publication . Article . 2018

A Mosaic of Geothermal and Marine Features Shapes Microbial Community Structure on Deception Island Volcano, Antarctica

Amanda Bendia;
Open Access English
  • Published: 01 May 2018 Journal: Frontiers in Microbiology, volume 9 (eissn: 1664-302X, Copyright policy)
  • Publisher: Frontiers Media S.A.
Abstract
Active volcanoes in Antarctica contrast with their predominantly cold surroundings, resulting in environmental conditions capable of selecting for versatile and extremely diverse microbial communities. This is especially true on Deception Island, where geothermal, marine, and polar environments combine to create an extraordinary range of environmental conditions. Our main goal in this study was to understand how microbial community structure is shaped by gradients of temperature, salinity, and geochemistry in polar marine volcanoes. Thereby, we collected surface sediment samples associated with fumaroles and glaciers at two sites on Deception, with temperatures ...
Subjects
free text keywords: Microbiology, Original Research, polar marine volcano, Antarctica, environmental gradients, extremophiles, diversity, community structure, QR1-502, Microbiology (medical), Microbial population biology, Geothermal gradient, Hydrothermal vent, Fumarole, Ecology, Biogeography, Archaea, biology.organism_classification, biology, Extremophile
67 references, page 1 of 5

Akerman N. H.Butterfield D. A.Huber J. A. (2013). Phylogenetic diversity and functional gene patterns of sulfur-oxidizing subseafloor Epsilonproteobacteria in diffuse hydrothermal vent fluids. 4:185. 10.3389/fmicb.2013.00185 23847608 [OpenAIRE] [PubMed] [DOI]

Amenábar M. J.Flores P. A.Pugin B.Boehmwald F. A.Blamey J. M. (2013). Archaeal diversity from hydrothermal systems of Deception Island, Antarctica. 36 373–380. 10.1007/s00300-012-1267-3 [OpenAIRE] [DOI]

Anderson R. E.Reveillaud J.Reddington E.Delmont T. O.Eren A. M.McDermott J. M. (2017). Genomic variation in microbial populations inhabiting the marine subseafloor at deep-sea hydrothermal vents. 8:1114. 10.1038/s41467-017-01228-6 29066755 [OpenAIRE] [PubMed] [DOI]

Antranikian G.Suleiman M.Schäfers C.Adams M. W.Bartolucci S.Blamey J. M. (2017). Diversity of bacteria and archaea from two shallow marine hydrothermal vents from Vulcano Island. 21 733–742. 10.1007/s00792-017-0938-y 28493148 [OpenAIRE] [PubMed] [DOI]

Baker P. E. (1969). Volcanic activity at Deception Island in 1967 and 1969. 224 553–560. 10.1038/224553a0 [OpenAIRE] [DOI]

Baker P. E.McReath I.Harvey M. R.Roobol M. J.Davies T. G. (1975). Cambridge: British Antarctic Survey.

Bartolini S.Geyer A.MartíJ.Pedrazzi D.Aguirre-Díaz G. (2014). Volcanic hazard on Deception Island (South Shetland Islands, Antarctica). 285 150–168. 10.1016/j.jvolgeores.2014.08.009 [OpenAIRE] [DOI]

Bowman J. S.Amaral-Zettler L. A.Rich J. J.Luria C. M.Ducklow H. W. (2017). Bacterial community segmentation facilitates the prediction of ecosystem function along the coast of the western Antarctic Peninsula. 11 1460–1471. 10.1038/ismej.2016.204 28106879 [OpenAIRE] [PubMed] [DOI]

Bowman J. P.McMeekin T. A. (2005). “Alteromonadales ord. nov,” in Bergey’s Manual® of Systematic Bacteriology, eds Brenner D.Krieg N.Staley J.Garrity G.Boone D.Vos P. (New York, NY: Springer), 443–491. 10.1007/0-387-28022-7_10 [OpenAIRE] [DOI]

Cao P.Zhang L. M.Shen J. P.Zheng Y. M.Di H. J.He J. Z. (2012). Distribution and diversity of archaeal communities in selected Chinese soils. 80 146–158. 10.1111/j.1574-6941.2011.01280.x 22220938 [OpenAIRE] [PubMed] [DOI]

Caporaso J. G.Kuczynski J.Stombaugh J.Bittinger K.Bushman F. D.Costello E. K. (2010). QIIME allows analysis of high-throughput community sequencing data. 7 335–336. 10.1038/nmeth.f.303 20383131 [OpenAIRE] [PubMed] [DOI]

Cole J. R.Wang Q.Fish J. A.Chai B.McGarrell D. M.Sun Y. (2014). Ribosomal Database Project: data and tools for high throughput rRNA analysis. 42 633–642. 10.1093/nar/gkt1244 24288368 [OpenAIRE] [PubMed] [DOI]

Crump B. C.Hopkinson C. S.Sogin M. L.Hobbie J. E. (2004). Microbial biogeography along an estuarine salinity gradient: combined influences of bacterial growth and residence time. 70 1494–1505. 10.1128/AEM.70.3.1494-1505.2004 15006771 [OpenAIRE] [PubMed] [DOI]

De la Torre J. R.Walker C. B.Ingalls A. E.Könneke M.Stahl D. A. (2008). Cultivation of a thermophilic ammonia oxidizing archaeon synthesizing crenarchaeol. 10 810–818. 10.1111/j.1462-2920.2007.01506.x 18205821 [OpenAIRE] [PubMed] [DOI]

Dunfield P. F.Yuryev A.Senin P.Smirnova A. V.Stott M. B.Hou S. (2007). Methane oxidation by an extremely acidophilic bacterium of the phylum Verrucomicrobia. 450 879–882. 10.1038/nature06411 18004300 [OpenAIRE] [PubMed] [DOI]

67 references, page 1 of 5
Abstract
Active volcanoes in Antarctica contrast with their predominantly cold surroundings, resulting in environmental conditions capable of selecting for versatile and extremely diverse microbial communities. This is especially true on Deception Island, where geothermal, marine, and polar environments combine to create an extraordinary range of environmental conditions. Our main goal in this study was to understand how microbial community structure is shaped by gradients of temperature, salinity, and geochemistry in polar marine volcanoes. Thereby, we collected surface sediment samples associated with fumaroles and glaciers at two sites on Deception, with temperatures ...
Subjects
free text keywords: Microbiology, Original Research, polar marine volcano, Antarctica, environmental gradients, extremophiles, diversity, community structure, QR1-502, Microbiology (medical), Microbial population biology, Geothermal gradient, Hydrothermal vent, Fumarole, Ecology, Biogeography, Archaea, biology.organism_classification, biology, Extremophile
67 references, page 1 of 5

Akerman N. H.Butterfield D. A.Huber J. A. (2013). Phylogenetic diversity and functional gene patterns of sulfur-oxidizing subseafloor Epsilonproteobacteria in diffuse hydrothermal vent fluids. 4:185. 10.3389/fmicb.2013.00185 23847608 [OpenAIRE] [PubMed] [DOI]

Amenábar M. J.Flores P. A.Pugin B.Boehmwald F. A.Blamey J. M. (2013). Archaeal diversity from hydrothermal systems of Deception Island, Antarctica. 36 373–380. 10.1007/s00300-012-1267-3 [OpenAIRE] [DOI]

Anderson R. E.Reveillaud J.Reddington E.Delmont T. O.Eren A. M.McDermott J. M. (2017). Genomic variation in microbial populations inhabiting the marine subseafloor at deep-sea hydrothermal vents. 8:1114. 10.1038/s41467-017-01228-6 29066755 [OpenAIRE] [PubMed] [DOI]

Antranikian G.Suleiman M.Schäfers C.Adams M. W.Bartolucci S.Blamey J. M. (2017). Diversity of bacteria and archaea from two shallow marine hydrothermal vents from Vulcano Island. 21 733–742. 10.1007/s00792-017-0938-y 28493148 [OpenAIRE] [PubMed] [DOI]

Baker P. E. (1969). Volcanic activity at Deception Island in 1967 and 1969. 224 553–560. 10.1038/224553a0 [OpenAIRE] [DOI]

Baker P. E.McReath I.Harvey M. R.Roobol M. J.Davies T. G. (1975). Cambridge: British Antarctic Survey.

Bartolini S.Geyer A.MartíJ.Pedrazzi D.Aguirre-Díaz G. (2014). Volcanic hazard on Deception Island (South Shetland Islands, Antarctica). 285 150–168. 10.1016/j.jvolgeores.2014.08.009 [OpenAIRE] [DOI]

Bowman J. S.Amaral-Zettler L. A.Rich J. J.Luria C. M.Ducklow H. W. (2017). Bacterial community segmentation facilitates the prediction of ecosystem function along the coast of the western Antarctic Peninsula. 11 1460–1471. 10.1038/ismej.2016.204 28106879 [OpenAIRE] [PubMed] [DOI]

Bowman J. P.McMeekin T. A. (2005). “Alteromonadales ord. nov,” in Bergey’s Manual® of Systematic Bacteriology, eds Brenner D.Krieg N.Staley J.Garrity G.Boone D.Vos P. (New York, NY: Springer), 443–491. 10.1007/0-387-28022-7_10 [OpenAIRE] [DOI]

Cao P.Zhang L. M.Shen J. P.Zheng Y. M.Di H. J.He J. Z. (2012). Distribution and diversity of archaeal communities in selected Chinese soils. 80 146–158. 10.1111/j.1574-6941.2011.01280.x 22220938 [OpenAIRE] [PubMed] [DOI]

Caporaso J. G.Kuczynski J.Stombaugh J.Bittinger K.Bushman F. D.Costello E. K. (2010). QIIME allows analysis of high-throughput community sequencing data. 7 335–336. 10.1038/nmeth.f.303 20383131 [OpenAIRE] [PubMed] [DOI]

Cole J. R.Wang Q.Fish J. A.Chai B.McGarrell D. M.Sun Y. (2014). Ribosomal Database Project: data and tools for high throughput rRNA analysis. 42 633–642. 10.1093/nar/gkt1244 24288368 [OpenAIRE] [PubMed] [DOI]

Crump B. C.Hopkinson C. S.Sogin M. L.Hobbie J. E. (2004). Microbial biogeography along an estuarine salinity gradient: combined influences of bacterial growth and residence time. 70 1494–1505. 10.1128/AEM.70.3.1494-1505.2004 15006771 [OpenAIRE] [PubMed] [DOI]

De la Torre J. R.Walker C. B.Ingalls A. E.Könneke M.Stahl D. A. (2008). Cultivation of a thermophilic ammonia oxidizing archaeon synthesizing crenarchaeol. 10 810–818. 10.1111/j.1462-2920.2007.01506.x 18205821 [OpenAIRE] [PubMed] [DOI]

Dunfield P. F.Yuryev A.Senin P.Smirnova A. V.Stott M. B.Hou S. (2007). Methane oxidation by an extremely acidophilic bacterium of the phylum Verrucomicrobia. 450 879–882. 10.1038/nature06411 18004300 [OpenAIRE] [PubMed] [DOI]

67 references, page 1 of 5
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publication . Article . 2018

A Mosaic of Geothermal and Marine Features Shapes Microbial Community Structure on Deception Island Volcano, Antarctica

Amanda Bendia;