Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection

Astrobiology seeks to understand the limits of life and to determine the physiology of organisms in order to better assess the habitability of other worlds. To successfully achieve these goals we require microorganisms from environments on Earth that approximate to extraterrestrial environments in t...

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Published in:International Journal of Astrobiology
Main Authors: Cockell, C. S., Schwendner, P., Perras, A., Rettberg, Petra, Beblo-Vranesevic, Kristina, Bohmeier, M., Rabbow, Elke, Moissl-Eichinger, C., Wink, L., Marteinsson, V., Vannier, P., Gomez, F., Garcia-Descalzo, L., Ehrenfreund, P., Monaghan, E.P., Westall, F., Gaboyer, F., Amils, R., Malki, M., Pukall, R., Cabezas, P., Walter, N.
Format: Article in Journal/Newspaper
Language:unknown
Published: Cambridge University Press 2017
Subjects:
Strahlenbiologie
Canada
glacier
glacier*
Iceland
permafrost
Online Access:https://elib.dlr.de/113573/
https://doi.org/10.1017/S1473550417000246
id ftdlr:oai:elib.dlr.de:113573
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:113573 2023-05-15T16:21:49+02:00 Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection Cockell, C. S. Schwendner, P. Perras, A. Rettberg, Petra Beblo-Vranesevic, Kristina Bohmeier, M. Rabbow, Elke Moissl-Eichinger, C. Wink, L. Marteinsson, V. Vannier, P. Gomez, F. Garcia-Descalzo, L. Ehrenfreund, P. Monaghan, E.P. Westall, F. Gaboyer, F. Amils, R. Malki, M. Pukall, R. Cabezas, P. Walter, N. 2017 https://elib.dlr.de/113573/ https://doi.org/10.1017/S1473550417000246 unknown Cambridge University Press Cockell, C. S. und Schwendner, P. und Perras, A. und Rettberg, Petra und Beblo-Vranesevic, Kristina und Bohmeier, M. und Rabbow, Elke und Moissl-Eichinger, C. und Wink, L. und Marteinsson, V. und Vannier, P. und Gomez, F. und Garcia-Descalzo, L. und Ehrenfreund, P. und Monaghan, E.P. und Westall, F. und Gaboyer, F. und Amils, R. und Malki, M. und Pukall, R. und Cabezas, P. und Walter, N. (2017) Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection. International Journal of Astrobiology, 17 (4), Seiten 314-328. Cambridge University Press. doi:10.1017/S1473550417000246 <https://doi.org/10.1017/S1473550417000246>. ISSN 1473-5504. info:eu-repo/semantics/restrictedAccess Strahlenbiologie Zeitschriftenbeitrag PeerReviewed info:eu-repo/semantics/article 2017 ftdlr https://doi.org/10.1017/S1473550417000246 2021-06-20T23:05:52Z Astrobiology seeks to understand the limits of life and to determine the physiology of organisms in order to better assess the habitability of other worlds. To successfully achieve these goals we require microorganisms from environments on Earth that approximate to extraterrestrial environments in terms of physical and/or chemical conditions. The most challenging of these environments with respect to sample collection, isolation and cultivation of microorganisms are anoxic environments. In this paper, an approach to this challenge was implemented within the European Union’s MASE (Mars Analogues for Space Exploration) project. In this review paper, we aim to provide a set of methods for future field work and sampling campaigns. A number of anoxic environment based on characteristics that make them analogous to past and present locations on Mars were selected. They included anoxic sulphur-rich springs (Germany), the salt-rich Boulby Mine (UK), a lake in a basaltic context (Iceland), acidic sediments in the Rio Tinto (Spain), glacier samples (Austria) and permafrost samples (Russia and Canada). Samples were collected under strict anoxic conditions to be used for cultivation and genomic community analysis. Using the samples, a culturing approach was implemented to enrich anaerobic organisms using a defined medium that would allow for organisms to be grown under identical conditions in future physiological comparisons. Anaerobic microorganisms were isolated and deposited with the DSMZ (Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH) culture collection to make them available to other scientists. In MASE, the selected organisms are studied with respect to survival and growth under Mars relevant stresses. They are artificially fossilized and the resulting biosignatures studied and used to investigate the efficacy of life detection instrumentation for planetary missions. Some of the organisms belong to genera with medical and environmental importance such as Yersinia spp., illustrating how astrobiology field research can be used to increase the availability of microbial isolates for applied terrestrial purposes. Article in Journal/Newspaper glacier glacier glacier* Iceland permafrost German Aerospace Center: elib - DLR electronic library Canada International Journal of Astrobiology 17 4 314 328
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Strahlenbiologie
spellingShingle Strahlenbiologie
Cockell, C. S.
Schwendner, P.
Perras, A.
Rettberg, Petra
Beblo-Vranesevic, Kristina
Bohmeier, M.
Rabbow, Elke
Moissl-Eichinger, C.
Wink, L.
Marteinsson, V.
Vannier, P.
Gomez, F.
Garcia-Descalzo, L.
Ehrenfreund, P.
Monaghan, E.P.
Westall, F.
Gaboyer, F.
Amils, R.
Malki, M.
Pukall, R.
Cabezas, P.
Walter, N.
Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection
topic_facet Strahlenbiologie
description Astrobiology seeks to understand the limits of life and to determine the physiology of organisms in order to better assess the habitability of other worlds. To successfully achieve these goals we require microorganisms from environments on Earth that approximate to extraterrestrial environments in terms of physical and/or chemical conditions. The most challenging of these environments with respect to sample collection, isolation and cultivation of microorganisms are anoxic environments. In this paper, an approach to this challenge was implemented within the European Union’s MASE (Mars Analogues for Space Exploration) project. In this review paper, we aim to provide a set of methods for future field work and sampling campaigns. A number of anoxic environment based on characteristics that make them analogous to past and present locations on Mars were selected. They included anoxic sulphur-rich springs (Germany), the salt-rich Boulby Mine (UK), a lake in a basaltic context (Iceland), acidic sediments in the Rio Tinto (Spain), glacier samples (Austria) and permafrost samples (Russia and Canada). Samples were collected under strict anoxic conditions to be used for cultivation and genomic community analysis. Using the samples, a culturing approach was implemented to enrich anaerobic organisms using a defined medium that would allow for organisms to be grown under identical conditions in future physiological comparisons. Anaerobic microorganisms were isolated and deposited with the DSMZ (Deutsche Sammlung von Mikroorganismen und Zellkulturen GmbH) culture collection to make them available to other scientists. In MASE, the selected organisms are studied with respect to survival and growth under Mars relevant stresses. They are artificially fossilized and the resulting biosignatures studied and used to investigate the efficacy of life detection instrumentation for planetary missions. Some of the organisms belong to genera with medical and environmental importance such as Yersinia spp., illustrating how astrobiology field research can be used to increase the availability of microbial isolates for applied terrestrial purposes.
format Article in Journal/Newspaper
author Cockell, C. S.
Schwendner, P.
Perras, A.
Rettberg, Petra
Beblo-Vranesevic, Kristina
Bohmeier, M.
Rabbow, Elke
Moissl-Eichinger, C.
Wink, L.
Marteinsson, V.
Vannier, P.
Gomez, F.
Garcia-Descalzo, L.
Ehrenfreund, P.
Monaghan, E.P.
Westall, F.
Gaboyer, F.
Amils, R.
Malki, M.
Pukall, R.
Cabezas, P.
Walter, N.
author_facet Cockell, C. S.
Schwendner, P.
Perras, A.
Rettberg, Petra
Beblo-Vranesevic, Kristina
Bohmeier, M.
Rabbow, Elke
Moissl-Eichinger, C.
Wink, L.
Marteinsson, V.
Vannier, P.
Gomez, F.
Garcia-Descalzo, L.
Ehrenfreund, P.
Monaghan, E.P.
Westall, F.
Gaboyer, F.
Amils, R.
Malki, M.
Pukall, R.
Cabezas, P.
Walter, N.
author_sort Cockell, C. S.
title Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection
title_short Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection
title_full Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection
title_fullStr Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection
title_full_unstemmed Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection
title_sort anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection
publisher Cambridge University Press
publishDate 2017
url https://elib.dlr.de/113573/
https://doi.org/10.1017/S1473550417000246
geographic Canada
geographic_facet Canada
genre glacier
glacier
glacier*
Iceland
permafrost
genre_facet glacier
glacier
glacier*
Iceland
permafrost
op_relation Cockell, C. S. und Schwendner, P. und Perras, A. und Rettberg, Petra und Beblo-Vranesevic, Kristina und Bohmeier, M. und Rabbow, Elke und Moissl-Eichinger, C. und Wink, L. und Marteinsson, V. und Vannier, P. und Gomez, F. und Garcia-Descalzo, L. und Ehrenfreund, P. und Monaghan, E.P. und Westall, F. und Gaboyer, F. und Amils, R. und Malki, M. und Pukall, R. und Cabezas, P. und Walter, N. (2017) Anaerobic microorganisms in astrobiological analogue environments: from field site to culture collection. International Journal of Astrobiology, 17 (4), Seiten 314-328. Cambridge University Press. doi:10.1017/S1473550417000246 <https://doi.org/10.1017/S1473550417000246>. ISSN 1473-5504.
op_rights info:eu-repo/semantics/restrictedAccess
op_doi https://doi.org/10.1017/S1473550417000246
container_title International Journal of Astrobiology
container_volume 17
container_issue 4
container_start_page 314
op_container_end_page 328
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