Identifying elements in rocks from the Dry Valleys desert (Antarctica) by ion beam proton induced X-ray emission

Identifying elements in rocks from the Dry Valleys desert (Antarctica) by ion beam proton induced X-ray emission

In some zones of Antarctica’s cold and dry desert, the extinction of cryptoendolithic microorganisms leaves behind inorganic traces of microbial life. The extinction of these microorganisms is considered to be the best terrestrial analogue of the disappearance of possible life on early Mars. In the present study, sandstone rock samples from several sites of the Dry Valleys known to harbour endolithic microorganisms, as well as samples with microbial fossils, were analysed by proton induced X-ray emission (PIXE). Our findings suggest significant differences in major element concentrations among the different zones within the same sample. In some sample fractions, these differences could be considered as traces of the microbial origin. However, other samples reveal contamination produced by allochthonous minerals of abiogenetic origin.

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Bibliographic Details
Main Authors: Wierzchos, Jacek, Ascaso, Carmen, Ager, F. J., García-Orellana, Isabel, Carmona, Asunción, Respaldiza, M. A.
Format: artículo biblioteca
Language:English
Published: Elsevier 2006
Subjects:Antarctica, Biomarkers, Dry Valleys, Endoliths, Fossils, PIXE,
Online Access:http://hdl.handle.net/10261/33652
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Summary:In some zones of Antarctica’s cold and dry desert, the extinction of cryptoendolithic microorganisms leaves behind inorganic traces of microbial life. The extinction of these microorganisms is considered to be the best terrestrial analogue of the disappearance of possible life on early Mars. In the present study, sandstone rock samples from several sites of the Dry Valleys known to harbour endolithic microorganisms, as well as samples with microbial fossils, were analysed by proton induced X-ray emission (PIXE). Our findings suggest significant differences in major element concentrations among the different zones within the same sample. In some sample fractions, these differences could be considered as traces of the microbial origin. However, other samples reveal contamination produced by allochthonous minerals of abiogenetic origin.

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