In Situ Radiometric and Exposure Age Dating of the Martian Surface

In Situ Radiometric and Exposure Age Dating of the Martian Surface

We determined radiogenic and cosmogenic noble gases in a mudstone on the floor of Gale Crater. A K-Ar age of 4.21 ± 0.35 billion years represents a mixture of detrital and authigenic components and confirms the expected antiquity of rocks comprising the crater rim. Cosmic-ray-produced (3)He, (21)Ne,...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2014-01, Vol.343 (6169), p.389-389
Hauptverfasser: Farley, K. A., Malespin, C., Mahaffy, P., Grotzinger, J. P., Vasconcelos, P. M., Milliken, R. E., Malin, M., Edgett, K. S., Pavlov, A. A., Hurowitz, J. A., Grant, J. A., Miller, H. B., Arvidson, R., Beegle, L., Calef, F., Conrad, P. G., Dietrich, W. E., Eigenbrode, J., Gellert, R., Gupta, S., Hamilton, V., Hassler, D. M., Lewis, K. W., McLennan, S. M., Ming, D., Navarro-González, R., Schwenzer, S. P., Steele, A., Stolper, E. M., Sumner, D. Y., Vaniman, D., Vasavada, A., Williford, K., Wimmer-Schweingruber, R. F.
Format: Artikel
Sprache:eng
Schlagworte:
Biomarkers - analysis
Biomarkers - chemistry
Cosmic background radiation
Cosmic Radiation
Earth Sciences
Evolution, Planetary
Exobiology
Extraterrestrial Environment - chemistry
Geologic Sediments
Isotopes - analysis
Isotopes - chemistry
Mars
Noble Gases - analysis
Organic Chemicals - analysis
Organic Chemicals - chemistry
Radiation Dosage
Radiometric Dating
RESEARCH ARTICLE ABSTRACTS
Rocks
Sciences of the Universe
Space exploration
Surface Properties
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Zusammenfassung:We determined radiogenic and cosmogenic noble gases in a mudstone on the floor of Gale Crater. A K-Ar age of 4.21 ± 0.35 billion years represents a mixture of detrital and authigenic components and confirms the expected antiquity of rocks comprising the crater rim. Cosmic-ray-produced (3)He, (21)Ne, and (36)Ar yield concordant surface exposure ages of 78 ± 30 million years. Surface exposure occurred mainly in the present geomorphic setting rather than during primary erosion and transport. Our observations are consistent with mudstone deposition shortly after the Gale impact or possibly in a later event of rapid erosion and deposition. The mudstone remained buried until recent exposure by wind-driven scarp retreat. Sedimentary rocks exposed by this mechanism may thus offer the best potential for organic biomarker preservation against destruction by cosmic radiation.
ISSN:0036-8075
1095-9203
1095-9203
DOI:10.1126/science.1247166