Protozoan–bacterial symbiosis in a deep‐sea hydrothermal vent folliculinid ciliate (<i>Folliculinopsis</i> sp.) from the Juan de Fuca Ridge

Kouris, Angela; Juniper, S. Kim; Frebourg, Ghislaine; Gaill, Françoise

doi:10.1111/j.1439-0485.2006.00118.x

Cited by 42 publications

(26 citation statements)

References 37 publications

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“…These ciliate mats can cover extensive areas on basalt surfaces or patches on sulfide chimneys in some eastern Pacific Ocean hydrothermal vent fields and elsewhere (Tunnicliffe et al 1985, Kouris et al 2007). For example, in areas of widespread venting of 10 to 20 m 2 or more on the Juan de Fuca Ridge, blue mats occupied as much as 70% of the basaltic substratum (Kouris et al 2007). At some vent sites, these folliculinid ciliates have also been reported attached to mobile invertebrates (Kouris et al 2007), as well as on the tubes of the vestimentiferan Ridgeia piscesae (Bergquist et al 2007, Gollner et al 2007).…”

Section: Resale or Republication Not Permitted Without Written Consenmentioning

confidence: 99%

Blue mats: faunal composition and food web structure in colonial ciliate (Folliculinopsis sp.) mats at Northeast Pacific hydrothermal vents

Kouris

Limén²,

Stevens³

et al. 2010

Mar. Ecol. Prog. Ser.

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The present study provides a first description of the faunal composition and food web structure associated with blue mat ciliates (Folliculinopsis sp.) at hydrothermal vents on the Juan de Fuca and Explorer Ridges in the NE Pacific. Invertebrates associated with blue mats were identified, quantified and analyzed for stable carbon and nitrogen isotopes. In addition, fatty acid analyses of blue mats were performed. We found a recurrent assemblage of invertebrates associated with the blue mats, and, in all samples, meiofauna were numerically dominant. The harpacticoid copepod Amphiascus sp. was far more abundant than any other species within the folliculinid mats. While some of the invertebrates (including Amphiascus sp.) within this assemblage seem exclusively linked to blue mats, others are known from other nearby hydrothermal vent habitats. Folliculinopsis sp. ciliates were far more depleted in δ 13 C than invertebrates within the blue mat assemblage, indicating that the latter do not feed exclusively on the former. At least 2 trophic levels exist within this assemblage, with juvenile macrofauna, ostracod and nematode species occupying higher trophic levels. The lipid profiles indicate that 16:1ω7 and 18:1ω7 (typical of sulfur oxidizers) make up over half the blue mat fatty acids. Similar to tubeworm bushes at hydrothermal vents and mussel beds at cold seeps, blue mats may create a habitat within which meiofaunal and juvenile macrobenthic species can find shelter and food, thus playing an indirect but important role in the ecology of these organisms. KEY WORDS: Food web · Folliculinid · Hydrothermal vents · Stable isotopes · Fatty acid · Meiofauna · Macrofauna Resale or republication not permitted without written consent of the publisherMar Ecol Prog Ser 412: [93][94][95][96][97][98][99][100][101] 2010 length (Folliculinopsis sp.). These ciliate mats can cover extensive areas on basalt surfaces or patches on sulfide chimneys in some eastern Pacific Ocean hydrothermal vent fields and elsewhere (Tunnicliffe et al. 1985, Kouris et al. 2007). For example, in areas of widespread venting of 10 to 20 m 2 or more on the Juan de Fuca Ridge, blue mats occupied as much as 70% of the basaltic substratum (Kouris et al. 2007). At some vent sites, these folliculinid ciliates have also been reported attached to mobile invertebrates (Kouris et al. 2007), as well as on the tubes of the vestimentiferan Ridgeia piscesae (Bergquist et al. 2007, Gollner et al. 2007).To our knowledge, no other colonial ciliate has ever been reported to occupy such extensive areas in the marine environment. The ecological success of the blue mats, as evidenced by this abundance and widespread distribution around diffuse-flow vents, may be attributed to a recently proposed symbiosis involving prokaryotic symbionts hosted by these folliculinids. Abundant intra-cellular prokaryotes are apparent in transmission electron micrographs of the folliculinid cytoplasm and loricae (Kouris et al. 2007). These symbionts have also been the subject of 16S...

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Section: Resale or Republication Not Permitted Without Written Consenmentioning

confidence: 99%

Blue mats: faunal composition and food web structure in colonial ciliate (Folliculinopsis sp.) mats at Northeast Pacific hydrothermal vents

Kouris

Limén²,

Stevens³

et al. 2010

Mar. Ecol. Prog. Ser.

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“…This scale of complexity can be found in the natural environment within tightly woven Ridgeia piscesae tubeworm bushes (Tsurumi & Tunnicliffe 2003) or the dense colonies of folliculinid ciliates, Folliculinopsis sp. ('blue mat'; Kouris et al 2007). The faunal assemblages that colonized sponge substrates had higher abundance, diversity and evenness than assemblages that colonized the basalt substrates.…”

Section: Discussionmentioning

confidence: 99%

“…The tubes of vestimentiferans and shells of bivalves provide a complex structure that is inhabited by smaller vent invertebrates (Govenar et al 2002, 2005, Van Dover 2002, 2003, Tsurumi & Tunnicliffe 2003, Bergquist et al 2007). On the Juan de Fuca Ridge, northeastern Pacific, small-scale (millimetres to centimetres) spatial habitat complexity is also provided by sessile colonial folliculinid ciliates ('blue mat') that secrete and dwell within chitinous tubes of 0.3 to 2 mm in length (Kouris et al 2007). These tubes attach to the basalt substratum and onto each other, creating dense colonies that can cover ~70% of the available surface area at diffuse vents.…”

Section: Introductionmentioning

confidence: 99%

Diversity of invertebrate colonists on simple and complex substrates at hydrothermal vents on the Juan de Fuca Ridge

Kelly¹,

Meta×as²

2008

Aquat. Biol.

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This study examines the role of complex physical substrate structure on the colonization of hydrothermal vent invertebrates to test the hypothesis that the diversity of colonizing species can be enhanced by the provision of complex physical structure. Colonization was studied over 1 yr intervals between 2001 and 2003 at 2 diffuse venting sites near Axial Volcano, on the Juan de Fuca Ridge (depth 1500 m), on 2 types of artificial substrates with the same planar area but different levels of structural complexity: a complex structure with interstitial spaces (sponge) and a mimic of the seafloor (basalt). Colonist assemblages were compared between substrate types using univariate and multivariate measures of community composition. While the most abundant taxa on both substrate types were gastropods and polychaetes, colonist assemblages were significantly dissimilar between substrate types, due to the greater relative abundances of polychaete and meiofaunal species colonizing sponges. Overall, the faunal assemblages colonizing sponge substrates had higher species richness, diversity and evenness than assemblages colonizing the basalts. Our results suggest that complex physical substrate structure can facilitate the colonization of a diverse faunal assemblage at diffuse hydrothermal vents on the Juan de Fuca Ridge.

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“…A sister clade of methanotrophs ("Deep sea-1") includes known symbionts of a few seep and vent marine invertebrate taxa (e.g., Cavanaugh et al, 1987;Schmaljohann et al, 1990;DeChaine and Cavanaugh, 2006;Wendeberg et al, 2012) as well as a ciliate from a lowoxygen environment (Edgcomb et al, 2011). The vent-associated folliculinids were reported to have intracellular microorganisms that were morphologically similar to methanotrophs (Kouris et al, 2007), however, morphology alone was not able to confirm whether these features were methanotrophs or pigmented granules.…”

Section: Influence Of Folliculinid Ciliates On Microbial Composition mentioning

confidence: 99%

“…These ciliates are found in non-chemosynthetic coastal marine habitats (e.g., Fauré-Fremiet, 1936;Das, 1949;Mathews, 1964Mathews, , 1968Ji et al, 2004) and are known to colonize a variety of substrates including oyster and mussel shells (Mathews, 1968;Toupoint et al, 2012), serpulid polychaete worm tubes (Mathews, 1964), crayfish (Jaszczolt and Szaniawsk, 2007), wood (Mathews, 1964), coral skeletons (Cróquer et al, 2006), and even artificial substrates (Ji et al, 2004). Their presence in chemosynthetic ecosystems was first discovered at hydrothermal vents in the 1980's (Tunnicliffe et al, 1985;Van Dover et al, 1988), but their abundance and ecological importance was only more recently recognized (Kouris et al, 2007(Kouris et al, , 2010. Folliculinids form dense "blue mat" colonies within hydrothermal vent fields, sometimes occupying 70% of mineralized substrate, influencing community composition and food web structure within these ecosystems (Kouris et al, 2010).…”

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confidence: 99%

Colonial Tube-Dwelling Ciliates Influence Methane Cycling and Microbial Diversity within Methane Seep Ecosystems

et al. 2017

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In a variety of marine ecosystems, microbial eukaryotes play important ecological roles; however, our knowledge of their importance in deep-sea methane seep ecosystems is limited. Microbial eukaryotes have the potential to influence microbial community composition and diversity by creating habitat heterogeneity, and may contribute to carbon cycling through grazing or symbiotic associations with microorganisms. In this study, we characterized the distribution, substrate variability and ecology of a particular group of microbial eukaryotes, known as folliculinid ciliates, at methane seeps along the eastern Pacific margin. Folliculinid ciliates were recently recognized as an abundant and ecologically important component of hydrothermal vent ecosystems, but their ecology in methane seeps has not been examined. Folliculinid ciliates inhabited methane seeps from Costa Rica to Oregon, suggesting a broad distribution in the eastern Pacific. Using phylogenetic analyses of the 18S rRNA gene, two different species of folliculinid were identified and are formally described here. Folliculinids occupied a range of physical substrates, including authigenic carbonate rocks, shells of dead vesicomyid clams, polychaete tubes and gastropod shells. Molecular analysis of the folliculinid-associated microorganisms (16S rRNA and particular methane monoxygenase) revealed that these ciliates not only influence overall microbial diversity, but also have a specific relationship with bacteria in the "Deep sea-2" methanotroph clade. Natural 13 δ C isotope signatures of the folliculinids (−35 ) and their 13 C-enrichment patterns in shipboard 13 CH 4 stable isotope-probing experiments indicated these ciliates and their associated microbes are involved in cycling methane-derived carbon. Folliculinids were significantly enriched in 13 C after the addition of 13 CH 4 over short-term (3-8 day) incubations. Together, these results suggest that folliculinid ciliates represent a previously overlooked contributor to the ecology and biogeochemical cycling at deep-sea methane seep ecosystems.

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Protozoan–bacterial symbiosis in a deep‐sea hydrothermal vent folliculinid ciliate (Folliculinopsis sp.) from the Juan de Fuca Ridge

Cited by 42 publications

References 37 publications

Blue mats: faunal composition and food web structure in colonial ciliate (Folliculinopsis sp.) mats at Northeast Pacific hydrothermal vents

Blue mats: faunal composition and food web structure in colonial ciliate (Folliculinopsis sp.) mats at Northeast Pacific hydrothermal vents

Diversity of invertebrate colonists on simple and complex substrates at hydrothermal vents on the Juan de Fuca Ridge

Colonial Tube-Dwelling Ciliates Influence Methane Cycling and Microbial Diversity within Methane Seep Ecosystems

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