Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway
Abstract Background A profile across 8 layers from a fossil travertine terrace from a low temperature geothermal spring located in Svalbard, Norway has been studied using both Raman spectroscopy and SEM (Scanning Electron Microscopy) techniques to identify minerals and organic life signals. Results...
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BioMed Central Ltd.
2007
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ftbiomed:oai:biomedcentral.com:1467-4866-8-8 2023-05-15T18:29:44+02:00 Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway Jorge-Villar, Susana E Benning, Liane G Edwards, Howell GM AMASE team 2007-08-15 http://www.geochemicaltransactions.com/content/8/1/8 en eng BioMed Central Ltd. http://www.geochemicaltransactions.com/content/8/1/8 Copyright 2007 Villar et al; licensee BioMed Central Ltd. Research article 2007 ftbiomed 2007-12-22T00:10:49Z Abstract Background A profile across 8 layers from a fossil travertine terrace from a low temperature geothermal spring located in Svalbard, Norway has been studied using both Raman spectroscopy and SEM (Scanning Electron Microscopy) techniques to identify minerals and organic life signals. Results Calcite, anatase, quartz, haematite, magnetite and graphite as well as scytonemin, three different carotenoids, chlorophyll and a chlorophyll-like compound were identified as geo- and biosignatures respectively, using 785 and/or 514 nm Raman laser excitation wavelengths. No morphological biosignatures representing remnant microbial signals were detected by high-resolution imaging, although spectral analyses indicated the presence of organics. In contrast, in all layers, Raman spectra identified a series of different organic pigments indicating little to no degradation or change of the organic signatures and thus indicating the preservation of fossil biomarker compounds throughout the life time of the springs despite the lack of remnant morphological indicators. Conclusion With a view towards planetary exploration we discuss the implications of the differences in Raman band intensities observed when spectra were collected with the different laser excitations. We show that these differences, as well as the different detection capability of the 785 and 514 nm laser, could lead to ambiguous compound identification. We show that the identification of bio and geosignatures, as well as fossil organic pigments, using Raman spectroscopy is possible. These results are relevant since both lasers have been considered for miniaturized Raman spectrometers for planetary exploration. Article in Journal/Newspaper Svalbard BioMed Central Norway Svalbard |
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Open Polar |
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BioMed Central |
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ftbiomed |
| language |
English |
| description |
Abstract Background A profile across 8 layers from a fossil travertine terrace from a low temperature geothermal spring located in Svalbard, Norway has been studied using both Raman spectroscopy and SEM (Scanning Electron Microscopy) techniques to identify minerals and organic life signals. Results Calcite, anatase, quartz, haematite, magnetite and graphite as well as scytonemin, three different carotenoids, chlorophyll and a chlorophyll-like compound were identified as geo- and biosignatures respectively, using 785 and/or 514 nm Raman laser excitation wavelengths. No morphological biosignatures representing remnant microbial signals were detected by high-resolution imaging, although spectral analyses indicated the presence of organics. In contrast, in all layers, Raman spectra identified a series of different organic pigments indicating little to no degradation or change of the organic signatures and thus indicating the preservation of fossil biomarker compounds throughout the life time of the springs despite the lack of remnant morphological indicators. Conclusion With a view towards planetary exploration we discuss the implications of the differences in Raman band intensities observed when spectra were collected with the different laser excitations. We show that these differences, as well as the different detection capability of the 785 and 514 nm laser, could lead to ambiguous compound identification. We show that the identification of bio and geosignatures, as well as fossil organic pigments, using Raman spectroscopy is possible. These results are relevant since both lasers have been considered for miniaturized Raman spectrometers for planetary exploration. |
| format |
Article in Journal/Newspaper |
| author |
Jorge-Villar, Susana E Benning, Liane G Edwards, Howell GM AMASE team |
| spellingShingle |
Jorge-Villar, Susana E Benning, Liane G Edwards, Howell GM AMASE team Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway |
| author_facet |
Jorge-Villar, Susana E Benning, Liane G Edwards, Howell GM AMASE team |
| author_sort |
Jorge-Villar, Susana E |
| title |
Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway |
| title_short |
Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway |
| title_full |
Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway |
| title_fullStr |
Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway |
| title_full_unstemmed |
Raman and SEM analysis of a biocolonised hot spring travertine terrace in Svalbard, Norway |
| title_sort |
raman and sem analysis of a biocolonised hot spring travertine terrace in svalbard, norway |
| publisher |
BioMed Central Ltd. |
| publishDate |
2007 |
| url |
http://www.geochemicaltransactions.com/content/8/1/8 |
| geographic |
Norway Svalbard |
| geographic_facet |
Norway Svalbard |
| genre |
Svalbard |
| genre_facet |
Svalbard |
| op_relation |
http://www.geochemicaltransactions.com/content/8/1/8 |
| op_rights |
Copyright 2007 Villar et al; licensee BioMed Central Ltd. |
| _version_ |
1766213083936587776 |