Analysis and survival of amino acids in Martian regolith analogs
Analysis and survival of amino acids in Martian regolith analogs
We have investigated the native amino acid composition of two analogs of Martian soil, JSC Mars-1 and Salten Skov. A Mars simulation chamber has been built and used to expose samples of these analogs to temperature and lighting conditions similar to those found at low latitudes on the Martian surface. The effects of the simulated conditions have been examined using high-performance liquid chromatography (HPLC). Exposure to energetic ultraviolet (UV) light in vacuum appears to cause a modest increase in the concentration of certain amino acids within the materials, which is interpreted as resulting from the degradation of microorganisms. The influence of low temperatures shows that the accretion of condensed water on the soils leads to the destruction of amino acids, supporting the idea that reactive chemical processes involving H2O are at work within the Martian soil. We discuss the influence of UV radiation, low temperatures, and gaseous CO2 on the intrinsic amino acid composition of Martian soil analogs and describe, with the help of a simple model, how these studies fit within the framework of life detection on Mars and the practical tasks of choosing and using Martian regolith analogs in planetary research.
mars, amino acid, planetary protection
391-405
Garry, James R.C.
ee61f083-973f-4302-a08b-0b231d746329
Loes ten Kate, Inge
83c1bb02-7aec-4abe-ba01-83ac9b3828af
Martins, Zita
5ac399f2-d8bb-4ef7-999b-ead3b89e22d6
Nørnberg, Per
273dcea3-8caa-4d7d-807f-e5d093f645f8
Ehrenfreund, Pascale
e432e8da-6863-4212-8343-2d30fa1cd34b
2006
Garry, James R.C.
ee61f083-973f-4302-a08b-0b231d746329
Loes ten Kate, Inge
83c1bb02-7aec-4abe-ba01-83ac9b3828af
Martins, Zita
5ac399f2-d8bb-4ef7-999b-ead3b89e22d6
Nørnberg, Per
273dcea3-8caa-4d7d-807f-e5d093f645f8
Ehrenfreund, Pascale
e432e8da-6863-4212-8343-2d30fa1cd34b
Garry, James R.C., Loes ten Kate, Inge, Martins, Zita, Nørnberg, Per and Ehrenfreund, Pascale
(2006)
Analysis and survival of amino acids in Martian regolith analogs.
Meteoritics & Planetary Science, 41 (3), .
Abstract
We have investigated the native amino acid composition of two analogs of Martian soil, JSC Mars-1 and Salten Skov. A Mars simulation chamber has been built and used to expose samples of these analogs to temperature and lighting conditions similar to those found at low latitudes on the Martian surface. The effects of the simulated conditions have been examined using high-performance liquid chromatography (HPLC). Exposure to energetic ultraviolet (UV) light in vacuum appears to cause a modest increase in the concentration of certain amino acids within the materials, which is interpreted as resulting from the degradation of microorganisms. The influence of low temperatures shows that the accretion of condensed water on the soils leads to the destruction of amino acids, supporting the idea that reactive chemical processes involving H2O are at work within the Martian soil. We discuss the influence of UV radiation, low temperatures, and gaseous CO2 on the intrinsic amino acid composition of Martian soil analogs and describe, with the help of a simple model, how these studies fit within the framework of life detection on Mars and the practical tasks of choosing and using Martian regolith analogs in planetary research.
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Published date: 2006
Keywords:
mars, amino acid, planetary protection
Identifiers
Local EPrints ID: 45913
URI: http://eprints.soton.ac.uk/id/eprint/45913
PURE UUID: 21d06abe-967b-4124-8434-27af17d4bbb2
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Date deposited: 25 Apr 2007
Last modified: 08 Jan 2022 18:59
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Contributors
Author:
James R.C. Garry
Author:
Inge Loes ten Kate
Author:
Zita Martins
Author:
Per Nørnberg
Author:
Pascale Ehrenfreund
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