Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS

BIOMEX (BIOlogy and Mars EXperiment) is an ESA/Roscosmos space exposure experiment housed within the exposure facility EXPOSE-R2 outside the Zvezda module on the International Space Station (ISS). The design of the multiuser facility supports—among others—the BIOMEX investigations into the stability...

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Main Authors:	Vera, Jean-Pierre De, Elsaesser, Andreas, Alawi, Mashal, Backhaus, Theresa, Baqué, Mickael, Billi, Daniela, Böttger, Ute, Berger, Thomas, Bohmeier, Maria, Cockell, Charles [U.V.M.]
Format:	Text
Language:	unknown
Published:	Freie Universität Berlin 2019
Subjects:	EXPOSE-R2 BIOMEX extremophiles habitability limits of life Mars 500 Naturwissenschaften und Mathematik530 Physik530 Physik Zvezda permafrost
Online Access:	https://dx.doi.org/10.17169/refubium-26443 https://refubium.fu-berlin.de/handle/fub188/26686

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spelling	ftdatacite:10.17169/refubium-26443 2023-05-15T17:58:15+02:00 Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS Vera, Jean-Pierre De Elsaesser, Andreas Alawi, Mashal Backhaus, Theresa Baqué, Mickael Billi, Daniela Böttger, Ute Berger, Thomas Bohmeier, Maria Cockell, Charles [U.V.M.] 2019 https://dx.doi.org/10.17169/refubium-26443 https://refubium.fu-berlin.de/handle/fub188/26686 unknown Freie Universität Berlin https://creativecommons.org/licenses/by-nc/4.0 CC-BY-NC EXPOSE-R2 BIOMEX extremophiles habitability limits of life Mars 500 Naturwissenschaften und Mathematik530 Physik530 Physik Text article-journal Wissenschaftlicher Artikel ScholarlyArticle 2019 ftdatacite https://doi.org/10.17169/refubium-26443 2021-11-05T12:55:41Z BIOMEX (BIOlogy and Mars EXperiment) is an ESA/Roscosmos space exposure experiment housed within the exposure facility EXPOSE-R2 outside the Zvezda module on the International Space Station (ISS). The design of the multiuser facility supports—among others—the BIOMEX investigations into the stability and level of degradation of space-exposed biosignatures such as pigments, secondary metabolites, and cell surfaces in contact with a terrestrial and Mars analog mineral environment. In parallel, analysis on the viability of the investigated organisms has provided relevant data for evaluation of the habitability of Mars, for the limits of life, and for the likelihood of an interplanetary transfer of life (theory of lithopanspermia). In this project, lichens, archaea, bacteria, cyanobacteria, snow/permafrost algae, meristematic black fungi, and bryophytes from alpine and polar habitats were embedded, grown, and cultured on a mixture of martian and lunar regolith analogs or other terrestrial minerals. The organisms and regolith analogs and terrestrial mineral mixtures were then exposed to space and to simulated Mars-like conditions by way of the EXPOSE-R2 facility. In this special issue, we present the first set of data obtained in reference to our investigation into the habitability of Mars and limits of life. This project was initiated and implemented by the BIOMEX group, an international and interdisciplinary consortium of 30 institutes in 12 countries on 3 continents. Preflight tests for sample selection, results from ground-based simulation experiments, and the space experiments themselves are presented and include a complete overview of the scientific processes required for this space experiment and postflight analysis. The presented BIOMEX concept could be scaled up to future exposure experiments on the Moon and will serve as a pretest in low Earth orbit. Text permafrost DataCite Metadata Store (German National Library of Science and Technology) Zvezda ENVELOPE(78.450,78.450,-68.550,-68.550)
institution	Open Polar
collection	DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id	ftdatacite
language	unknown
topic	EXPOSE-R2 BIOMEX extremophiles habitability limits of life Mars 500 Naturwissenschaften und Mathematik530 Physik530 Physik
spellingShingle	EXPOSE-R2 BIOMEX extremophiles habitability limits of life Mars 500 Naturwissenschaften und Mathematik530 Physik530 Physik Vera, Jean-Pierre De Elsaesser, Andreas Alawi, Mashal Backhaus, Theresa Baqué, Mickael Billi, Daniela Böttger, Ute Berger, Thomas Bohmeier, Maria Cockell, Charles [U.V.M.] Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS
topic_facet	EXPOSE-R2 BIOMEX extremophiles habitability limits of life Mars 500 Naturwissenschaften und Mathematik530 Physik530 Physik
description	BIOMEX (BIOlogy and Mars EXperiment) is an ESA/Roscosmos space exposure experiment housed within the exposure facility EXPOSE-R2 outside the Zvezda module on the International Space Station (ISS). The design of the multiuser facility supports—among others—the BIOMEX investigations into the stability and level of degradation of space-exposed biosignatures such as pigments, secondary metabolites, and cell surfaces in contact with a terrestrial and Mars analog mineral environment. In parallel, analysis on the viability of the investigated organisms has provided relevant data for evaluation of the habitability of Mars, for the limits of life, and for the likelihood of an interplanetary transfer of life (theory of lithopanspermia). In this project, lichens, archaea, bacteria, cyanobacteria, snow/permafrost algae, meristematic black fungi, and bryophytes from alpine and polar habitats were embedded, grown, and cultured on a mixture of martian and lunar regolith analogs or other terrestrial minerals. The organisms and regolith analogs and terrestrial mineral mixtures were then exposed to space and to simulated Mars-like conditions by way of the EXPOSE-R2 facility. In this special issue, we present the first set of data obtained in reference to our investigation into the habitability of Mars and limits of life. This project was initiated and implemented by the BIOMEX group, an international and interdisciplinary consortium of 30 institutes in 12 countries on 3 continents. Preflight tests for sample selection, results from ground-based simulation experiments, and the space experiments themselves are presented and include a complete overview of the scientific processes required for this space experiment and postflight analysis. The presented BIOMEX concept could be scaled up to future exposure experiments on the Moon and will serve as a pretest in low Earth orbit.
format	Text
author	Vera, Jean-Pierre De Elsaesser, Andreas Alawi, Mashal Backhaus, Theresa Baqué, Mickael Billi, Daniela Böttger, Ute Berger, Thomas Bohmeier, Maria Cockell, Charles [U.V.M.]
author_facet	Vera, Jean-Pierre De Elsaesser, Andreas Alawi, Mashal Backhaus, Theresa Baqué, Mickael Billi, Daniela Böttger, Ute Berger, Thomas Bohmeier, Maria Cockell, Charles [U.V.M.]
author_sort	Vera, Jean-Pierre De
title	Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS
title_short	Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS
title_full	Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS
title_fullStr	Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS
title_full_unstemmed	Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS
title_sort	limits of life and the habitability of mars: the esa space experiment biomex on the iss
publisher	Freie Universität Berlin
publishDate	2019
url	https://dx.doi.org/10.17169/refubium-26443 https://refubium.fu-berlin.de/handle/fub188/26686
long_lat	ENVELOPE(78.450,78.450,-68.550,-68.550)
geographic	Zvezda
geographic_facet	Zvezda
genre	permafrost
genre_facet	permafrost
op_rights	https://creativecommons.org/licenses/by-nc/4.0
op_rightsnorm	CC-BY-NC
op_doi	https://doi.org/10.17169/refubium-26443
_version_	1766166818455552000

Limits of life and the habitability of Mars: The ESA space experiment BIOMEX on the ISS

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