Sublithic bacteria associated with Antarctic quartz stones

Quartz stone sublithic cyanobacterial communities are common throughout the Vestfold Hills, Eastern Antarctica (68S 78E) contributing biomass in areas otherwise devoid of any type of vegetation. In this study, the sublithic microbial community and underlying soil was investigated using a variety of...

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Published in:Antarctic Science
Main Authors: Smith, MC, Bowman, JP, Scott, FJ, Line, MA
Format: Article in Journal/Newspaper
Language:English
Published: Camridge Univ Press 2000
Subjects:
Biological Sciences
Ecology
Terrestrial Ecology
Antarctic
Vestfold
Vestfold Hills
Antarc*
Antarctic Science
Antarctica
Online Access:https://doi.org/10.1017/S0954102000000237
http://ecite.utas.edu.au/18747
id ftunivtasecite:oai:ecite.utas.edu.au:18747
record_format openpolar
spelling ftunivtasecite:oai:ecite.utas.edu.au:18747 2023-05-15T13:59:07+02:00 Sublithic bacteria associated with Antarctic quartz stones Smith, MC Bowman, JP Scott, FJ Line, MA 2000 https://doi.org/10.1017/S0954102000000237 http://ecite.utas.edu.au/18747 en eng Camridge Univ Press http://dx.doi.org/10.1017/S0954102000000237 Smith, MC and Bowman, JP and Scott, FJ and Line, MA, Sublithic bacteria associated with Antarctic quartz stones, Antarctic Science, 12, (2) pp. 177-184. ISSN 0954-1020 (2000) [Refereed Article] http://ecite.utas.edu.au/18747 Biological Sciences Ecology Terrestrial Ecology Refereed Article PeerReviewed 2000 ftunivtasecite https://doi.org/10.1017/S0954102000000237 2019-12-13T21:01:37Z Quartz stone sublithic cyanobacterial communities are common throughout the Vestfold Hills, Eastern Antarctica (68S 78E) contributing biomass in areas otherwise devoid of any type of vegetation. In this study, the sublithic microbial community and underlying soil was investigated using a variety of traditional and molecular methods. Although direct epifluorescent counts of the sublithic growth (average 1.1 x 109 cells g-1 dry weight) and underlying soil (0.5 x 109 cells g-1 dry weight) were similar, sublith viable counts (2.1 x 107 cfu g-1 dry weight) were on average 3-orders of magnitude higher in the subliths. Enrichment and molecular analyses revealed the predominate cyanobacteria were non-halophilic, able to grow optimally at 15-20C, and were related to the Phormidium subgroup with several distinct morphotypes and phylotypes present. Sublithic heterotrophic bacterial populations and those of underlying soils included mostly psychrotolerant taxa typical of Antarctic soil. However, psychrophilic and halophilic bacteria, mostly members of the alpha subdivision of the Proteobacteria and the order Cytophagales, were abundant in the sublithic growth film (20-40% of the viable count and about 50% of isolated individual taxa) but absent from underlying soils. It is suggested that quartz stone subliths might constitute a 'refuge' for psychrophilic bacteria. Article in Journal/Newspaper Antarc* Antarctic Antarctic Science Antarctica eCite UTAS (University of Tasmania) Antarctic Vestfold Vestfold Hills Antarctic Science 12 2 177 184
institution Open Polar
collection eCite UTAS (University of Tasmania)
op_collection_id ftunivtasecite
language English
topic Biological Sciences
Ecology
Terrestrial Ecology
spellingShingle Biological Sciences
Ecology
Terrestrial Ecology
Smith, MC
Bowman, JP
Scott, FJ
Line, MA
Sublithic bacteria associated with Antarctic quartz stones
topic_facet Biological Sciences
Ecology
Terrestrial Ecology
description Quartz stone sublithic cyanobacterial communities are common throughout the Vestfold Hills, Eastern Antarctica (68S 78E) contributing biomass in areas otherwise devoid of any type of vegetation. In this study, the sublithic microbial community and underlying soil was investigated using a variety of traditional and molecular methods. Although direct epifluorescent counts of the sublithic growth (average 1.1 x 109 cells g-1 dry weight) and underlying soil (0.5 x 109 cells g-1 dry weight) were similar, sublith viable counts (2.1 x 107 cfu g-1 dry weight) were on average 3-orders of magnitude higher in the subliths. Enrichment and molecular analyses revealed the predominate cyanobacteria were non-halophilic, able to grow optimally at 15-20C, and were related to the Phormidium subgroup with several distinct morphotypes and phylotypes present. Sublithic heterotrophic bacterial populations and those of underlying soils included mostly psychrotolerant taxa typical of Antarctic soil. However, psychrophilic and halophilic bacteria, mostly members of the alpha subdivision of the Proteobacteria and the order Cytophagales, were abundant in the sublithic growth film (20-40% of the viable count and about 50% of isolated individual taxa) but absent from underlying soils. It is suggested that quartz stone subliths might constitute a 'refuge' for psychrophilic bacteria.
format Article in Journal/Newspaper
author Smith, MC
Bowman, JP
Scott, FJ
Line, MA
author_facet Smith, MC
Bowman, JP
Scott, FJ
Line, MA
author_sort Smith, MC
title Sublithic bacteria associated with Antarctic quartz stones
title_short Sublithic bacteria associated with Antarctic quartz stones
title_full Sublithic bacteria associated with Antarctic quartz stones
title_fullStr Sublithic bacteria associated with Antarctic quartz stones
title_full_unstemmed Sublithic bacteria associated with Antarctic quartz stones
title_sort sublithic bacteria associated with antarctic quartz stones
publisher Camridge Univ Press
publishDate 2000
url https://doi.org/10.1017/S0954102000000237
http://ecite.utas.edu.au/18747
geographic Antarctic
Vestfold
Vestfold Hills
geographic_facet Antarctic
Vestfold
Vestfold Hills
genre Antarc*
Antarctic
Antarctic Science
Antarctica
genre_facet Antarc*
Antarctic
Antarctic Science
Antarctica
op_relation http://dx.doi.org/10.1017/S0954102000000237
Smith, MC and Bowman, JP and Scott, FJ and Line, MA, Sublithic bacteria associated with Antarctic quartz stones, Antarctic Science, 12, (2) pp. 177-184. ISSN 0954-1020 (2000) [Refereed Article]
http://ecite.utas.edu.au/18747
op_doi https://doi.org/10.1017/S0954102000000237
container_title Antarctic Science
container_volume 12
container_issue 2
container_start_page 177
op_container_end_page 184
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