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The discovery of liquid water-related sulfates on Mars is of great astrobiological …

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- UV Shielding Properties of Jarosite Vs. Gypsum: Astrobiological Implications for Mars

1. Cockell, C.S., 1998. The biological effects of high ultraviolet radiation on early Earth-A theoretical evaluation. J. Theor. Biol., 193: 717-729.

2. Cockell, C.S., D. Catling, W.L. Davis, R.N. Kepner, P.C. Lee, K. Snook and C.P. McKay, 2000. The ultraviolet environment of Mars: Biological implications past, present and future. Icarus, 146: 343-359.

3. Gomez, F., A. Grau, L. Vazquez and R. Amils, 2003. UV radiation effects over microorganisms and study of protective agents. Proc. of the III European Workshop on Exo-Astrobiology, Mars, The Search for Life, Madrid, Spain, 18-20 November 2003, pp: 21-26.

4. Zorzano, M.P., A.M. Mancho and L. Vázquez, 2005. Numerical Integration of the Discrete-Ordinate Radiative Transfer Equation in Strongly Non Homogeneous Media" Applied Mathematics and Computation, 164: 263-274.

5. Friedmann, E.I., 1982. Endolithic microorganisms in the antarctic cold desert. Science, 215: 1045-1053.

6. McKay, C.P., 1993. Relevance of Antarctic microbial ecosystems to exobiology. In Antarctic Microbiology, Wiley-Liss, New York, Friedmann E.I., (Ed.). pp: 593-601.

7. Wynn-Williams, D.D. and H.G.M. Edwards, 2000. Laser Raman microspectroscopy of surface microbial communities and protective biomolecules in situ: Overview of terrestrial Antarctic habitats and Mars analogs. Icarus, 144: 486-503.

8. Villar, S.E., H.G. Edwards and C.S. Cockell, 2005. Raman spectroscopy of endoliths from Antarctic cold desert environments. Analyst., 130-132: 156-162.

9. Martinez-Frias, J., G. Amaral and L. Vázquez, 2006 Astrobiological significance of minerals on Mars surface environment. Reviews in Environmental Science and Bio/technology, 5: 219-231.

10. Martinez-Frias, J., E. Lázaro and A. Esteve, 2007. Geomarkers versus Biomarkers: Paleoenvironmental and astrobiological significance. AMBIO: J. Human Environ., 36-4, (In Press).

11. Squyres, S.W., J.P. Grotzinger, R.E. Arvidson, J.F. Bell III, W. Calvin, P.R. Christensen, B.C. Clark, J.A. Crisp, W.H. Farrand, K.E. Herkenhoff, J.R. Johnson, G. Klingelhöfer, A.H. Knoll, S.M. McLennan, H.Y. McSween, R.V. Morris, Jr.J.W. Rice, R. Rieder and L.A. Soderblom, 2004. In situ evidence for an ancient aqueous environment at Meridiani Planum, Mars, Science, 306: 1709-1714.

12. Klingelhöfer, G., R.V. Morris, B. Bernhardt, C. Schröder, D.S.J.R. Rodionov, P.A. de Souza, A. Yen, R. Gellert, E.N. Evlanov, B. Zubkov, J. Foh, U. Bonnes, E. Kankeleit, P. Gütlich, D.W. Ming, F. Renz, T. Wdowiak, S.W. Squyres and R.E. Arvidson, 2004.

13. Jarosite and Hematite at Meridiani Planum from Opportunity's Mössbauer Spectrometer Science, Langevin, Y., F. Poulet, J.P. Bibring and B. Gondet, 2005. Sulfates in the North Polar Region of 307-5715, 1584-1586.

14. López-Archilla, A.I., I. Marín and R. Amils, 2001. Microbial Community Composition and Ecology of Spain. Microb. Ecol., 41: 20-35.

15. Gonzalez-Toril, E., E. Llobet-Brossa, E.O. Casamayor, R. Amann and R. Amils, 2003. Microbial Ecology of an Extreme Acidic Environment, the Tinto River. Appl. Environ. Microbiol., 69: 4853-4865.

16. Amaral Zettler, L.A., M.A. Messerli, A.D. Laatsch, P.J.S. Smith and M.L. Sogin, 2003 From Genes to Biol. Bull., 204: 205-209.

17. Martinez-Fr2as, J., R. Lunar and J.A. Rodriguez Losada, 2001. Hydrothermal mineralization in SE Spain as possible volcanics-related metallogenetic model for the early Mars, 2nd Astrobiology Minisymposium, CAB (CSIC/INTA), associated to NASA Astrobiology Institute, Madrid, Spain (abstract).

18. Martinez-Frias, J., R. Lunar, J. Mangas, A. Delgado, G. Barragan, E. Sanz-Rubio, E. Diaz, R. Benito and T. Boyd, 2001. Evaporitic and hydrothermal gypsum from SE iberia: Geology, geochemistry and implications for searching for life on Mars, Geological Society of America (GSA) Annual Meeting, Boston, Massachussets, November 5-8 (Abstract).

19. Martínez-Frías, J., R. Lunar, J.A. Rodríguez-Losada and A. Delgado, 2004. The volcanism-related multistage hydrothermal system of El Jaroso (SE Spain): Implications for the exploration of Mars. Earth, Planets Space 56: 5-8.

20. Rull, F., J. Martinez-Frias and J. Medina, 2005. Surface mineral analysis from two possible Martian analogs (Rio Tinto and Jaroso Ravine, Spain) using micro, macro-and remote laser Raman spectroscopy. European Geosciences Union, Geophysical Research Abstracts, Vol. 7, 09114.

21. Martinez-Frias, J., A. Delgado-Huertas, F. García- Moreno, E. Reyes, R. Lunar and F. Rull, 2006. Oxygen and carbon isotopic signatures of extinct low-temperature hydrothermal chimneys in the Jaroso Mars analog. Planetary and Space Science (In Press).

22. Frost, R.L., M.L. Weier, J.T. Kloprogge, F. Rull and J. Martinez-Frias, 2005. Raman spectroscopy of halotrichite from Jaroso, Spain Spectrochimica Acta Part A Molecular and Biomolecular Spectroscopy, 62: 1-3: 166-180.

23. Frost, R.L., D.L. Wain, B.J. Reddy, W. Martens, J. Martinez-Frias and F. Rull, 2006. Sulphate efflorescent minerals from the El Jaroso ravine, Sierra Almagrera, Spain-a scanning electron microscopic and infrared spectroscopic study. J. Near Infrared Spectroscopy, 14: 167-178.

24. Frost, R.L., M. Weiera, J. Martinez-Frias, F. Rull and B. Jagannadha Reddya, 2007. Sulphate efflorescent minerals from El Jaroso Ravine, Sierra Almagrera - An SEM and Raman spectroscopic study, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 66: 177-183.

25. Amar de la Torre, R., 1852. Descripcion de los minerales, algunos de ellos nuevos, que constituyen el fil´on del Barranco Jaroso de Sierra Almagrera, por el caballero profesor el doctor Augusto Breithaupt, de Freiberg, Revista Minera, 3: 745-754.

26. Martinez-Frias, J., 1999. Mining vs. Geological Heritage: The Cuevas del Almanzora Natural Area (SE Spain), AMBIO: A Journal of the Human Environment, 28-2: 204-207.

27. Martin, J.M. and J.C. Braga, 1994. Messinian events in the Sorbas Basin in southeastern Spain and their implications in the recent history of the Mediterranean. Sedimentary Geol., 90: 257-268.

28. Ridig R., J.C. Braga, H.M. Martin and I.M. Sánchez- Almazo, 1998. Mediterranean Messinian salinity crisis: Constraints from a coeval marginal basin, Sorbas, Southeastern Spain, Marine Geology, 146: 1-20.

29. Krijgsman, W., H.J. Hilgen, I. Raffi, F.J. Sierro and D.S. Wilson, 1999. Chronology, causes and progression of the Messinian salinity crisis. Nature, London, 400: 652-655.

30. Olsen, J.M. and B.K. Pierson, 1986. Photosynthesis 3.5 thousand million years ago. Photosynthesis Res., 9: 251-259.

31. Pierson, B.K., H.K. Mitchell and A.L. Ruff-Roberts, 1993. Chloroflexus aurantiacusand ultraviolet radiation: Implications for archean shallow-water stromatolites. Origins Life Evol. Biosphere, 23: 243-260.

32. Kumar, A., M.B. Tyagi, G. Srinivas, N. Singh, H.D. Kumar, R.P. Sinha and D.-P. Haeder, 1996. UVB shielding and the role of FeCl3 and certain cyanobacterial pigments. Photochem. Photobiol., 63: 321-325.

33. Sagan, C. and J.B. Pollack, 1974. Differential transmission of sunlight on Mars: Biological implications. Icarus 21: 490-495.

34. Allen, C.C., K.M. Jager, R.V. Morris, D.J. Lindstrom, M.M. Lindstrom and J.P. Lockwood, 1998. Martian Soil Simulant Available for Scientific, Educational Study. EOS, 79: 405.

35. Phoenix, V.R., K.O. Konhauser, D.G. Adams and S.H. Bottrell, 2001. The role of biomineralization as an ultraviolet shield: Implications for the Archean. Geol., 29: 823-826.

36. Frías, 2006. Near-UV transmítanse of basalt dust as an analog of the Martian regolith: Implications for sensor calibration and astrobiology. Sensors, 6: 688-696.

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