1. Astronomy190 - Topics in Astronomy Astronomy and Astrobiology Lecture 9 : Life’s Requirements Ty Robinson

2. Questions of the Day What does an environment need to provide to be habitable? Why are astrobiologists so hung up on liquid water as being necessary for life? What is a habitable planet, and what factors affect whether or not a planet will be habitable?

3. …for what can more concern us than to know how this world which we inhabit is made; and whether there be any other worlds like it, which are also inhabited as this is? Bernard le Bovier de Fontenelle, Conversations on the Plurality of Worlds, 1686.

4. What Is a Habitable Environment? an environment which can support life it does not HAVE to have life What Is a Habitable Planet? a planet which can support life it does not HAVE to have life Note: An Extrasolar Habitable Planet needs to have a habitable surface environment.

5. Questions? Why must an extrasolar habitable planet have a habitable surface environment? subsurface environments are too dangerous for life life is usually found at the surface of a world liquids can only exists on a world’s surface remote sensing of extrasolar planets is limited to studying surfaces and atmospheres

6. What Does a Habitable Environment Provide? Building Blocks –The environment must have a source of molecules (including carbon) from which to build living cells Energy –The environment must have a source of energy to fuel metabolism (photo or chemo) Liquid –The environment must have a liquid medium to transport molecules needed for life.

7. Of the three things provided by a habitable environment, which one is likely to be rarest in the Universe?

8. A Liquid life (metabolism) requires a liquid that can: –dissolve organic molecules and salts, making them available for chemical reactions within cells –allow for transport of chemicals in and out of the cells –engage in metabolic reactions e.g. water molecules are necessary for reactions that allow for energy storage and release within the cell

9. Water’s Many Advantages

10. liquid over a large temperature range temperatures at which it is liquid are high –increases chemical reaction rates water ice is less dense that liquid water –frozen water floats, insulating the liquid water beneath it water is a polar molecule –molecules and salts with charge separation dissolve easily –forms hydrogen bonds, which are easily made and broken, so are absolutely crucial to life’s biochemistry (DNA uses H bonding). It’s the second most common molecule in the Universe!!

11. Water, Water, Everywhere….

12. Questions? Why are the mid-latitude oceans so devoid of life? temperatures are too high these regions lack an energy source these regions lack nutrients humans have over-fished these regions

13. There are very few natural environments on Earth where life is absent.

14. dividing bacterium Transmitted light 10 µm (Junge et al., 2001) –15°C Courtesy Jody Deming

15. Transmitted light (no stain) Epifluorescent light (DNA stain) (Junge et al., 2001) –15°C diatoms bacteria Courtesy Jody Deming

16. What Factors Affect Planetary Surface Habitability? Parent star – lifetime, UV radiation. Planet’s orbital parameters – distance, eccentricity Planetary mass – tectonics, atmosphere, magnetic field Initial planetary composition Atmospheric composition (albedo, greenhouse) UV shielding Dynamical stability of the planetary system Impacts Biology (CH 4, rise of O 2,albedo)

17. Parent Stars

18. to be a suitable “parent” a star must –live long enough for planets to form and life to evolve stars 1.5M  (O,B,A) age too quickly –be sufficiently “stable” stars older than 1 Gyr preferred –have high enough metallicity and/or mass to form terrestrial planets. habitable planets are more likely around F, G and K and M stars

19. The Habitable Zone “The region around a star in which an Earth-like planet could potentially maintain liquid water at its surface” (0.93-1.37AU for our Solar System) H2OH2OCO 2

20. CAVEAT: Finding a world in the habitable zone DOES NOT MEAN THAT THE PLANET IS HABITABLE!

21. Planetary Mass sufficient planetary mass (> 0.3 M Earth ) enables –generation of a global magnetic field prevents atmospheric stripping by the solar wind –generation and maintenance of plate tectonics active volcanism can replenish atmospheric gases like CO 2 over geologic time plate tectonics is a crucial component of the carbon dioxide cycle which stabilizes the Earth’s surface temperature on long time scales.

22. Planetary Atmosphere atmospheric pressure is required to prevent the loss of an ocean atmospheres provide surface UV shields atmospheres provide buffers against large temperature swings across the planet, and over time greenhouse warming provided by atmospheres can raise planetary surface temperature into a habitable range

23. Dynamical Stability the presence of a large Jovian planet in the outer solar system can act as a vacuum cleaner, to remove debris left over from planet formation on the other hand –Jovians on elliptical orbits can disrupt inner planets –Jovians are responsible for creating the debris in the outer Solar System large swings in obliquity (changes in the axial tilt of the planet) can be avoided if the planet has a large moon –axial tilt can change climate, bringing on or ending ice ages

24. Obliquity

25. Life life can significantly alter the planet’s atmosphere and reflectivity, and thereby affect habitability. the dramatic rise of photosynthetically generated O 2 about 2.3Gya probably wiped out most of life as it was then known on Earth, inadvertently creating an ice age!

26. Questions of the Day What does an environment need to provide to be habitable? Why are astrobiologists so hung up on liquid water as being necessary for life? What is a habitable planet, and what factors affect whether or not a planet will be habitable?

27. Quiz 1 - How is the ‘Habitable Zone’ defined? 2 - Is the ‘Habitable Zone’ closer to an M-type (dwarf) star or a G-type (dwarf) star? Why? 3 - What is one thing you did not understand from today’s lecture?