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The Search for Life on Titan By: Charlie Congleton

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1 The Search for Life on Titan By: Charlie Congleton http://www.lpi.usra.edu/resources/outerp/titan.gif

2 What do we need for LIFE? A fluid medium for transport of solutes A consistent energy source Environmental constituents and conditions compatible with polymeric chemistry on Titan’s surface {Irwin and Shilze-Makuch, 2001}

3 Titan Overview Largest moon of Saturn Surface temperature ~95 K Atmospheric pressure ~1.5 bars Nitrogen rich atmosphere (90% N,~5% CH 4 ) “Dirty” water-ice surface (NH 4, C 2 H 2, silicates) Ammonia-water oceans at depth? Hydrocarbon haze and transient clouds CH 4 precipitation and fluvial processes Cryovolcanism

4 Shulze-Makuch and Grinspoon, 2005

5 What do we need for LIFE? A fluid medium for transport of solutes –CH 4, NH 4 + H 2 O A consistent energy source –UV radiation, high energy molecules from photochemistry, endogenic geology, lightning Environmental constituents and conditions compatible with polymeric chemistry on Titan’s surface –Likely due to photolysis of CH 4 and N into tholins in atmosphere {Irwin and Shilze-Makuch, 2001}

6 Tholins Form from photolysis of N and CH 4 in Titan’s upper atmosphere Could fall and make their way into NH 4 -H 2 O Breakdown into amino acids when they dissolve Cause reddish brown tint in atmosphere http:// www.astronomy.com/asy/default.aspx?c=a&id=2057

7 Cassini-Huygens Mission http://spacespin.org/article.php/landing-on-titan-movies

8 Carbon Cycling How is the CH 4 getting back into the atmosphere? –Methanogens [C2H2 + 3H2 → 2CH4] –Methane clathrates –Cryvolcanism Atmosphere is enriched with heavy nitrogen relative to heavy methane isotopes –Why? Biological? Geological? http://www.abc.net.au/science/news/img/environment/methanogen230904.jpg Shulze-Makuch and Grinspoon, 2005

9 Earth Analogue? Trainer et al., 2004 suggest that Titan’s haze may be similar to the one that may have covered prebiotic Earth –Greenhouse (CH 4 and CO 2 on Earth) –Formation of organic molecules –Methanogenic organisms –Food? http://www.tivas.org.uk/solsys/images/titan_atmos-haze.jpg

10 What To Look For? Could be much larger than water-based life Could metabolize slower Could use different biomolecules Might not use redox reactions Could be something weird we’ve never seen before Everything!

11 http://www.cumminghome2.com/moxie/ae/tvfilm/moonlight-movies-at-eagle.shtml http://www2.truman.edu/~ramberg/teaching/jins362/jins362.html http://www.allposters.com/-sp/Face-of-an-Extraterrestrial-Alien-Posters_i1211975_.htm

12 http:// www.greenfacts.org/glossary/abc/bacteria.htm

13 http:// www.imagequest3d.com/photos/deepseafish/index.htm

14 References Atreya, S. K., E. Y. Adams, et al. (2006). "Titan's methane cycle." Planetary and Space Science 54(12): 1177-1187. Collins, G. C. (2005). "Relative rates of fluvial bedrock incision on Titan and Earth." Geophys. Res. Lett. 32(L22202). Fischer, G., T. Tokano, et al. (2004). "Energy dissipation of possible Titan lightning strokes." Planetary and Space Science 52(5-6): 447-458. Hueso, R. and A. Sánchez-Lavega (2006). "Methane storms on Saturn's moon Titan." Nature 442(7101): 428-431. Irwin, L. N. and D. Schulze-Makuch (2001). "Assessing the Plausibility of Life on Other Worlds." Astrobiology 1(2): 143-160. Lunine, J. I., Y. L. Yung, et al. (1999). "On the volatile inventory of Titan from isotopic abundances in nitrogen and methane." Planetary and Space Science 47(10-11): 1291-1303. Schulze-Makuch, D. and D. H. Grinspoon (2005). Biologically Enhanced Energy and Carbon Cycling on Titan? Astrobiology 5: 560-567. Sotin, C., R. Jaumann, et al. (2005). "Release of volatiles from a possible cryovolcano from near-infrared imaging of Titan." Nature 435(7043): 786-789. Stofan, E. R., J. I. Lunine, et al. "Mapping of Titan: Results from the first Titan radar passes." Icarus In Press, Corrected Proof. Tobie, G., J. I. Lunine, et al. (2006). "Episodic outgassing as the origin of atmospheric methane on Titan." Nature 440(7080): 61-64. Tokano, T., C. P. McKay, et al. (2006). "Methane drizzle on Titan." Nature 442(7101): 432-435. Tomasko, M. G., B. Archinal, et al. (2005). "Rain, winds and haze during the Huygens probe's descent to Titan's surface." Nature 438(7069): 765-778. Trainer, M. G., A. A. Pavlov, et al. (2004). Haze Aerosols in the Atmosphere of Early Earth: Manna from Heaven. Astrobiology 4: 409-419.

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