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Methane- and sulfur-metabolizing microbial communities dominate the Lost City hydrothermal field ecosystem.

Brazelton WJ, Schrenk MO, Kelley DS, Baross JA.

Appl Environ Microbiol. 2006 Sep;72(9):6257-70.


Low archaeal diversity linked to subseafloor geochemical processes at the Lost City Hydrothermal Field, Mid-Atlantic Ridge.

Schrenk MO, Kelley DS, Bolton SA, Baross JA.

Environ Microbiol. 2004 Oct;6(10):1086-95.


Culture-dependent and -independent characterization of microbial communities associated with a shallow submarine hydrothermal system occurring within a coral reef off Taketomi Island, Japan.

Hirayama H, Sunamura M, Takai K, Nunoura T, Noguchi T, Oida H, Furushima Y, Yamamoto H, Oomori T, Horikoshi K.

Appl Environ Microbiol. 2007 Dec;73(23):7642-56. Epub 2007 Oct 5.


Record of archaeal activity at the serpentinite-hosted Lost City Hydrothermal Field.

Méhay S, Früh-Green GL, Lang SQ, Bernasconi SM, Brazelton WJ, Schrenk MO, Schaeffer P, Adam P.

Geobiology. 2013 Nov;11(6):570-92. doi: 10.1111/gbi.12062.


Comparison of microbial communities associated with three Atlantic ultramafic hydrothermal systems.

Roussel EG, Konn C, Charlou JL, Donval JP, Fouquet Y, Querellou J, Prieur D, Bonavita MA.

FEMS Microbiol Ecol. 2011 Sep;77(3):647-65. doi: 10.1111/j.1574-6941.2011.01161.x. Epub 2011 Jul 25.


Spatial distribution of microbial communities in the shallow submarine alkaline hydrothermal field of the Prony Bay, New Caledonia.

Quéméneur M, Bes M, Postec A, Mei N, Hamelin J, Monnin C, Chavagnac V, Payri C, Pelletier B, Guentas-Dombrowsky L, Gérard M, Pisapia C, Gérard E, Ménez B, Ollivier B, Erauso G.

Environ Microbiol Rep. 2014 Dec;6(6):665-74.


Life without light: microbial diversity and evidence of sulfur- and ammonium-based chemolithotrophy in Movile Cave.

Chen Y, Wu L, Boden R, Hillebrand A, Kumaresan D, Moussard H, Baciu M, Lu Y, Colin Murrell J.

ISME J. 2009 Sep;3(9):1093-104. doi: 10.1038/ismej.2009.57. Epub 2009 May 28.


A serpentinite-hosted ecosystem: the Lost City hydrothermal field.

Kelley DS, Karson JA, Früh-Green GL, Yoerger DR, Shank TM, Butterfield DA, Hayes JM, Schrenk MO, Olson EJ, Proskurowski G, Jakuba M, Bradley A, Larson B, Ludwig K, Glickson D, Buckman K, Bradley AS, Brazelton WJ, Roe K, Elend MJ, Delacour A, Bernasconi SM, Lilley MD, Baross JA, Summons RE, Sylva SP.

Science. 2005 Mar 4;307(5714):1428-34.


Diversity and abundance of aerobic and anaerobic methane oxidizers at the Haakon Mosby Mud Volcano, Barents Sea.

Lösekann T, Knittel K, Nadalig T, Fuchs B, Niemann H, Boetius A, Amann R.

Appl Environ Microbiol. 2007 May;73(10):3348-62. Epub 2007 Mar 16.


Microbial diversity of hydrothermal sediments in the Guaymas Basin: evidence for anaerobic methanotrophic communities.

Teske A, Hinrichs KU, Edgcomb V, de Vera Gomez A, Kysela D, Sylva SP, Sogin ML, Jannasch HW.

Appl Environ Microbiol. 2002 Apr;68(4):1994-2007.


Archaea and bacteria with surprising microdiversity show shifts in dominance over 1,000-year time scales in hydrothermal chimneys.

Brazelton WJ, Ludwig KA, Sogin ML, Andreishcheva EN, Kelley DS, Shen CC, Edwards RL, Baross JA.

Proc Natl Acad Sci U S A. 2010 Jan 26;107(4):1612-7. doi: 10.1073/pnas.0905369107. Epub 2010 Jan 11.


Anaerobic oxidation of methane at different temperature regimes in Guaymas Basin hydrothermal sediments.

Biddle JF, Cardman Z, Mendlovitz H, Albert DB, Lloyd KG, Boetius A, Teske A.

ISME J. 2012 May;6(5):1018-31. doi: 10.1038/ismej.2011.164. Epub 2011 Nov 17.


Characterization of C1-metabolizing prokaryotic communities in methane seep habitats at the Kuroshima Knoll, southern Ryukyu Arc, by analyzing pmoA, mmoX, mxaF, mcrA, and 16S rRNA genes.

Inagaki F, Tsunogai U, Suzuki M, Kosaka A, Machiyama H, Takai K, Nunoura T, Nealson KH, Horikoshi K.

Appl Environ Microbiol. 2004 Dec;70(12):7445-55.


Microbial diversity of a sulfide black smoker in main endeavour hydrothermal vent field, Juan de Fuca Ridge.

Zhou H, Li J, Peng X, Meng J, Wang F, Ai Y.

J Microbiol. 2009 Jun;47(3):235-47. doi: 10.1007/s12275-008-0311-z. Epub 2009 Jun 26.


Microbial CO(2) fixation and sulfur cycling associated with low-temperature emissions at the Lilliput hydrothermal field, southern Mid-Atlantic Ridge (9 degrees S).

Perner M, Seifert R, Weber S, Koschinsky A, Schmidt K, Strauss H, Peters M, Haase K, Imhoff JF.

Environ Microbiol. 2007 May;9(5):1186-201.


Culture dependent and independent analyses of 16S rRNA and ATP citrate lyase genes: a comparison of microbial communities from different black smoker chimneys on the Mid-Atlantic Ridge.

Voordeckers JW, Do MH, Hügler M, Ko V, Sievert SM, Vetriani C.

Extremophiles. 2008 Sep;12(5):627-40. doi: 10.1007/s00792-008-0167-5. Epub 2008 Jun 5.


Microbial community stratification controlled by the subseafloor fluid flow and geothermal gradient at the Iheya North hydrothermal field in the Mid-Okinawa Trough (Integrated Ocean Drilling Program Expedition 331).

Yanagawa K, Breuker A, Schippers A, Nishizawa M, Ijiri A, Hirai M, Takaki Y, Sunamura M, Urabe T, Nunoura T, Takai K.

Appl Environ Microbiol. 2014 Oct;80(19):6126-35. doi: 10.1128/AEM.01741-14. Epub 2014 Jul 25.


Biogeochemical and molecular signatures of anaerobic methane oxidation in a marine sediment.

Thomsen TR, Finster K, Ramsing NB.

Appl Environ Microbiol. 2001 Apr;67(4):1646-56.


The influence of ultramafic rocks on microbial communities at the Logatchev hydrothermal field, located 15 degrees N on the Mid-Atlantic Ridge.

Perner M, Kuever J, Seifert R, Pape T, Koschinsky A, Schmidt K, Strauss H, Imhoff JF.

FEMS Microbiol Ecol. 2007 Jul;61(1):97-109. Epub 2007 May 16.


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