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15.5: Life in the Universe (Exercises)

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    For Further Exploration



    Chyba, C. “The New Search for Life in the Universe.” Astronomy (May 2010): 34. An overview of astrobiology and the search for life out there in general, with a brief discussion of the search for intelligence.

    Dorminey, B. “A New Way to Search for Life in Space.” Astronomy (June 2014): 44. Finding evidence of photosynthesis on other worlds.

    McKay, C., & Garcia, V. “How to Search for Life on Mars.” Scientific American (June 2014): 44–49. Experiments future probes could perform.

    Reed, N. “Why We Haven’t Found Another Earth Yet.” Astronomy (February 2016): 25. On the search for smaller earthlike planets in their star’s habitable zones, and where we stand.

    Shapiro, R. “A Simpler Origin of Life.” Scientific American (June 2007): 46. New ideas about what kind of molecules formed first so life could begin.

    Simpson, S. “Questioning the Oldest Signs of Life.” Scientific American (April 2003): 70. On the difficulty of interpreting biosignatures in rocks and the implications for the search for life on other worlds.


    Chandler, D. “The New Search for Alien Intelligence.” Astronomy (September 2013): 28. Review of various ways of finding other civilizations out there, not just radio wave searches.

    Crawford, I. “Where Are They?” Scientific American (July 2000): 38. On the Fermi paradox and its resolutions, and on galactic colonization models.

    Folger, T. “Contact: The Day After.” Scientific American (January 2011): 40–45. Journalist reports on efforts to prepare for ET signals; protocols and plans for interpreting messages; and discussions of active SETI.

    Kuhn, J., et al. “How to Find ET with Infrared Light.” Astronomy (June 2013): 30. On tracking alien civilizations by the heat they put out.

    Lubick, N. “An Ear to the Stars.” Scientific American (November 2002): 42. Profile of SETI researcher Jill Tarter.

    Nadis, S. “How Many Civilizations Lurk in the Cosmos?” Astronomy (April 2010): 24. New estimates for the terms in the Drake equation.

    Shostak, S. “Closing in on E.T.” Sky & Telescope (November 2010): 22. Nice summary of current and proposed efforts to search for intelligent life out there.



    Astrobiology Web: A news site with good information and lots of material.

    Exploring Life’s Origins: A website for the Exploring Origins Project, part of the multimedia exhibit of the Boston Museum of Science. Explore the origin of life on Earth with an interactive timeline, gain a deeper knowledge of the role of RNA, “build” a cell, and explore links to learn more about astrobiology and other related information.

    History of Astrobiology: By Marc Kaufman, on the NASA Astrobiology site.

    Life, Here and Beyond: By Marc Kaufman, on the NASA Astrobiology site.


    Berkeley SETI Research Center: The University of California group has received a $100 million grant from a Russian-American billionaire to begin the Breakthrough: Listen project, a major step forward in the number of stars and number of radio channels being searched.

    Planetary Society: This advocacy group for exploration has several pages devoted to the search for life.

    SETI Institute: A key organization in the search for life in the universe; the institute’s website is full of information and videos about both astrobiology and SETI.

    SETI: Sky & Telescope magazine offers good articles on this topic.



    Copernicus Complex: Are We Special in the Cosmos?: A video of a popular-level talk by Caleb Scharf of Columbia University (1:18:54).

    Life at the Edge: Life in Extreme Environments on Earth and the Search for Life in the Universe: A video of a 2009 nontechnical lecture by Lynn Rothschild of NASA Ames Research Center (1:31:21).

    Saturn’s Moon Titan: A World with Rivers, Lakes, and Possibly Even Life: A video of a 2011 talk by Chris McKay of NASA Ames Research Center (1:23:33).


    Allen Telescope Array: The Newest Pitchfork for Exploring the Cosmic Haystack: A 2013 popular-level lecture by Jill Tarter of the SETI Institute (1:45:55).

    Confessions of an Alien Hunter: 2009 interview with Seth Shostak on FORA TV (36:27).

    Search for Extra-Terrestrial Intelligence: Necessarily a Long-Term Strategy: 2004 talk by Jill Tarter at the Long Now Foundation (1:21:13).

    Search for Intelligent Life Among the Stars: New Strategies: A 2010 nontechnical talk by Seth Shostak of the SETI Institute (1:29:58).

    Review Questions

    1. What is the Copernican principle? Make a list of scientific discoveries that confirm it.
    2. Where in the solar system (and beyond) have scientists found evidence of organic molecules?
    3. Give a short history of the atoms that are now in your little finger, going back to the beginning of the universe.
    4. What is a biomarker? Give some possible examples of biomarkers we might look for beyond the solar system.
    5. Why are Mars and Europa the top targets for the study of astrobiology?
    6. Why is traveling between the stars (by creatures like us) difficult?
    7. What are the advantages to using radio waves for communication between civilizations that live around different stars? List as many as you can.
    8. What is the “cosmic haystack problem”? List as many of its components as you can think of.
    9. What is a habitable zone?
    10. Why is the simultaneous detection of methane and oxygen in an atmosphere a good indication of the existence of a biosphere on that planet?
    11. What are two characteristic properties of life that distinguish it from nonliving things?
    12. What are the three requirements that scientists believe an environment needs to supply life with in order to be considered habitable?
    13. Can you name five environmental conditions that, in their extremes, microbial life has been challenged by and has learned to survive on Earth?

    Thought Questions

    1. Would a human have been possible during the first generation of stars that formed right after the Big Bang? Why or why not?
    2. If we do find life on Mars, what might be some ways to check whether it formed separately from Earth life, or whether exchanges of material between the two planets meant that the two forms of life have a common origin?
    3. What kind of evidence do you think would convince astronomers that an extraterrestrial spacecraft has landed on Earth?
    4. What are some reasons that more advanced civilizations might want to send out messages to other star systems?
    5. What are some answers to the Fermi paradox? Can you think of some that are not discussed in this chapter?
    6. Why is there so little evidence of Earth’s earliest history and therefore the period when life first began on our planet?
    7. Why was the development of photosynthesis a major milestone in the evolution of life?
    8. Does all life on Earth require sunshine?
    9. Why is life unlikely to be found on the surface of Mars today?
    10. In this chapter, we identify these characteristic properties of life: life extracts energy from its environment, and has a means of encoding and replicating information in order to make faithful copies of itself. Does this definition fully capture what we think of as “life”? How might our definition be biased by our terrestrial environment?
    11. Given that no sunlight can penetrate Europa’s ice shell, what would be the type of energy that could make some form of europan life possible?
    12. Why is Saturn’s moon Enceladus such an exciting place to send a mission?
    13. In addition to an atmosphere dominated by nitrogen, how else is Saturn’s moon Titan similar to Earth?
    14. How can a planet’s atmosphere affect the width of the habitable zone in its planetary system?
    15. Why are we limited to finding life on planets orbiting other stars to situations where the biosphere has created planet-scale changes?


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