Subcritical Water Extractor for Mars Analog Soil Analysis

Details Subcritical Water Extractor for Mars Analog Soil Analysis Subcritical Water Extractor for Mars Analog Soil Analysis

Jun 2008

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008asbio...8..597a&link_type=abstract

Astrobiology, Volume 8, Issue 3, pp. 597-604.

Biology

4

Planetary Science, Instruments And Techniques, In Situ Instrument, Astrobiology And Extraterrestrial Materials, Mars, Subcritical Water Extraction, Atacama Desert

Scientific paper

Technologies that enable rapid and efficient extraction of biomarker compounds from various solid matrices are a critical requirement for the successful implementation of in situ chemical analysis of the martian regolith. Here, we describe a portable subcritical water extractor that mimics multiple organic solvent polarities by tuning the dielectric constant of liquid water through adjustment of temperature and pressure. Soil samples, collected from the Yungay region of the Atacama Desert (martian regolith analogue) in the summer of 2005, were used to test the instrument's performance. The total organic carbon was extracted from the samples at concentrations of 0.2 55.4 parts per million. The extraction data were compared to the total organic carbon content in the bulk soil, which was determined via a standard analytical procedure. The instrument's performance was examined over the temperature range of 25 250°C at a fixed pressure of 20.7 MPa. Under these conditions, water remains in a subcritical fluid state with a dielectric constant varying between ˜80 (at 25°C) and ˜30 (at 250°C).

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