The Rio Tinto Mars Analogue site: An extremophilic Raman spectroscopic study

Edwards, Howell G. M.; Vandenabeele, Peter; Villar, Susana E. Jorge; Carter, Elizabeth A.; Pérez, Fernando Rull; Hargreaves, Michael D.

doi:10.1016/j.saa.2006.12.080

Cited by 54 publications

(42 citation statements)

References 19 publications

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“…For detecting them in the frame of future Mars missions, the application of Raman spectroscopy was proposed [38][39][40]. In fact, it was shown that on the Earth carotenoids can unambiguously be detected in lichen encrustations [41][42][43][44].…”

Section: Discussionmentioning

confidence: 99%

Potential and limits of Raman spectroscopy for carotenoid detection in microorganisms: implications for astrobiology

Jehlička

Edwards

Osterrothová

et al. 2014

Phil. Trans. R. Soc. A.

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In this paper, it is demonstrated how Raman spectroscopy can be used to detect different carotenoids as possible biomarkers in various groups of microorganisms. The question which arose from previous studies concerns the level of unambiguity of discriminating carotenoids using common Raman microspectrometers. A series of laboratory-grown microorganisms of different taxonomic affiliation was investigated, such as halophilic heterotrophic bacteria, cyanobacteria, the anoxygenic phototrophs, the non-halophilic heterotrophs as well as eukaryotes (Ochrophyta, Rhodophyta and Chlorophyta). The data presented show that Raman spectroscopy is a suitable tool to assess the presence of carotenoids of these organisms in cultures. Comparison is made with the high-performance liquid chromatography approach of analysing pigments in extracts. Direct measurements on cultures provide fast and reliable identification of the pigments. Some of the carotenoids studied are proposed as tracers for halophiles, in contrast with others which can be considered as biomarkers of other genera. The limits of application of Raman spectroscopy are discussed for a few cases where the current Raman spectroscopic approach does not allow discriminating structurally very similar carotenoids. The database reported can be used for applications in geobiology and exobiology for the detection of pigment signals in natural settings.

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Section: Discussionmentioning

confidence: 99%

Potential and limits of Raman spectroscopy for carotenoid detection in microorganisms: implications for astrobiology

Jehlička

Edwards

Osterrothová

et al. 2014

Phil. Trans. R. Soc. A.

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“…Based on the characteristics of UV absorption by MAAs, several studies have suggested that these compounds can act as natural screens of UV radiation and should be considered photoprotectants (66,67). The Raman spectrum assigned to a mycosporine-like amino acid compound was reported for a jarosite matrix originating from Rio Tinto, Spain (68) and from hyperarid (Atacama, Chile) shallow subsurface layers (69).…”

Section: Raman Spectrometry Of Microbial Pigments-pure Culture Studiesmentioning

confidence: 99%

“…Raman microspectrometry permits the direct study of pigment type and distribution in endolithic zones in the frame of natural stony samples without sample treatment or extractions. Microbial communities inhabiting rocks from various extreme environments were studied: Antarctic habitats (82-84), volcanic rocks as well as travertines on Svalbard (Norway) (80,85) as well as halophiles from a hot desert (68,86). Raman spectroscopy revealed differences in pigment distribution in chasmolithic and endolithic colonizations of differing lithologies, including those from dolomite, gypsum, or altered orthoquartzite (83,86).…”

Section: Raman Features Of Pigments From Natural Biogeological Samplesmentioning

confidence: 99%

Raman Spectroscopy of Microbial Pigments

Jehlička

Edwards

Oren

2014

Appl Environ Microbiol

146

114

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Raman spectroscopy is a rapid nondestructive technique providing spectroscopic and structural information on both organic and inorganic molecular compounds. Extensive applications for the method in the characterization of pigments have been found. Due to the high sensitivity of Raman spectroscopy for the detection of chlorophylls, carotenoids, scytonemin, and a range of other pigments found in the microbial world, it is an excellent technique to monitor the presence of such pigments, both in pure cultures and in environmental samples. Miniaturized portable handheld instruments are available; these instruments can be used to detect pigments in microbiological samples of different types and origins under field conditions.

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“…48 Finally, in 2007 Edwards et al took a portable system to the Rio Tinto, a river rich in iron and sulfates with an acidic pH. 49 This site is widely considered an analog to the El Capitan region of the Meridiani Planum on Mars. Within the river, key biomarkers, such as carotenoids and scytonemin, and minerals, such as jarosite and gypsum, were detected.…”

Section: Targetsmentioning

confidence: 99%

“…71 Other important minerals include pyroxene, olivine, quartz, jarosite, and gypsum. 49,72,73 Ice is another very important geological sample that could hold key biomarkers and is unique in that water can exist as a solid, liquid, or gas in the atmosphere. Raman has been able to distinguish between different forms of ice with conventional Raman spectrometers 18 and in remote systems (Fig.…”

Section: Targetsmentioning

confidence: 99%

Remote Raman Spectroscopy for Planetary Exploration: A Review

et al. 2012

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In this review, we discuss the current state of standoff Raman spectroscopy as it applies to remote planetary applications, including standoff instrumentation, the technique's ability to identify biologically and geologically important analytes, and the feasibility to make standoff Raman measurements under various planetary conditions. This is not intended to be an exhaustive review of standoff Raman and many excellent papers are not mentioned. Rather it is intended to give the reader a quick review of the types of standoff Raman systems that are being developed and that might be suitable for astrospectroscopy, a look at specific analytes that are of interest for planetary applications, planetary measurement opportunities and challenges that need to be solved, and a brief discussion of the feasibility of making surface and plume planetary Raman measurements from an orbiting spacecraft.

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The Rio Tinto Mars Analogue site: An extremophilic Raman spectroscopic study

Cited by 54 publications

References 19 publications

Potential and limits of Raman spectroscopy for carotenoid detection in microorganisms: implications for astrobiology

Potential and limits of Raman spectroscopy for carotenoid detection in microorganisms: implications for astrobiology

Raman Spectroscopy of Microbial Pigments

Remote Raman Spectroscopy for Planetary Exploration: A Review

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