Biosignature stability in space enables their use for life detection on Mars

Baqué, Mickael; Backhaus, Theresa; Meeßen, Joachim; Hanke, Franziska; Böttger, Ute; Ramkissoon, Nisha; Olsson-Francis, Karen; Baumgärtner, Michael; Billi, Daniela; Cassaro, Alessia; de la Torre Noetzel, Rosa; Demets, René; Edwards, Howell; Ehrenfreund, Pascale; Elsaesser, Andreas; Foing, Bernard; Foucher, Frédéric; Huwe, Björn; Joshi, Jasmin; Kozyrovska, Natalia; Lasch, Peter; Lee, Natuschka; Leuko, Stefan; Onofri, Silvano; Ott, Sieglinde; Pacelli, Claudia; Rabbow, Elke; Rothschild, Lynn; Schulze-Makuch, Dirk; Selbmann, Laura; Serrano, Paloma; Szewzyk, Ulrich; Verseux, Cyprien; Wagner, D.; Westall, Frances; Zucconi, Laura; de Vera, Jean-Pierre P.

doi:10.1126/sciadv.abn7412

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Biosignature stability in space enables their use for life detection on Mars

Baqué, M., Backhaus, T., Meeßen, J., Hanke, F., Böttger, U., Ramkissoon, N., Olsson-Francis, K., Baumgärtner, M., Billi, D., Cassaro, A., de la Torre Noetzel, R., Demets, R., Edwards, H., Ehrenfreund, P., Elsaesser, A., Foing, B., Foucher, F., Huwe, B., Joshi, J., Kozyrovska, N., Lasch, P., Lee, N., Leuko, S., Onofri, S., Ott, S., Pacelli, C., Rabbow, E., Rothschild, L., Schulze-Makuch, D., Selbmann, L., Serrano, P., Szewzyk, U., Verseux, C., Wagner, D., Westall, F., Zucconi, L., de Vera, J.-P.-P. (2022): Biosignature stability in space enables their use for life detection on Mars. - Science Advances, 8, 36.
https://doi.org/10.1126/sciadv.abn7412

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Baqué, Mickael¹, Author
Backhaus, Theresa¹, Author
Meeßen, Joachim¹, Author
Hanke, Franziska¹, Author
Böttger, Ute¹, Author
Ramkissoon, Nisha¹, Author
Olsson-Francis, Karen¹, Author
Baumgärtner, Michael¹, Author
Billi, Daniela¹, Author
Cassaro, Alessia¹, Author
de la Torre Noetzel, Rosa¹, Author
Demets, René¹, Author
Edwards, Howell¹, Author
Ehrenfreund, Pascale¹, Author
Elsaesser, Andreas¹, Author
Foing, Bernard¹, Author
Foucher, Frédéric¹, Author
Huwe, Björn¹, Author
Joshi, Jasmin¹, Author
Kozyrovska, Natalia¹, Author
Lasch, Peter¹, AuthorLee, Natuschka¹, AuthorLeuko, Stefan¹, AuthorOnofri, Silvano¹, AuthorOtt, Sieglinde¹, AuthorPacelli, Claudia¹, AuthorRabbow, Elke¹, AuthorRothschild, Lynn¹, AuthorSchulze-Makuch, Dirk², Author Selbmann, Laura¹, AuthorSerrano, Paloma², Author Szewzyk, Ulrich¹, AuthorVerseux, Cyprien¹, AuthorWagner, D.², Author Westall, Frances¹, AuthorZucconi, Laura¹, Authorde Vera, Jean-Pierre P.¹, Author more..

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1External Organizations, ou_persistent22
23.7 Geomicrobiology, 3.0 Geochemistry, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum, ou_146043

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Abstract: Two rover missions to Mars aim to detect biomolecules as a sign of extinct or extant life with, among other instruments, Raman spectrometers. However, there are many unknowns about the stability of Raman-detectable biomolecules in the martian environment, clouding the interpretation of the results. To quantify Raman-detectable biomolecule stability, we exposed seven biomolecules for 469 days to a simulated martian environment outside the International Space Station. Ultraviolet radiation (UVR) strongly changed the Raman spectra signals, but only minor change was observed when samples were shielded from UVR. These findings provide support for Mars mission operations searching for biosignatures in the subsurface. This experiment demonstrates the detectability of biomolecules by Raman spectroscopy in Mars regolith analogs after space exposure and lays the groundwork for a consolidated space-proven database of spectroscopy biosignatures in targeted environments.

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Dates: Published Online: 2022Finally published : 2022

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Identifiers: DOI: 10.1126/sciadv.abn7412
GFZPOF: p4 T5 Future Landscapes
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Title: Science Advances

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Pages: - Volume / Issue: 8 (36) Sequence Number: - Start / End Page: - Identifier: CoNE: https://gfzpublic.gfz-potsdam.de/cone/journals/resource/161027
Publisher: American Association for the Advancement of Science (AAAS)