biome on Earth, has a series of characteristics that make this environment both distinct from other marine and land ecosystems and unique for the entire planet. This review describes these patterns and processes, from geological settings to biological processes, biodiversity and biogeographical patterns. It concludes with a brief discussion of current threats from anthropogenic activities to deep-sea habitats and their fauna.Investigations of deep-sea habitats and their fauna began in the late 19th century. In the intervening years, technological developments and stimulating discoveries have promoted deep-sea research and changed our way of understanding life on the planet. Nevertheless, the deep sea is still mostly unknown and current discovery rates of both habitats and species remain high. The geological, physical and Correspondence to: E. Ramirez-Llodra (ezr@icm.csic.es) geochemical settings of the deep-sea floor and the water column form a series of different habitats with unique characteristics that support specific faunal communities. Since 1840, 28 new habitats/ecosystems have been discovered from the shelf break to the deep trenches and discoveries of new habitats are still happening in the early 21st century. However, for most of these habitats the global area covered is unknown or has been only very roughly estimated; an even smaller -indeed, minimal -proportion has actually been sampled and investigated. We currently perceive most of the deep-sea ecosystems as heterotrophic, depending ultimately on the flux on organic matter produced in the overlying surface ocean through photosynthesis. The resulting strong food limitation thus shapes deep-sea biota and communities, with exceptions only in reducing ecosystems such as inter alia hydrothermal vents or cold seeps. Here, chemoautolithotrophic bacteria play the role of primary producers fuelled by chemical energy sources rather than sunlight. Other ecosystems, such as seamounts, canyons or cold-water corals have an Published by Copernicus Publications on behalf of the European Geosciences Union. 2852 E. Ramirez-Llodra et al.: Unique attributes of the world's largest ecosystem increased productivity through specific physical processes, such as topographic modification of currents and enhanced transport of particles and detrital matter. Because of its unique abiotic attributes, the deep sea hosts a specialized fauna. Although there are no phyla unique to deep waters, at lower taxonomic levels the composition of the fauna is distinct from that found in the upper ocean. Amongst other characteristic patterns, deep-sea species may exhibit either gigantism or dwarfism, related to the decrease in food availability with depth. Food limitation on the seafloor and water column is also reflected in the trophic structure of heterotrophic deep-sea communities, which are adapted to low energy availability. In most of these heterotrophic habitats, the dominant megafauna is composed of detritivores, while filter feeders are abundant in...

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Section: A Food-poor Environment With Scattered Oases Of Lifementioning

confidence: 99%

Deep, diverse and definitely different: unique attributes of the world's largest ecosystem

et al. 2010

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“…The group has received a careful attention since the 1980s in the description of the animal communities (e.g. Marshall 1985Marshall , 1988Kiel and Goedert 2006a, b;Pailleret et al 2006), as well as in the study of the impressive taxonomic diversity of mussels (Samadi et al 2007;Lorion et al 2009). Moreover, the phylogenetic relationships among wood-, bone-, vent-, and seep-associated mussels led to propose the "stepping stones" hypothesis for the colonization of the deep-sea reducing environments (see Smith et al 1989;Distel et al 2000).…”

Section: Introductionmentioning

confidence: 99%

Wood-based diet and gut microflora of a galatheid crab associated with Pacific deep-sea wood falls

et al. 2009

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Wood falls in the deep sea have recently become the focus of studies showing their importance as nutrients on the deep-sea Xoor. In such environments, Crustaceans constitute numerically the second-largest group after Mollusks. Many questions have arisen regarding their trophic role therein. A careful examination of the feeding appendages, gut contents, and gut lining of Munidopsis andamanica caught with wood falls revealed this species as a truly original detritivorous species using wood and the bioWlm covering it as two main food sources. Comparing individuals from other geographic areas from substrates not reported highlights the galatheid crab as specialist of refractory substrates, especially vegetal remains. M. andamanica also exhibits a resident gut microXora consisting of bacteria and fungi possibly involved in the digestion of wood fragments. The results suggest that Crustaceans could be fullXedged actors in the food chains of sunken-wood ecosystems and that feeding habits of some squat lobsters could be diVerent than scavenging.

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“…Two types of organic substrata (wood and bone) and one type of inorganic substratum (slate) were deployed at the Eiffel Tower hydrothermal edifice on the Lucky Strike vent field on the Mid-Atlantic Ridge (MAR) for 9 months, at varying distances from visible hydrothermal activity. Wood and bone were chosen due to their organic nature, their wide distribution in the oceans (Smith and Baco 2003;Schwabe et al in press) and their potential as evolutionary stepping stones for hydrothermal vent colonization (Distel et al 2000;Lorion et al 2009). As inorganic substratum, slate was chosen due to its basalt-like smoothness and inert characteristics.…”

Section: Introductionmentioning

confidence: 99%

Rapid colonisation by nematodes on organic and inorganic substrata deployed at the deep-sea Lucky Strike hydrothermal vent field (Mid-Atlantic Ridge)

et al. 2015

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Despite the fragmented nature of hydrothermal vent (HV) fields, nascent vent sites are rapidly colonized by a pool of regional species. While succession of large animals at vents is relatively well established, we lack information on the associated meiofauna, in particular, on nematodes. The aim of the present study is to investigate the process of colonisation after 9 months of organic (wood and bone) and inorganic (slate) substrata by nematode assemblages deployed at the Eiffel Tower hydrothermal edifice on the Lucky Strike vent field on the Mid-Atlantic Ridge (MAR), at varying distances from visible hydrothermal activity. Abundance, biomass and diversity of colonising nematodes were compared with the results from an earlier similar two-year experiment. Near the vents, nematodes preferred inorganic substrata while in areas not influenced by vent activity, organic substrata were preferred. Nematode females dominated at almost all sites while numerous females at the ovigerous stage and juveniles were reported near the vent emissions, suggesting that nematode populations reproduce well after just 9 months. Our nine-month experiment on the MAR showed that the type of substratum influenced significantly the composition of colonising nematodes, while after two years, the community structure was instead influenced by hydrothermal activity.

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Several deep-sea mussels and their associated symbionts are able to live both on wood and on whale falls

Cited by 80 publications

References 36 publications

Deep, diverse and definitely different: unique attributes of the world's largest ecosystem

Deep, diverse and definitely different: unique attributes of the world's largest ecosystem

Wood-based diet and gut microflora of a galatheid crab associated with Pacific deep-sea wood falls

Rapid colonisation by nematodes on organic and inorganic substrata deployed at the deep-sea Lucky Strike hydrothermal vent field (Mid-Atlantic Ridge)

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