1. Life and Extremes Tori Hoehler NASA-Ames Research Center

2. Seeks to Understand the Origins, Evolution, Distribution, and Destiny of Life in the Universe.

4. “Extremes” Requirements and Limitations What is Life?

5. In Astrobiology: Think Globally, Act Locally... Be practical about where to look and what to look for (that’s the only way to design discerning missions) Think as broadly as possible about our key questions (or risk missing something important)

6. So what is life, anyway? Capable of Darwinian evolution (mutation and natural selection) Some Commonly Cited Attributes: Capable of reproducing itself (Can carry out chemical reactions and synthesis) (Can harness energy from the environment to drive these chemical processes)

7. So what is life, anyway? Life According to Erwin Schrödinger (1944): Does Something Keeps on Doing Something (Longer than if it were Not Alive)

8. To keep doing that something requires plenty of energy Doing anything requiring speed or specificity often requires molecules that are very complex

9. The Factory Analogy for Life (cells are little factories that make more little factories) To build a new factory, we require: Raw Materials Tools & Machinery Energy & Work A Blueprint Energy, Life Requirements: Chemical Stuff, Conditions Appropriate for Complex Molecules, Solvent for Chemistry

10. Raw Materials A way to connect the pieces together A basic building block that can be assembled into large, complex backbones Some interesting decorations to hang along the chain (remember, we are talking about atomic materials)

11. A lesson from Earth...

12. Hydrogen (mostly filler) Carbon (the backbone) Sulfur, Oxygen (interesting decorations) Phosphorus & Nitrogen (backbone & decoration)

13. Chemical bonds are made from electrons, of which life requires some source These building blocks are connected together by chemical bonds

14. This won’t happen (much) in the solid phase, because the molecules can’t come together across a significant distance. It could happen as a gas, but complex molecules are so big that they usually break down before they vaporize. So the molecules of life need to be dissolved in something. For Earth life, water is the solvent To do something, molecules need to interact

15. Energy Chemical Heat Mechanical (as visible light)Radiation

16. Bottom Line Requirements for (our) Life Source of Carbon Source of Electrons Nutrients Source of EnergyWater Microbiologists classify organisms based on how they fulfill these needs

17. What conditions threaten the integrity of big, complex biomolecules? Radiation Strong Acid/Base Harsh Chemicals Heat

18. Any environment in which access to basic requirements is sketchy, or in which conditions threaten the stability of biomolecules, could be considered extreme How can we define the limits for life? Some extremes are absolute (universal to life), some are relative (specific to a particular kind of life)

19. Use the only life we know – life on Earth – as a guide to understanding the prospects for, and how to seek, life elsewhere in the universe.

20. How valid is the Earth-analog approach? It’s the best we’ve got, so far... Demands a focus on common traits, avoidance of highly specific circumstances

21. If we seek to broadly define life's capabilities and limits, microbes are the place to look

22. Genetic Diversity

23. Aerobic (O 2 -based): Light Inorganic Chemicals Organic Matter Anaerobic: Light Inorganic Chemicals Organic Matter Microbial World Microbial Mat Macroscopic World Plants Animals Metabolic Diversity

24. Tolerance of Extremes... Acid Drainage (pH -0.7), Iron Mountain, CA (Photo: C. Alpers & D. Nordstrom, USGS) Halite-Saturated Ponds, SF Bay (Photo: NASA) Hydrothermal Vent (T = 115 ºC) (Photo: NOAA)

25. Some extremes that we will see Low Temperature Highly Salty Chemical Toxicity High Temperature High / Low pH Desiccation / High Radiation

26. Back to the Big Picture... Understanding extremes on Earth, especially with the broad example of microbes, helps us to define “habitability”. In a theoretical sense, this tells us how common life could be. In a practical sense, it tells us where and how to focus a search for life on other worlds.

27. Questions?